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Effect of neonatal thymectomy and antilymphocyte globulin on non-specific mitogen stimulation in Holstein-Friesian calves
Veterinary Immunology and Immunopathology, 2 (1981) 175--188 Elsevier Scientific Publishing C o m p a n y , A m s t e r d a m -- Printed in Belgium
175
EFFECT OF N E O N A T A L T H Y M E C T O M Y AND A N T I L Y M P H O C Y T E GLOBULIN ON N O N - S P E C I F I C MITOGEN S T I M U L A T I O N IN H O L S T E I N - F R I E S I A N CALVES
T.G.
SNIDER
III I
L.G.
ADAMS 2 and K.R.
PIERCE 2
IDepartment of V e t e r i n a r y Pathology, School of V e t e r i n a r y Medicine, L o u i s i a n a State University, Baton Rouge, L o u i s i a n a 70803 (U.S.A.) 2 D e p a r t m e n t of V e t e r i n a r y Pathology, College of V e t e r i n a r y Medicine, Texas A & M University, C o l l e g e Station, Texas 77843 (U.S.A.)
(Accepted
i0 D e c e m b e r
1980)
ABSTRACT
Snider III, T.G., Adams, L.G., and Pierce, K.R., 1981. Effect of N e o n a t a l T h y m e c t o m y and A n t i l y m p h o c y t e G l o b u l i n on N o n - S p e c i f i c Mitogen S t i m u l a t i o n in H o l s t e i n - F r i e s i a n Calves. Vet. Immunol. I mmu n o p a t h o l . , 2: 175-188.
Nine of seventeen neonatal H o l s t e i n - F r i e s i a n calves were thymectomized, treated with a n t i l y m p h o c y t e globulin, and monitored for i mmunol o g i c functional ability for 4 to 6 months. The thymus weights for 4 to 10-day-old calves and 4 to 6-month-old calves indicated a c o n t i n u e d increase in total weight. This indicated significant thymic involution had not o c c u r r e d at 4 to 6 months. Following thymectomy a wasting syndrome was not o b s e r v e d although an increased incidence of a lowly v i r u l e n t v i r u s infection did occur. A significant decrease in c ircula t i n g lymphocytes was observed. P e r i p h e r a l blood lymphocytes were stimulated in vitro by nons pecifi c mitogens, p h y t o h e m a g g l u t i n i n , bacterial l i p o p o l y s a c c h a r i d e and pokewee d m i t o g e n using the whole blood culture method. Observations included a g r e a t e r response to p h y t o h e m a g g l u t i n i n and pokeweed mitogen in summer months and v a r i a b l e age related response to all mitogens. L i p o p o l y s a c c h a r i d e s t i m u l a t i o n results were inconclusive. It was concluded that neonatal thymectomy was not a satisfactory e x p e r i m e n t a l p r o c e d u r e for the p r o d u c t i o n of selective i m m u n o s u p p r e s s i o n in the bovine species. INTRODUCTION
Neonatal serum
(ALS)
thymectomy or
the s e l e c t i v e (Miller,
1962,
(TX)
in laboratory
antilymphocyte suppression East
1973).
Neonatal
humoral
immune
TX
(HI)
globulin
of cell
et al.,
1967;
in calves response
was
mediated Iwasaki not
animals
(ALG)
and man
induce
immune
(CMI)
responses
et al.,
1967;
Lance
associated
to o v a l b u m i n
and a n t i l y m p h o c y t e
in animals
with
or tetanus
et al.,
an altered toxoid
in a
176
limited
study
et al.,
1968).
unthrifty wasting
that
observed
et
and P a p p ,
1960;
2,000
cells
in 2 o f
al.,
successful
neoplastic
cells,
(Donawick calf
to
et
TX
et
calves The
has
with
1974;
1967);
1974)
or
of
Eisen,
AND
neonatally
from
in J u n e
3-day-old a well
2 began
in the w i n t e r
scope
of
to
count
calves
necessarv
shown
the
bovine
lymphocytes
to t r e a t
of
et
et
et
was
neonatally
of CMI
responses.
mitogens
lipopolysaccharide the CMI
al.,
al.,
response
Muscoplat
and
non-sDecific
capacity
The
alloqrafts
removal
the
reduces has
derived
made
Mechaness
colostrum-fed
managed
and J u l y
(IC, g r o u p
T X was
Various
of
is r e f l e c t i v e
TX
1,000
of
to N S M
CMI
not
et
et
al.,
to the
and HI
1975).
has
Lazary
Lazary
lymphocytes
of both al.,
1973;
1973;
(LPS),
system
The been
response
of
reported.
METHODS
control
Neonatal
1974;
of
(Gabel
in c a l v e s
ALS
thymus
been
(Mackaness
respectively.
al.,
leukocyte
selectively
have
bacterial
the
1972;
(PWM),
of
has
response
system
was
Animals
Seventeen
began
the HI
with
selective
of
the
calf
29 c a l v e s
blood
skin
Studies
seeding
and
et
a decrease
or A L G
of n o r m a l
the
an
to
condition
Carroll
involving
use of ALS
treatment
(PHA)
Fitzgerald,
ALS
1975).
for
calves
1968).
The
attempt
(Carroll
similar
in a h e i f e r
although
using
a measure
(Eisen,
from
Experimental
obtained
as
mitogen
responsiveness
MATERIALS
al.,
peripheral No
1966;
in the p e r i p h e r a l
et
Bach,
or A L G
1974),
pokeweed
lymphocytes
1967),
continued
lymphocyte
accepted
(Parrott,
NSM,
al.,
bull
1967)
unthrifty
al.,
et
phytohemagglutinin
been
al.,
of
et
in 2 e x p e r i m e n t s
1973).
ALS
al.,
or
al. , 1973).
1970;
et
not o b s e r v e d
transplantation
with
al.,
degree
(NSM),
was
observed
et
but
al.,
be born
(Schultz
(Coleman
(Carroll
(Lance
of CMI r e s p o n s e s
and a t r a n s i e n t
immunosuppression
function
allowed
calves
ul was
3 TX s a l v e s
(Leighton
condition
1967)
evaluation
of 4 H o l s t e i n - F r i e s i a n
rodents
Chanana
per
Biological CMI
study
in T X
wasting
(Leighton
include
developed
in 7 TX bull This
not
In the
condition
syndrome
1968).
did
4)
with
at 4 to
experimental
this
parenthesis):
paper.
and
4 TX
10 days
lasted (group and
procedures
These
prescapular
Holstein-Friesian in 2 c h r o n o l o g i c a l
5 neonatally
calves with
dairy
lymph
two
node
(qroum
I) and
were
included
TX
2)
approximately 4 IC
calves
the
biopsy
and
(group
and
ages
of
(5 w e e k s
calves
3)
Phase
calves. s h a m TX.
beyond
calves and
I
4 intact
4 were
are
were
Phase
5 months.
in g r o u p
performed
(with
bull
phases.
the
given
in
approximately
177
12 weeks), diarrhea
chicken
virus
vaccination
and
respectively) The
results
paper will
of
be identified
calves with 3 were
were
equine
and
and
and severe
erythrocyte activity
(11 and
be reported
antibovine
was
with
viral abortus
15 weeks, (16-24 weeks).
separately
and
in this
procedures.
titers
with was
produced
of
the g l o b u l i n
4 times
ALG
horse
assayed
in vitro 1:128
bovine
transient
lymphocytes
in an 8-month-old
1:64,
respectively,
for
The ALG a 50% d e c r e a s e
in hematocrit
at 72 hours.
erythrocytes.
at 24
The ALG
The
was
anti-
of the a n t i t h r o m b o c y t e
thrombocytopenia
was observed
anti-
lymphoagglutination
calf with
independently
2 calves
The
(2 gm/dl).
50% decrease
washed
removed
and
(NHG).
for
and
fraction
(4,000/ul)
at 48 hour
(0.04 g/kg)
globulin
in an 8-month-old
thrombocytopenia
blood
injected
normal
in vivo
absorbed
which
(0.04 g/kg)
bovine
Brucella
inoculation
immunological
approximately
activity
of p e r i p h e r a l
with
for
assayed
subsequently
will
as other
activity
1:16
in lymphocytes, hours
immunization
produced
lymphocytotoxicity
(0.025 g/kg)
2 only),
Calmette-Guerin
subcutaneously
treated
lymphocyte
the p l a s m a
(7 weeks),
in phase
Globulin
intervals
and
toxoid
these p r o c e d u r e s
in grou p bovine
tetanus
immunization
(9 weeks
and B a c i l l u s
Antilymphocyte
All TX
erythrocyte
infection
and
8 hours
a 73% reduction
after
I dose
calf.
Thymectomy
The TX p r o c e d u r e the xiphoid thymus
and all
building.
From
were
commercial building Routine
milk
on
calf
1967).
surgery
was
Mean
from other
replacer
concrete
floors
covered
The
in stalls with
fresh
of measuring
were
and analyzed
total
leukocyte
obtained
from
for d i f f e r e n c e s
(TWBC)
related
until
were
necropsy
were
pine wood
and daily
.05 g)
lymphocyte collections
to TX.
frame
shavings.
temperature, u and
the
fed
in an enclosed
(400,000 and
procedures
calves
rectal
I to 4 blood
to
of the thoracic
the e x p e r i m e n t a l
at age 3 days
of p e n i c i l l i n - s t r e p t o m y c i n
weekly
from the mandible
surgical
within
animals.
and housed
consisted
incision
for removal
Standard
performed
the day of arrival
monitoring
concentrations
a midline
thoracotomy
et al.,
isolated
administration weeks.
involved
a sternal
(Leighton
observed
calves
with
for 4
(TLYM) from each
178
Lymphocyte
Upon
Blastogenesis
the arrival
blood was
of each
collected
(5-10 u/ml of blood) using al.,
the whole 1974).
for
Oxnard,
blood
culture
mixed ing
with
USA).
penicillin
no mitogen
Laboratories,
E. coli,
in phase
2, Difco
Company,
Grand
manufacturer The
were
50 ul of RPMI-1640 Thymidine Nuclear,
cultures were
were
sample The
filters
were
Ill.,
stimulation triplicate cultures The
USA).
culture
Statistical
IDepartment
added
with
Counter,
counts
were
stored
a liquid Packard counts
per minute
in the unstimulated using
System's The
study
USA.
analysis
well,
before
New
the
the cultures multiple
USA).
and placed
in
(29 g Fluoralloy
in the dark
and
per
at 4C until spectrometer
Company,
Downers
lymphocyte the
in the NSM
control
designed
Statistics,
(3H-TdR,
fluid
average
of
stimulated
cultures.
of v a r i a n c e
(SAS) general was
thymidine
Wis.,
made
for After
by dividing
(CPM)
air
collection.
scintillation
were
by the
= 6.7 Ci/mmol,
Instrument
calculated
055:B5,
Biological
a semi-automatic
for 24 hours
Difco
LPS
E. coli,
to each
16 hours
10 ml s c i n t i l l a t i o n
of E x p e r i m e n t a l La.,
activity
Madison,
(SI) were
Analysis
Baton Rouge,
specific
at 70C
(40 ug/ml,
of 5 ul/ml.
USA) was
Hiller,
contain-
as recommended
blood
Otto
The v i a l s
analyzed
IBM 360 computer I.
after
was
either
in 5% CO 2 h u m i d i f i e d
hour
an additional
Five minute
by the CPM
SI were
concentration
and was
of wells
which
Island
et
to
Plastics,
1974),
diluted
using
was m e a s u r e d
indices
(Grand
was
filters
dried
of toluence).
et al.,
fiber
with
(TriCarb S c i n t i l l a t i o n Grove,
for
PWM
(RPMI-1640
PHA-P
0.5 uCi of tritiated
Mass.,
(SAMSH,
vials
radioactivity
which
(methyl-3HO), Boston,
media
Muscoplat
of blood
coli,
I or 50 mg/ml,
at 37C
containing
1972;
(Falcon
following:
(Lazarry
one
blastogenesis
sample
streptomycin)
or PWM
USA)
within
plates
culture
in phase
incubated
on glass
harvester
scintillation gallon
NY,
incubated
collected
tissue
USA)
and Good,
in each
thereafter,
heparinate
in each of a series
100 ug/ml
at a final
beginning
England
of
Mi.,
of lymphocyte
from E s c h e r i c h i a
microtiter
and
intervals
into sodium
(Park
ul of blood
Laboratories),
and used
NET-027
LPS
0111:B4
Island,
cultures
30-32 hours
method
or one of the
Detroit,
(0.05 ug/ml,
at 2 weeks
lymphocytes
using
Fifty
an equal v o l u m e
100 u/ml
contained
of
(PHA-P),
in triplicate Ga.,
and
the m e a s u r e m e n t
The response
phytohemagglutinin-P measured
calf
by jugular v e n i p u n c t u r e
linear
(ANOVA) models
with
the
program
on an
as a 2 X 2 factoral
Louisiana
State University,
179
arrangement and
no TX
mental and
of
treatments
and p h a s e
hypotheses
IC c a l v e s
2) t h e r e
was
in p h a s e
to the
responses blood
the by
same
were:
I (group
to NSM,
used
lymphocytes the
tested
no d i f f e r e n c e
of
the
in a s p l i t
I and p h a s e
for
per
procedure
to
2 and
and p h a s e
4)
I and
assays
into
test
on
was
the p e r i p h e r a l
(LY)
design.
a split
I) t h e r e
in p h a s e
the N S M
ul
plot
2 with
phase
an
the P H A - P
the
factors The
no d i f f e r e n c e
blood
and
The time.
2 (groups
lymphocyte
CPM
between
2 calves.
index
TX
I and
3)
In a d d i t i o n counts
created
(PHA/LY)
were TX
experi-
per
ul
by d i v i d i n g
were
anlayzed
hypotheses.
RESULTS
The the
weight
narrow
ooint
of
thymic from
of
the
isthmus
division
tissue
from TX
respiratory
ratio
(CTR) v a r i e d
TABLE
from
IA IB IC ]D 2A 2B 2C 2D 2E OA OB Mean n
of
0.14 the
thymic
tissue and
calves
to
139.3 g from
to
f r o m each at the
thoracic
including
immediately (Table
1.49
to 2.86
.035.
Similar
IC c a l v e s
revealed
and
inlet The
used
mean
(OA and OB)
surgery cervial
was to
and
thymic
with as the
weight which
of
a
thymus
body
weight
calculations
weight
of
died
97.8 g w i t h
thoracic
the p e r c e n t a g e
measurements a mean
measured
thymus.
2 calves
The
was
thoracic
after
I).
calf
after
of 2 7 2 . 3 g w i t h
I
T h e ages Friesian
Calf
37.6 g
removed
cervical
acidosis
of
necroosy
of of
ranme
varied
thymus
at the calves
Age (days) 8 7 4 7 7 10 9 8 7 6 4 7 11
time
of
thymectomv
and
thymic
T h y m i c W e i g h t (g) Cervical Thoracic Total 22.5 81.0 90.0
15.1 37.0 31.5 .... 57.6 23.8 71.4 32.5 64.7 39.5 61.6 23.6 98.0 41.3 73.0 30.5 . . . . . . . . 68.9 30,5 9 9
* R a t i o b e t w e e n the w e i q h t n = n u m b e r of calves.
of
cervical
37.6 118.0 121.5 84.3 81.4 103.9 104.2 85.2 139.3 103.5 97.0 97.8 11
and
size
CTR*
for
11 H o l s t e i n -
% Body
1.49 2.19 2.86
0.14 0.30 0.31 0.21 0.18 0.23 0.27 0.18 0.35 0.27 0.25
2.42 2.20 1.64 2.61 2.37 2.37 .... 2.26 9
thoracic
Weight
thymus.
180
a mean CTR of ( T a b l e II).
TABLE
2.17
and
a slightly
Calf
at the calves
time
Age (days)
3A 3B 3C 3D 4A 4B 4C 4D Mean n
of
euthanasia
23 22 21 19 19 18 17 17 19.5 8
Tissue
258.2 168.4 212.8 214.1 176.3 117.9 181.2 162.5 186.4 8
suspected
cervical
and
Residual
thymic
2B and
113.6 91.7 85.8 82.3 71.6 69.5 84.8 87.5 85.9 8
of
to be
thoracic
thymus
regions
tissue,
was
of
identified
located
in the
larynx
and
closely
associated
glands.
in an IC calf
Thymic
(calf
in all
All T X
the
body
weight
s h a m TX
calves
and w e r e
at rest
to s u r g i c a l
infected
coli)
and
treatment
calves) mucosa
with
focal
systemic
virus
made
thymus.
the
each
TX
anterior calf.
in c a l v e s
region,
submandibular
located
dorsal
structure
uneventful mild
infections
of
most
of
erosions
calves
and
and h y p e r e m i a persisted
disease
isolation infection
for
being were
in 5 of
IA,
ID,
2A,
dorsolateral and/or to the the
to
Darotid larynx
thymus
and
was
shallow of
the
as long
anorexia
consistent
(Griesemer
despite
and C o l e ,
"7 o f of
8 IC
the o r a l
fungiform
4 weeks
in calf with
topical
peroxide.
9 T X and
lingual
These
Klebsiella,
ulcerations
as
surgery
3B.
bovine 1960).
with
in
recumbency
9 TX c a l v e s .
hydrogen
(6 of
from
Sternal
(Proteus,
in 3 c a l v e s
(Lugol's) the
recoveries
replacer.
bacteria
persisted
solution
lesions
and v i r a l
stomatitis
also
to n u r s e
wound
infection
hypertrophy The
of
was
cervical
Weight
0.31 0.20 0.20 0.26 0.17 0.16 0.21 0.23
from of
histologically
the
% Body
2.27 1.84 2.84 2.60 2.46 1.70 2.14 1.86 2.17 8
thoracic
histological
opportunistic
iodine
developed
evidence
able
2 to 3 w e e k s
papillae.
lesions
with
the
with
Within
The
CTR*
necropsy
with
for 8 H o l s t e i n -
calves.
and
lead
and
anterior
tissue
3D).
I to 5 h o u r s
became
size
collected
during
was
normal
thymic
371.8 260.1 298.6 296.4 247.9 187.4 266.0 250.0 272.3 8
cervical
2C,
salivary
and
T h y m i c W e i g h t (g) Cervic@l Thoracic Total
* R a t i o b e t w e e n the w e i g h t n = n u m b e r of c a l v e s .
E.
percentage
II
T h e ages Friesian
the
lower
the o n l y
Histological papular
181
The and
average
associated TLYM
selected was
for T X
and
(Figure
TWBC
the TX TX
The
the TX when
and
in the T X
and
from
in the
were
The
calves
was
to 4054
mean TLYM
For w e e k s
was
and
calves
in the T X
(Figure
I).
were
not g r e a t l y
distinctly
TLYM
of
the
4-17
2840)
calves
between
ages
I
different
2 groups
of
than
mean
ages.
until
lower
TLYM
in
in the
The TLYM
the
third
occurred
in
in the TX
The g r e a t e s t
calves
the m e a n
the m e a n T W B C
(P < 0.05)
at all
lower TLYM.
the 4th week, between
more
The w e e k l y
IC c a l v e s
had
until
significantly
in the IC c a l v e s
mean
age
mean TWBC
between
difference
(mean o f
than
in the w e e k l y
(TWBC)
for
calves
mean TWBC
higher
(P < 0.001)
IC c a l v e s .
1242
IC c a l v e s
calves
The
the
in the IC c a l v e s
lower
the T X
of
t-test
overall than
leukocytes by A N O V A
of TX.
arrival
Student's
lower
significant
overall
than
calves
using
of
blood
analyzed
I).
in the T X
IC c a l v e s v a r i e d
total and
the e f f e c t
time
IC g r o u p s .
the T W B C
a highly
to
the
(P < 0.05)
17 w e e k s
calves.
related at
of
determined
no d i f f e r e n c e s
Although
weekly
were
collected
significantly
there was
concentrations
(TLYM)
differences
in b l o o d
demonstrated
to
weekly
lymphocytes
of
week
difference at
age
8
weeks. The by
approximate
the o v e r a l l
7491CPM CPM.
mean
for PWM.
Individual
marked
to N S M
differences III,
(Tables
for P H A - P ,
mean CPM
for
seldom varied the v a r i a n t
related
the o t h e r
ages.
the w e e k l y
mean
LPS
the m e a n s
was
SI of
were
and
by N S M
was
reflected
1846 CPM
control
for LPS
cultures
by more
than
culture
result
weekly
mean
0.003)
different
PHA-P
there
was
which
implies
the
not
was
and
911
20% but w h e n was
not
used
to
SI
that
response
week
did
not
to PHA-P,
(P < 0.003)
LPS o r
in m e a n s
I SI was g r e a t e r
(P < 0.02)
age g r o u p s
mean NSM
VI,
VII, was
than
interaction
at
between
which
implied
the d i f f e r e n c e s
SI due
to calf
age w a s
and
(phase
lower
the
I plus
(P < 0.01)
the m e a n
PHA-P
between
VIII).
at the d i f f e r e n t
a significant
in the
a difference
the m e a n
different
higher
I to 7 w e e k s
consistent.
the m e a n L P S
and PWM w e r e
was
ages
significant
in the w e e k l y
(Tables
for
to T X
There
(P < 0.05)
calves
higher
related
to age w h e r e There
The variation significantly
stimulation
IV, V).
for PHA-P
PHA-P
34323 CPM
of
did o c c u r
PWM
(Winter)
induced
overall
cultures
demonstrate
were
stimulation
the SI.
response
between
of
counts The
deviations
calculate The
degree
mean
The
I (summer)
mean
in p h a s e LPS was
phase ages
phase
SI
I. lower
2) w e r e
interaction
for P H A - P The
weekly
in p h a s e
and,
between
2
and P W M mean The
(P <
in a d d i t i o n ,
phase
I and p h a s e
phase
I.
significantly
(Table VIII)
SI of p h a s e
and
and
age,
2 calves
were
182
X 103 13
12, I I0
9 8
V ',d
7'
fs
"'"- "--,. / •
;I
6'
;
5
%
",,,
S"
\
,/% ~e
"%,.,%
,# % p l "%"e"o ~ ' ~
4
I c -WBC
..... IC - LYM ....
T X - WBC
TX - LYM . . . . . .
WEEKS
Fig. I. Mean thymectomized
TABLE
w e e k l y l e u k o c y t e (WBC) and l y m p h o c y t e (TX) and intact c o n t r o l (IC) calves.
(LYM)
counts
in
III
The m e a n p h y t o h e m a g g l u t i n i n - P stimulation indices for l y m p h o c y t e s in w h o l e blood f r o m t h y m e c t o m i z e d (TX) and intact c o n t r o l (IC) calves in p h a s e I (PI) and p h a s e 2 (P2). Treatment Age
G r o u p ns
(weeks)
I 2,3 4,5 6,7 M e a n ns n
I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
Mean*
35.98 57.15 23.88 30.88 36.19 4
158.32 70.05 33.76 28.99 72.23 5
36.03 21.86 15.98 32.80 24.96 4
130.02 56.92 43.22 52.27 69.09 4
94.10 53.03 27.33 35.54
* D i f f e r e n c e in m e a n s b e t w e e n ages, s i g n i f i c a n t , P < 0.0003. n s D i f f e r e n c e b e t w e e n means, not s i g n i f i c a n t , P > 0.05. n = n u m b e r of calves.
17
183
TABLE
IV
The mean in w hol e in phase
E. coli l i p o p o l y s a c c h a r i d e stimulatin indices for lymphocytes blood from t h y m e c t o m i z e d (TX) and intact control (IC) calves I (PI) and phase 2 (P2). Treatment
Age
Group*
(weeks) I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
2.06 2.69 1.82 3.38 2.42 4
1.20 0.75 0.83 1.20 0.95 5
4.36 1.49 1.86 2.47 2.43 4
1.32 1.43 1.23 1.03 1.27 4
I 2,3 4,5 6,7 Mean ns n
2.17 1.42 1.48 2.03 17
* D i f f e r e n c e in means related to age, thymectomy and phase significant, P < 0.02. n s D i f f e r e n c e between means, not significant, P > 0.05. n = number of calves.
T A BLE
Mean ns
interaction,
V
The mean p o k e w e e d m i t o g e n s t i m u l a t i o n indices for lymphocytes in whole blood from t h y m e c t o m i z e d (TX) and intact control (IC) calves in phase I (PI) and Phase 2 (P2). Treatment Age
G r o u p ns
(weeks) I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
5.74 6.09 4.80 6.73 5.70 4
9.68 21.44 10.18 6.92 14.30 5
12.44 4.09 3.93 5.09 6.20 4
30.44 15.14 14.50 8.20 16.85 4
I 2,3 4,5 6,7 Mean ns n
n s D i f f e r e n c e between means, n = number of calves. not
consistently
did not differ phases. calves
When
different
the weekly
between
ages
significant
(P < 0.0001)
The each
(Table
with
ages.
the d i f f e r e n c e
The weekly
the P H A / L Y
were
tested
17
mean LPS or PWM in either
indices
SI
of the 2
of TX and IC
for s i g n i f i c a n t
in mean LY between
difference
14.90 13.34 7.76 6.84
P > 0.05.
age of the calves
mean LY and
I to 7 weeks
only
significant,
at all
significantly
differences
phases
not
Mean ns
in mean PHA/LY
ages were indices
between
IX).
mean SI for PHA-P,
phase were
tested
LPS
and PWM
for s i g n i f i c a n t
for each
treatment
differences
over
group the
within
first
21
184 TABLE
VI
The mean p h y t o h e m a g g l u t i n i n - P w h o l e blood from p h a s e I (PI)
Age
(weeks)
stimulation indices for l y m p h o c y t e s and p h a s e 2 (P2) calves.
PI
P2
PI-P2*
in
Mean +
I 145.74 36.01 109.73 94.10 2,3 65.12 38.15 26.97 53.03 4,5 37.96 20.49 17.47 27.33 6,7 39.34 31.73 7.61 35.54 Mean/ 70.92 30.83 n 9 8 17 * D i f f e r e n c e b e t w e e n m e a n s at v a r i o u s ages, s i g n i f i c a n t , P < 0.01. +Difference in m e a n s b e t w e e n ages, s i g n i f i c a n t , P < 0.003. ~Difference in m e a n s b e t w e e n e x p e r i m e n t a l phases, s i g n i f i c a n t , P < 0.05. n = n u m b e r of calves.
TABLE
VII
The m e a n in w h o l e
Age
E. coli l i p o p o l y s a c c h a r i d e s t i m u l a t i o n indices for b l o o d from p h a s e I (Pl) and p h a s e 2 (P2) calves.
(weeks)
I 2,3 4,5 6,7 Mean* n * D i f f e r e n c e in m e a n s P < 0.05. nsDifference between n = n u m b e r of calves.
TABLE
PI 1.25 1.00 1.01 1.13 1.08 9 between means,
P2 3.21 2.03 1.84 3.04 2.42 8 experimental not
P I - P 2 ns
M e a n ns
-1.96 -1.03 -0.83 -1.91
phases,
significant,
2.17 1.42 1.48 2.03
17 significant,
P > 0.05.
VIII
The mean p o k e w e e d m i t o g e n s t i m u l a t i o n indices for blood from p h a s e I (Pl) and p h a s e 2 (P2) calves.
Age
lymphocytes
(weeks)
I 2,3 4,5 6,7 Mean* n * D i f f e r e n c e in m e a n s nsDifference between n = n u m b e r of calves.
PI
P2
lymphocytes
P I - P 2 ns
in whole
Mean ns
21.54 9.09 12.45 14.90 19.07 5.00 14.07 13.34 12.10 4.51 7.59 7.76 7.49 6.11 1.38 6.84 15.42 5.92 9 8 17 b e t w e e n e x p e r i m e n t a l phases, s i g n i f i c a n t , P < 0 . 0 5 means, not s i g n i f i c a n t , P > 0.05.
185 TABLE
IX
The
mean P H A / L Y *
Age
(weeks)
indices
in phase
Phase
I (PI)
and phase
I
Phase
2 (P2)
calves.
2
Mean ns
I 10.56 2.41 6.73 2,3 8.39 3.52 6.20 4,5 8.45 4.04 5.77 6,7 7.80 4.70 6.25 Mean + 8.73 3.72 n 9 8 17 *PHA/LY = counts per minute of p h y t o h e m a g g l u t i n i n - P stimulated lymphocytes in whole blood divided by the total blood lymphocyte concentration. + D i f f e r e n c e in means between experimental phases, significant, P < 0.0001. n s D i f f e r e n c e between means, not significant, P > 0.05. n = number of calves.
weeks
related
response I the
difference
signifi c a n t which
only
to TX.
to PHA-P,
in mean PHA-P
although
implies
that
ages,
similar
age related
SI
no effect
although
various
LPS
In phases
LPS or PWM was
(P < 0.0001)
related
the response did
differences
and PWM
related
(P > 0.05)
TX and IC calves
(P < 0.05)
I and 2 no difference
demonstrated
not respond
between
(P < 0.0004)
means
In phase
to age was
of treatment to mitogens
in the
to TX.
was
were
demonstrated different
differently. for PHA-P
at
In p h a s e
2
(P < 0.0002),
SI were observed.
DISCUSSION
Neonatal
TX was
the thymus. surgical
procedure
evidenced
of
surgical calves
of
the
and
that
N eon a t a l alterations
TX
and
thymus
and TLYM was
variation
cervical appears
prior
have
did not
attributed
consistent in calves,
with mice
thymic
cause
the effect
of
As
the close complete
by c o n v e n t i o n a l
weight
of neonatal indicated
to grow
the severe
with
of
that
up to this
age
involution.
neonatal
to TX did occur.
rats
and
(272.3 g)
continues
associated
and
thymus.
glands,
thymic
calves
to normal
been
of the
to be impossible
calves
portion
to be a d i f f i c u l t
salivary
in mean
17 to 23 w e e k - o l d
was
of the major
found
in 5 of 9 TX calves
difference
in the calf
which
changes
TX
thymus
of H o l s t e i n - F r i e s i a n
necropsy
the removal
calf was
to anatomic
The
and
for
in the
larynx
the bovine
(97.8 g)
thymus
neonatal
due
methods.
the
although
TX
by the residual
association removal
successful
Neonatal
The
immunological TX in rodents
depression
in utero TX of
(Miller,
1962;
Miller
in TWBC
lambs
and
and Osoba,
186
1967;
Carroll
evidence
of
(Leighton sternal the
et
al.,
et
al.,
surgical
normal
localized
1968;
a wasting
1967)
or
wound
sternal areas
the
skin
No variations
infections,
nor
differently
than
differences
case
phase, 1978)
TX
explanation
was
found
of
the
and
at
as
with
residual
TX
rest
The
aggravated
were
were
no
calves
TX.
and
low g r a d e
5 calves
confined
by to
suppurative
attributed
thymus
to
these
respond
calves.
to N S M
and
IC
did
not
calves.
than
lower
In
phases
a different
the
calves
was
in
after
incited
results
other
for
1962)
were
subcutis
experimental
where
(Miller, which
There
described
test
other
between
1971).
in N S M
responses
of LPS,
no
the
the
between
a difference the
did
lymphocyte
rodents
recumbency
of
and M o r r i s ,
as p r e v i o u s l y
infections
processes.
The
Cole
syndrome
LPS
demonstrate almost
all
unrelated
seasonal
analyses
to TX.
preparation
responses
was
influences
during
consistent
the
there
Except
used
in each
(Soper
winter
was
in
et
al.,
months
(Phase
2). The
principal
the v e r y for
the
PHA/LY were
high
age
level
related during
differences indices,
in
no
indices
between
The
phase
I and
PHA/LY
significant
the
mean
the
2 calves
PHA-P
PHA-P
concentration
phase
of
the
when
in m e a n
highly
responsiveness
in
I and,
lymphocyte
differences
demonstrated.
a greater
variation
week
by
SI
CPM
the
was
were
due
to
adjusted
creation
of
indices
related
to TX
difference
in mean
PHA/LY
uo
lymphocytes
to
age
7 weeks
in p h a s e
indicated
2 calves
to N S M
21
in
stimulation. The vitro phase both
difference
biweek!v
of
2 calves
to P H A - P ,
in
The
the
did
Marked
higher
the
greater
in
LPS
and
the
induced
by
neonatal
whole
significantly
obtained
with
response
of
summer
PHA-P
months
reflected
TX
and
and
I to
the
PWM
as m e a s u r e d
degree method.
a brief
regimen
lymphocyte
response
blood
weeks
to P H A - P
culture
in v i t r o
in N S M
peripheral
ages
I calves
blood
alter
differences
for
phase
PWM
in
not
the
from
and
seasonal
values
addition
intevals
lymphocytes
calves
changes
treatment NSM.
at
response
in
were
summer
*H-TdR
the
LPS
in
and
of v a r i a t i o n
of
ALG
responses
observed
months.
lymphocytes bv
and
to
with
In
to P H A - P
was
much
uptake.
ACKNOWLEDGEMENTS
The
authors
technical This the
work
Texas
wish
to
assistance was
thank
and
supported
Agricultural
Betty
Connie
by N I H
Experiment
Rosenbaum
Leggett
for
Fellowship Station.
and R o n manuscript Grant
Blakely
for
preparation.
5T01-GM01232-13
and
187
REFERENCES
Bach, J.F., 1975. The mode of action of i m m u n o s u p p r e s s i v e aqents. Amsterdam, N o r t h - H o l l a n d Publishing Company. Carroll, E.J., Theilen, G.H. and Leighton, R.L., 1968. Immunologic competence of t h y m e c t o m i z e d neonatal calves. Am. J. Vet. Res. 29: 67-70. Chanana, A.D., Cronkite, E.P. and Joel, D.D., 1967. Thymectomy of the calf. Am. J. Vet. Res. 28:1591-1595. Cole, G.J. and Morris, B., 1971. The cellular and humoral response to antigens in lambs t h y m e c t o m i z e d in utero. Aust. J. Exp. Biol. Med. Sci. 49:55-73. Coleman, G.L., Grandall, M.L. and Guidry, A.J., 1966. Surqical ablation of the thymus gland in neonatal dairy calves. Am. J. Vet. Res. 27:1123-1126. Donawick, W.J., Johnstone, C., Martens, J.G., Dodd, D.C., Martin, J.E. and Marshak, R.R., 1970. Successful transplantation of lymphosarcoma in calves treated with antilymphocyte serum. J. Nat. Cancer Inst. 44:467-474. East, J., De Sousa, M.A.B., Parrott, D.M.V. and Jaquet, J., 1967. C o n s e q u e n c e s of neonatal thymectomy in New Zealand black mice. Clin. Exp. Immunol. 2:203-215. Eisen, H.N., 1974. Immunology: an introduction to molecular and cellular p r i n c i p l e s of the immune response (revised reprint). Hagerstown, Md., Harper and Row, pp. 557-595. Fitzgerald, M.G., 1972. A satisfactory quantitative test of lymphocyte response to p h y t o h a e m a g g l u t i n i n for the definition of normal control v a l u e s and r e c o g n i t i o n of immunological defects. J. Clin. Path. 25:163-168. Gabel, A.A. and Papp, E., 1960. Thymectomy of the calf. Am. J. Vet. Res. 21:1126-1128. Griesemer, R.A. and Cole, C.R., 1960. Bovine papular stomatitis. JAVMA 137:404-410. Iwasaki, Y., Porter, K.A., Amend, J.R., Marcioro, T.L., Zuhl~e, V. and Starzl, T.E., 1 9 6 7 . The p r e p a r a t i o n and testing of horse antidog and antihuman antilymphoid plasma or serum and its protein fractions. Surg. Gyn. Obs. 124:1-24. Lance, E.M., Medawar, P.B. and Taub, R.N., 1973. A n t i l y m p h o c y t e serum. Adv. Immunol. 17:1-92. Lazary, S., Rivera, E., DeWeck, A.L., Gerber, H. and Nicolet, J., 1974. In v i t r o stimulation of bovine leucocytes by p h y t o h a e m a g g l u t i n i n and other mitogens. Res. Vet. Sci. 17:344-350. Leighton, R.L., Theilen, G.H. and Scott, F.S., 1967. Thymectomy in the neonatal calf. Am. J. Vet. Res. 28:1817-1821. Machaness, G.B., Allison, A.C., Bloom, B.R., Brunner, T., Godal, T., McGregor, D.D., Nelson, D.S. and Turk, J.L., 1973. Cell-mediated immunity and resistance to infection: report of a WHO scientific group. Int. Arch. Allergy 44:590-648. Miller, J.F.A.P., 1962. Effect of neonatal thymectomy on the immunological r e s p o n s i v e n e s s of the mouse. Roy. Soc. Lond., Proc. Ser. (Biol.) 156:415-428. Miller, J.F.A.P. and Osoba, D., 1967. Current concepts of the immunologic function of the thymus. Physiol. Rev. 47:437-520. Muscoplat, C.C., Chen, A.W., Johnson, D.W. and Alhaji, I., 1974. In v i t r o stimulation of bovine peripheral blood lymphocytes: standardization and k i n e t i c s of the response. Am. J. Vet. Res. 35:15571561.
188
Muscoplat, C.C., Thoen, C.O., Chen, A.W. and Johnson, D.W., 1975. Development of specific in vitro lymphocyte responses in cattle infected with Mycobacterium bovis and the Mycobacterium avium. Am. J. Vet. Res. 36:395-398. Park, B.H. and Good, R.A., 1972. A new micromethod for evaluating lymphocyte responses to phytohemagglutinin: quantitative analysis of the function of thymus-dependent cells. Proc. Nat. Acad. Sci. 69:371-373. Parrott, D.M.V., 1967. The response of draining lymph nodes to immuno logical stimulation in intact and thymectomized animals. Symp. Tissue. Org. Transplant, Supple, J. Clin. Path. 20:456-465. Schultz, R.D., Dunne, H.W. and Heist, C.E., 1973. Ontogeny of the bovine immune response. Inf. and Imm. 7:981-991. Soper, F.F., Muscoplat, C.C. and Johnson, D.W., 1978. In vitro stimulation of bovine peripheral blood lymphocytes: analysis of variation of lymphocyte blastogenic response in normal dairy cattle Am. J. Vet. Res. 39:1039-1042.
175
EFFECT OF N E O N A T A L T H Y M E C T O M Y AND A N T I L Y M P H O C Y T E GLOBULIN ON N O N - S P E C I F I C MITOGEN S T I M U L A T I O N IN H O L S T E I N - F R I E S I A N CALVES
T.G.
SNIDER
III I
L.G.
ADAMS 2 and K.R.
PIERCE 2
IDepartment of V e t e r i n a r y Pathology, School of V e t e r i n a r y Medicine, L o u i s i a n a State University, Baton Rouge, L o u i s i a n a 70803 (U.S.A.) 2 D e p a r t m e n t of V e t e r i n a r y Pathology, College of V e t e r i n a r y Medicine, Texas A & M University, C o l l e g e Station, Texas 77843 (U.S.A.)
(Accepted
i0 D e c e m b e r
1980)
ABSTRACT
Snider III, T.G., Adams, L.G., and Pierce, K.R., 1981. Effect of N e o n a t a l T h y m e c t o m y and A n t i l y m p h o c y t e G l o b u l i n on N o n - S p e c i f i c Mitogen S t i m u l a t i o n in H o l s t e i n - F r i e s i a n Calves. Vet. Immunol. I mmu n o p a t h o l . , 2: 175-188.
Nine of seventeen neonatal H o l s t e i n - F r i e s i a n calves were thymectomized, treated with a n t i l y m p h o c y t e globulin, and monitored for i mmunol o g i c functional ability for 4 to 6 months. The thymus weights for 4 to 10-day-old calves and 4 to 6-month-old calves indicated a c o n t i n u e d increase in total weight. This indicated significant thymic involution had not o c c u r r e d at 4 to 6 months. Following thymectomy a wasting syndrome was not o b s e r v e d although an increased incidence of a lowly v i r u l e n t v i r u s infection did occur. A significant decrease in c ircula t i n g lymphocytes was observed. P e r i p h e r a l blood lymphocytes were stimulated in vitro by nons pecifi c mitogens, p h y t o h e m a g g l u t i n i n , bacterial l i p o p o l y s a c c h a r i d e and pokewee d m i t o g e n using the whole blood culture method. Observations included a g r e a t e r response to p h y t o h e m a g g l u t i n i n and pokeweed mitogen in summer months and v a r i a b l e age related response to all mitogens. L i p o p o l y s a c c h a r i d e s t i m u l a t i o n results were inconclusive. It was concluded that neonatal thymectomy was not a satisfactory e x p e r i m e n t a l p r o c e d u r e for the p r o d u c t i o n of selective i m m u n o s u p p r e s s i o n in the bovine species. INTRODUCTION
Neonatal serum
(ALS)
thymectomy or
the s e l e c t i v e (Miller,
1962,
(TX)
in laboratory
antilymphocyte suppression East
1973).
Neonatal
humoral
immune
TX
(HI)
globulin
of cell
et al.,
1967;
in calves response
was
mediated Iwasaki not
animals
(ALG)
and man
induce
immune
(CMI)
responses
et al.,
1967;
Lance
associated
to o v a l b u m i n
and a n t i l y m p h o c y t e
in animals
with
or tetanus
et al.,
an altered toxoid
in a
176
limited
study
et al.,
1968).
unthrifty wasting
that
observed
et
and P a p p ,
1960;
2,000
cells
in 2 o f
al.,
successful
neoplastic
cells,
(Donawick calf
to
et
TX
et
calves The
has
with
1974;
1967);
1974)
or
of
Eisen,
AND
neonatally
from
in J u n e
3-day-old a well
2 began
in the w i n t e r
scope
of
to
count
calves
necessarv
shown
the
bovine
lymphocytes
to t r e a t
of
et
et
et
was
neonatally
of CMI
responses.
mitogens
lipopolysaccharide the CMI
al.,
al.,
response
Muscoplat
and
non-sDecific
capacity
The
alloqrafts
removal
the
reduces has
derived
made
Mechaness
colostrum-fed
managed
and J u l y
(IC, g r o u p
T X was
Various
of
is r e f l e c t i v e
TX
1,000
of
to N S M
CMI
not
et
et
al.,
to the
and HI
1975).
has
Lazary
Lazary
lymphocytes
of both al.,
1973;
1973;
(LPS),
system
The been
response
of
reported.
METHODS
control
Neonatal
1974;
of
(Gabel
in c a l v e s
ALS
thymus
been
(Mackaness
respectively.
al.,
leukocyte
selectively
have
bacterial
the
1972;
(PWM),
of
has
response
system
was
Animals
Seventeen
began
the HI
with
selective
of
the
calf
29 c a l v e s
blood
skin
Studies
seeding
and
et
a decrease
or A L G
of n o r m a l
the
an
to
condition
Carroll
involving
use of ALS
treatment
(PHA)
Fitzgerald,
ALS
1975).
for
calves
1968).
The
attempt
(Carroll
similar
in a h e i f e r
although
using
a measure
(Eisen,
from
Experimental
obtained
as
mitogen
responsiveness
MATERIALS
al.,
peripheral No
1966;
in the p e r i p h e r a l
et
Bach,
or A L G
1974),
pokeweed
lymphocytes
1967),
continued
lymphocyte
accepted
(Parrott,
NSM,
al.,
bull
1967)
unthrifty
al.,
et
phytohemagglutinin
been
al.,
of
et
in 2 e x p e r i m e n t s
1973).
ALS
al.,
or
al. , 1973).
1970;
et
not o b s e r v e d
transplantation
with
al.,
degree
(NSM),
was
observed
et
but
al.,
be born
(Schultz
(Coleman
(Carroll
(Lance
of CMI r e s p o n s e s
and a t r a n s i e n t
immunosuppression
function
allowed
calves
ul was
3 TX s a l v e s
(Leighton
condition
1967)
evaluation
of 4 H o l s t e i n - F r i e s i a n
rodents
Chanana
per
Biological CMI
study
in T X
wasting
(Leighton
include
developed
in 7 TX bull This
not
In the
condition
syndrome
1968).
did
4)
with
at 4 to
experimental
this
parenthesis):
paper.
and
4 TX
10 days
lasted (group and
procedures
These
prescapular
Holstein-Friesian in 2 c h r o n o l o g i c a l
5 neonatally
calves with
dairy
lymph
two
node
(qroum
I) and
were
included
TX
2)
approximately 4 IC
calves
the
biopsy
and
(group
and
ages
of
(5 w e e k s
calves
3)
Phase
calves. s h a m TX.
beyond
calves and
I
4 intact
4 were
are
were
Phase
5 months.
in g r o u p
performed
(with
bull
phases.
the
given
in
approximately
177
12 weeks), diarrhea
chicken
virus
vaccination
and
respectively) The
results
paper will
of
be identified
calves with 3 were
were
equine
and
and
and severe
erythrocyte activity
(11 and
be reported
antibovine
was
with
viral abortus
15 weeks, (16-24 weeks).
separately
and
in this
procedures.
titers
with was
produced
of
the g l o b u l i n
4 times
ALG
horse
assayed
in vitro 1:128
bovine
transient
lymphocytes
in an 8-month-old
1:64,
respectively,
for
The ALG a 50% d e c r e a s e
in hematocrit
at 72 hours.
erythrocytes.
at 24
The ALG
The
was
anti-
of the a n t i t h r o m b o c y t e
thrombocytopenia
was observed
anti-
lymphoagglutination
calf with
independently
2 calves
The
(2 gm/dl).
50% decrease
washed
removed
and
(NHG).
for
and
fraction
(4,000/ul)
at 48 hour
(0.04 g/kg)
globulin
in an 8-month-old
thrombocytopenia
blood
injected
normal
in vivo
absorbed
which
(0.04 g/kg)
bovine
Brucella
inoculation
immunological
approximately
activity
of p e r i p h e r a l
with
for
assayed
subsequently
will
as other
activity
1:16
in lymphocytes, hours
immunization
produced
lymphocytotoxicity
(0.025 g/kg)
2 only),
Calmette-Guerin
subcutaneously
treated
lymphocyte
the p l a s m a
(7 weeks),
in phase
Globulin
intervals
and
toxoid
these p r o c e d u r e s
in grou p bovine
tetanus
immunization
(9 weeks
and B a c i l l u s
Antilymphocyte
All TX
erythrocyte
infection
and
8 hours
a 73% reduction
after
I dose
calf.
Thymectomy
The TX p r o c e d u r e the xiphoid thymus
and all
building.
From
were
commercial building Routine
milk
on
calf
1967).
surgery
was
Mean
from other
replacer
concrete
floors
covered
The
in stalls with
fresh
of measuring
were
and analyzed
total
leukocyte
obtained
from
for d i f f e r e n c e s
(TWBC)
related
until
were
necropsy
were
pine wood
and daily
.05 g)
lymphocyte collections
to TX.
frame
shavings.
temperature, u and
the
fed
in an enclosed
(400,000 and
procedures
calves
rectal
I to 4 blood
to
of the thoracic
the e x p e r i m e n t a l
at age 3 days
of p e n i c i l l i n - s t r e p t o m y c i n
weekly
from the mandible
surgical
within
animals.
and housed
consisted
incision
for removal
Standard
performed
the day of arrival
monitoring
concentrations
a midline
thoracotomy
et al.,
isolated
administration weeks.
involved
a sternal
(Leighton
observed
calves
with
for 4
(TLYM) from each
178
Lymphocyte
Upon
Blastogenesis
the arrival
blood was
of each
collected
(5-10 u/ml of blood) using al.,
the whole 1974).
for
Oxnard,
blood
culture
mixed ing
with
USA).
penicillin
no mitogen
Laboratories,
E. coli,
in phase
2, Difco
Company,
Grand
manufacturer The
were
50 ul of RPMI-1640 Thymidine Nuclear,
cultures were
were
sample The
filters
were
Ill.,
stimulation triplicate cultures The
USA).
culture
Statistical
IDepartment
added
with
Counter,
counts
were
stored
a liquid Packard counts
per minute
in the unstimulated using
System's The
study
USA.
analysis
well,
before
New
the
the cultures multiple
USA).
and placed
in
(29 g Fluoralloy
in the dark
and
per
at 4C until spectrometer
Company,
Downers
lymphocyte the
in the NSM
control
designed
Statistics,
(3H-TdR,
fluid
average
of
stimulated
cultures.
of v a r i a n c e
(SAS) general was
thymidine
Wis.,
made
for After
by dividing
(CPM)
air
collection.
scintillation
were
by the
= 6.7 Ci/mmol,
Instrument
calculated
055:B5,
Biological
a semi-automatic
for 24 hours
Difco
LPS
E. coli,
to each
16 hours
10 ml s c i n t i l l a t i o n
of E x p e r i m e n t a l La.,
activity
Madison,
(SI) were
Analysis
Baton Rouge,
specific
at 70C
(40 ug/ml,
of 5 ul/ml.
USA) was
Hiller,
contain-
as recommended
blood
Otto
The v i a l s
analyzed
IBM 360 computer I.
after
was
either
in 5% CO 2 h u m i d i f i e d
hour
an additional
Five minute
by the CPM
SI were
concentration
and was
of wells
which
Island
et
to
Plastics,
1974),
diluted
using
was m e a s u r e d
indices
(Grand
was
filters
dried
of toluence).
et al.,
fiber
with
(TriCarb S c i n t i l l a t i o n Grove,
for
PWM
(RPMI-1640
PHA-P
0.5 uCi of tritiated
Mass.,
(SAMSH,
vials
radioactivity
which
(methyl-3HO), Boston,
media
Muscoplat
of blood
coli,
I or 50 mg/ml,
at 37C
containing
1972;
(Falcon
following:
(Lazarry
one
blastogenesis
sample
streptomycin)
or PWM
USA)
within
plates
culture
in phase
incubated
on glass
harvester
scintillation gallon
NY,
incubated
collected
tissue
USA)
and Good,
in each
thereafter,
heparinate
in each of a series
100 ug/ml
at a final
beginning
England
of
Mi.,
of lymphocyte
from E s c h e r i c h i a
microtiter
and
intervals
into sodium
(Park
ul of blood
Laboratories),
and used
NET-027
LPS
0111:B4
Island,
cultures
30-32 hours
method
or one of the
Detroit,
(0.05 ug/ml,
at 2 weeks
lymphocytes
using
Fifty
an equal v o l u m e
100 u/ml
contained
of
(PHA-P),
in triplicate Ga.,
and
the m e a s u r e m e n t
The response
phytohemagglutinin-P measured
calf
by jugular v e n i p u n c t u r e
linear
(ANOVA) models
with
the
program
on an
as a 2 X 2 factoral
Louisiana
State University,
179
arrangement and
no TX
mental and
of
treatments
and p h a s e
hypotheses
IC c a l v e s
2) t h e r e
was
in p h a s e
to the
responses blood
the by
same
were:
I (group
to NSM,
used
lymphocytes the
tested
no d i f f e r e n c e
of
the
in a s p l i t
I and p h a s e
for
per
procedure
to
2 and
and p h a s e
4)
I and
assays
into
test
on
was
the p e r i p h e r a l
(LY)
design.
a split
I) t h e r e
in p h a s e
the N S M
ul
plot
2 with
phase
an
the P H A - P
the
factors The
no d i f f e r e n c e
blood
and
The time.
2 (groups
lymphocyte
CPM
between
2 calves.
index
TX
I and
3)
In a d d i t i o n counts
created
(PHA/LY)
were TX
experi-
per
ul
by d i v i d i n g
were
anlayzed
hypotheses.
RESULTS
The the
weight
narrow
ooint
of
thymic from
of
the
isthmus
division
tissue
from TX
respiratory
ratio
(CTR) v a r i e d
TABLE
from
IA IB IC ]D 2A 2B 2C 2D 2E OA OB Mean n
of
0.14 the
thymic
tissue and
calves
to
139.3 g from
to
f r o m each at the
thoracic
including
immediately (Table
1.49
to 2.86
.035.
Similar
IC c a l v e s
revealed
and
inlet The
used
mean
(OA and OB)
surgery cervial
was to
and
thymic
with as the
weight which
of
a
thymus
body
weight
calculations
weight
of
died
97.8 g w i t h
thoracic
the p e r c e n t a g e
measurements a mean
measured
thymus.
2 calves
The
was
thoracic
after
I).
calf
after
of 2 7 2 . 3 g w i t h
I
T h e ages Friesian
Calf
37.6 g
removed
cervical
acidosis
of
necroosy
of of
ranme
varied
thymus
at the calves
Age (days) 8 7 4 7 7 10 9 8 7 6 4 7 11
time
of
thymectomv
and
thymic
T h y m i c W e i g h t (g) Cervical Thoracic Total 22.5 81.0 90.0
15.1 37.0 31.5 .... 57.6 23.8 71.4 32.5 64.7 39.5 61.6 23.6 98.0 41.3 73.0 30.5 . . . . . . . . 68.9 30,5 9 9
* R a t i o b e t w e e n the w e i q h t n = n u m b e r of calves.
of
cervical
37.6 118.0 121.5 84.3 81.4 103.9 104.2 85.2 139.3 103.5 97.0 97.8 11
and
size
CTR*
for
11 H o l s t e i n -
% Body
1.49 2.19 2.86
0.14 0.30 0.31 0.21 0.18 0.23 0.27 0.18 0.35 0.27 0.25
2.42 2.20 1.64 2.61 2.37 2.37 .... 2.26 9
thoracic
Weight
thymus.
180
a mean CTR of ( T a b l e II).
TABLE
2.17
and
a slightly
Calf
at the calves
time
Age (days)
3A 3B 3C 3D 4A 4B 4C 4D Mean n
of
euthanasia
23 22 21 19 19 18 17 17 19.5 8
Tissue
258.2 168.4 212.8 214.1 176.3 117.9 181.2 162.5 186.4 8
suspected
cervical
and
Residual
thymic
2B and
113.6 91.7 85.8 82.3 71.6 69.5 84.8 87.5 85.9 8
of
to be
thoracic
thymus
regions
tissue,
was
of
identified
located
in the
larynx
and
closely
associated
glands.
in an IC calf
Thymic
(calf
in all
All T X
the
body
weight
s h a m TX
calves
and w e r e
at rest
to s u r g i c a l
infected
coli)
and
treatment
calves) mucosa
with
focal
systemic
virus
made
thymus.
the
each
TX
anterior calf.
in c a l v e s
region,
submandibular
located
dorsal
structure
uneventful mild
infections
of
most
of
erosions
calves
and
and h y p e r e m i a persisted
disease
isolation infection
for
being were
in 5 of
IA,
ID,
2A,
dorsolateral and/or to the the
to
Darotid larynx
thymus
and
was
shallow of
the
as long
anorexia
consistent
(Griesemer
despite
and C o l e ,
"7 o f of
8 IC
the o r a l
fungiform
4 weeks
in calf with
topical
peroxide.
9 T X and
lingual
These
Klebsiella,
ulcerations
as
surgery
3B.
bovine 1960).
with
in
recumbency
9 TX c a l v e s .
hydrogen
(6 of
from
Sternal
(Proteus,
in 3 c a l v e s
(Lugol's) the
recoveries
replacer.
bacteria
persisted
solution
lesions
and v i r a l
stomatitis
also
to n u r s e
wound
infection
hypertrophy The
of
was
cervical
Weight
0.31 0.20 0.20 0.26 0.17 0.16 0.21 0.23
from of
histologically
the
% Body
2.27 1.84 2.84 2.60 2.46 1.70 2.14 1.86 2.17 8
thoracic
histological
opportunistic
iodine
developed
evidence
able
2 to 3 w e e k s
papillae.
lesions
with
the
with
Within
The
CTR*
necropsy
with
for 8 H o l s t e i n -
calves.
and
lead
and
anterior
tissue
3D).
I to 5 h o u r s
became
size
collected
during
was
normal
thymic
371.8 260.1 298.6 296.4 247.9 187.4 266.0 250.0 272.3 8
cervical
2C,
salivary
and
T h y m i c W e i g h t (g) Cervic@l Thoracic Total
* R a t i o b e t w e e n the w e i g h t n = n u m b e r of c a l v e s .
E.
percentage
II
T h e ages Friesian
the
lower
the o n l y
Histological papular
181
The and
average
associated TLYM
selected was
for T X
and
(Figure
TWBC
the TX TX
The
the TX when
and
in the T X
and
from
in the
were
The
calves
was
to 4054
mean TLYM
For w e e k s
was
and
calves
in the T X
(Figure
I).
were
not g r e a t l y
distinctly
TLYM
of
the
4-17
2840)
calves
between
ages
I
different
2 groups
of
than
mean
ages.
until
lower
TLYM
in
in the
The TLYM
the
third
occurred
in
in the TX
The g r e a t e s t
calves
the m e a n
the m e a n T W B C
(P < 0.05)
at all
lower TLYM.
the 4th week, between
more
The w e e k l y
IC c a l v e s
had
until
significantly
in the IC c a l v e s
mean
age
mean TWBC
between
difference
(mean o f
than
in the w e e k l y
(TWBC)
for
calves
mean TWBC
higher
(P < 0.001)
IC c a l v e s .
1242
IC c a l v e s
calves
The
the
in the IC c a l v e s
lower
the T X
of
t-test
overall than
leukocytes by A N O V A
of TX.
arrival
Student's
lower
significant
overall
than
calves
using
of
blood
analyzed
I).
in the T X
IC c a l v e s v a r i e d
total and
the e f f e c t
time
IC g r o u p s .
the T W B C
a highly
to
the
(P < 0.05)
17 w e e k s
calves.
related at
of
determined
no d i f f e r e n c e s
Although
weekly
were
collected
significantly
there was
concentrations
(TLYM)
differences
in b l o o d
demonstrated
to
weekly
lymphocytes
of
week
difference at
age
8
weeks. The by
approximate
the o v e r a l l
7491CPM CPM.
mean
for PWM.
Individual
marked
to N S M
differences III,
(Tables
for P H A - P ,
mean CPM
for
seldom varied the v a r i a n t
related
the o t h e r
ages.
the w e e k l y
mean
LPS
the m e a n s
was
SI of
were
and
by N S M
was
reflected
1846 CPM
control
for LPS
cultures
by more
than
culture
result
weekly
mean
0.003)
different
PHA-P
there
was
which
implies
the
not
was
and
911
20% but w h e n was
not
used
to
SI
that
response
week
did
not
to PHA-P,
(P < 0.003)
LPS o r
in m e a n s
I SI was g r e a t e r
(P < 0.02)
age g r o u p s
mean NSM
VI,
VII, was
than
interaction
at
between
which
implied
the d i f f e r e n c e s
SI due
to calf
age w a s
and
(phase
lower
the
I plus
(P < 0.01)
the m e a n
PHA-P
between
VIII).
at the d i f f e r e n t
a significant
in the
a difference
the m e a n
different
higher
I to 7 w e e k s
consistent.
the m e a n L P S
and PWM w e r e
was
ages
significant
in the w e e k l y
(Tables
for
to T X
There
(P < 0.05)
calves
higher
related
to age w h e r e There
The variation significantly
stimulation
IV, V).
for PHA-P
PHA-P
34323 CPM
of
did o c c u r
PWM
(Winter)
induced
overall
cultures
demonstrate
were
stimulation
the SI.
response
between
of
counts The
deviations
calculate The
degree
mean
The
I (summer)
mean
in p h a s e LPS was
phase ages
phase
SI
I. lower
2) w e r e
interaction
for P H A - P The
weekly
in p h a s e
and,
between
2
and P W M mean The
(P <
in a d d i t i o n ,
phase
I and p h a s e
phase
I.
significantly
(Table VIII)
SI of p h a s e
and
and
age,
2 calves
were
182
X 103 13
12, I I0
9 8
V ',d
7'
fs
"'"- "--,. / •
;I
6'
;
5
%
",,,
S"
\
,/% ~e
"%,.,%
,# % p l "%"e"o ~ ' ~
4
I c -WBC
..... IC - LYM ....
T X - WBC
TX - LYM . . . . . .
WEEKS
Fig. I. Mean thymectomized
TABLE
w e e k l y l e u k o c y t e (WBC) and l y m p h o c y t e (TX) and intact c o n t r o l (IC) calves.
(LYM)
counts
in
III
The m e a n p h y t o h e m a g g l u t i n i n - P stimulation indices for l y m p h o c y t e s in w h o l e blood f r o m t h y m e c t o m i z e d (TX) and intact c o n t r o l (IC) calves in p h a s e I (PI) and p h a s e 2 (P2). Treatment Age
G r o u p ns
(weeks)
I 2,3 4,5 6,7 M e a n ns n
I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
Mean*
35.98 57.15 23.88 30.88 36.19 4
158.32 70.05 33.76 28.99 72.23 5
36.03 21.86 15.98 32.80 24.96 4
130.02 56.92 43.22 52.27 69.09 4
94.10 53.03 27.33 35.54
* D i f f e r e n c e in m e a n s b e t w e e n ages, s i g n i f i c a n t , P < 0.0003. n s D i f f e r e n c e b e t w e e n means, not s i g n i f i c a n t , P > 0.05. n = n u m b e r of calves.
17
183
TABLE
IV
The mean in w hol e in phase
E. coli l i p o p o l y s a c c h a r i d e stimulatin indices for lymphocytes blood from t h y m e c t o m i z e d (TX) and intact control (IC) calves I (PI) and phase 2 (P2). Treatment
Age
Group*
(weeks) I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
2.06 2.69 1.82 3.38 2.42 4
1.20 0.75 0.83 1.20 0.95 5
4.36 1.49 1.86 2.47 2.43 4
1.32 1.43 1.23 1.03 1.27 4
I 2,3 4,5 6,7 Mean ns n
2.17 1.42 1.48 2.03 17
* D i f f e r e n c e in means related to age, thymectomy and phase significant, P < 0.02. n s D i f f e r e n c e between means, not significant, P > 0.05. n = number of calves.
T A BLE
Mean ns
interaction,
V
The mean p o k e w e e d m i t o g e n s t i m u l a t i o n indices for lymphocytes in whole blood from t h y m e c t o m i z e d (TX) and intact control (IC) calves in phase I (PI) and Phase 2 (P2). Treatment Age
G r o u p ns
(weeks) I(TX,P2)
2(TX,PI)
3(IC,P2)
4(IC,PI)
5.74 6.09 4.80 6.73 5.70 4
9.68 21.44 10.18 6.92 14.30 5
12.44 4.09 3.93 5.09 6.20 4
30.44 15.14 14.50 8.20 16.85 4
I 2,3 4,5 6,7 Mean ns n
n s D i f f e r e n c e between means, n = number of calves. not
consistently
did not differ phases. calves
When
different
the weekly
between
ages
significant
(P < 0.0001)
The each
(Table
with
ages.
the d i f f e r e n c e
The weekly
the P H A / L Y
were
tested
17
mean LPS or PWM in either
indices
SI
of the 2
of TX and IC
for s i g n i f i c a n t
in mean LY between
difference
14.90 13.34 7.76 6.84
P > 0.05.
age of the calves
mean LY and
I to 7 weeks
only
significant,
at all
significantly
differences
phases
not
Mean ns
in mean PHA/LY
ages were indices
between
IX).
mean SI for PHA-P,
phase were
tested
LPS
and PWM
for s i g n i f i c a n t
for each
treatment
differences
over
group the
within
first
21
184 TABLE
VI
The mean p h y t o h e m a g g l u t i n i n - P w h o l e blood from p h a s e I (PI)
Age
(weeks)
stimulation indices for l y m p h o c y t e s and p h a s e 2 (P2) calves.
PI
P2
PI-P2*
in
Mean +
I 145.74 36.01 109.73 94.10 2,3 65.12 38.15 26.97 53.03 4,5 37.96 20.49 17.47 27.33 6,7 39.34 31.73 7.61 35.54 Mean/ 70.92 30.83 n 9 8 17 * D i f f e r e n c e b e t w e e n m e a n s at v a r i o u s ages, s i g n i f i c a n t , P < 0.01. +Difference in m e a n s b e t w e e n ages, s i g n i f i c a n t , P < 0.003. ~Difference in m e a n s b e t w e e n e x p e r i m e n t a l phases, s i g n i f i c a n t , P < 0.05. n = n u m b e r of calves.
TABLE
VII
The m e a n in w h o l e
Age
E. coli l i p o p o l y s a c c h a r i d e s t i m u l a t i o n indices for b l o o d from p h a s e I (Pl) and p h a s e 2 (P2) calves.
(weeks)
I 2,3 4,5 6,7 Mean* n * D i f f e r e n c e in m e a n s P < 0.05. nsDifference between n = n u m b e r of calves.
TABLE
PI 1.25 1.00 1.01 1.13 1.08 9 between means,
P2 3.21 2.03 1.84 3.04 2.42 8 experimental not
P I - P 2 ns
M e a n ns
-1.96 -1.03 -0.83 -1.91
phases,
significant,
2.17 1.42 1.48 2.03
17 significant,
P > 0.05.
VIII
The mean p o k e w e e d m i t o g e n s t i m u l a t i o n indices for blood from p h a s e I (Pl) and p h a s e 2 (P2) calves.
Age
lymphocytes
(weeks)
I 2,3 4,5 6,7 Mean* n * D i f f e r e n c e in m e a n s nsDifference between n = n u m b e r of calves.
PI
P2
lymphocytes
P I - P 2 ns
in whole
Mean ns
21.54 9.09 12.45 14.90 19.07 5.00 14.07 13.34 12.10 4.51 7.59 7.76 7.49 6.11 1.38 6.84 15.42 5.92 9 8 17 b e t w e e n e x p e r i m e n t a l phases, s i g n i f i c a n t , P < 0 . 0 5 means, not s i g n i f i c a n t , P > 0.05.
185 TABLE
IX
The
mean P H A / L Y *
Age
(weeks)
indices
in phase
Phase
I (PI)
and phase
I
Phase
2 (P2)
calves.
2
Mean ns
I 10.56 2.41 6.73 2,3 8.39 3.52 6.20 4,5 8.45 4.04 5.77 6,7 7.80 4.70 6.25 Mean + 8.73 3.72 n 9 8 17 *PHA/LY = counts per minute of p h y t o h e m a g g l u t i n i n - P stimulated lymphocytes in whole blood divided by the total blood lymphocyte concentration. + D i f f e r e n c e in means between experimental phases, significant, P < 0.0001. n s D i f f e r e n c e between means, not significant, P > 0.05. n = number of calves.
weeks
related
response I the
difference
signifi c a n t which
only
to TX.
to PHA-P,
in mean PHA-P
although
implies
that
ages,
similar
age related
SI
no effect
although
various
LPS
In phases
LPS or PWM was
(P < 0.0001)
related
the response did
differences
and PWM
related
(P > 0.05)
TX and IC calves
(P < 0.05)
I and 2 no difference
demonstrated
not respond
between
(P < 0.0004)
means
In phase
to age was
of treatment to mitogens
in the
to TX.
was
were
demonstrated different
differently. for PHA-P
at
In p h a s e
2
(P < 0.0002),
SI were observed.
DISCUSSION
Neonatal
TX was
the thymus. surgical
procedure
evidenced
of
surgical calves
of
the
and
that
N eon a t a l alterations
TX
and
thymus
and TLYM was
variation
cervical appears
prior
have
did not
attributed
consistent in calves,
with mice
thymic
cause
the effect
of
As
the close complete
by c o n v e n t i o n a l
weight
of neonatal indicated
to grow
the severe
with
of
that
up to this
age
involution.
neonatal
to TX did occur.
rats
and
(272.3 g)
continues
associated
and
thymus.
glands,
thymic
calves
to normal
been
of the
to be impossible
calves
portion
to be a d i f f i c u l t
salivary
in mean
17 to 23 w e e k - o l d
was
of the major
found
in 5 of 9 TX calves
difference
in the calf
which
changes
TX
thymus
of H o l s t e i n - F r i e s i a n
necropsy
the removal
calf was
to anatomic
The
and
for
in the
larynx
the bovine
(97.8 g)
thymus
neonatal
due
methods.
the
although
TX
by the residual
association removal
successful
Neonatal
The
immunological TX in rodents
depression
in utero TX of
(Miller,
1962;
Miller
in TWBC
lambs
and
and Osoba,
186
1967;
Carroll
evidence
of
(Leighton sternal the
et
al.,
et
al.,
surgical
normal
localized
1968;
a wasting
1967)
or
wound
sternal areas
the
skin
No variations
infections,
nor
differently
than
differences
case
phase, 1978)
TX
explanation
was
found
of
the
and
at
as
with
residual
TX
rest
The
aggravated
were
were
no
calves
TX.
and
low g r a d e
5 calves
confined
by to
suppurative
attributed
thymus
to
these
respond
calves.
to N S M
and
IC
did
not
calves.
than
lower
In
phases
a different
the
calves
was
in
after
incited
results
other
for
1962)
were
subcutis
experimental
where
(Miller, which
There
described
test
other
between
1971).
in N S M
responses
of LPS,
no
the
the
between
a difference the
did
lymphocyte
rodents
recumbency
of
and M o r r i s ,
as p r e v i o u s l y
infections
processes.
The
Cole
syndrome
LPS
demonstrate almost
all
unrelated
seasonal
analyses
to TX.
preparation
responses
was
influences
during
consistent
the
there
Except
used
in each
(Soper
winter
was
in
et
al.,
months
(Phase
2). The
principal
the v e r y for
the
PHA/LY were
high
age
level
related during
differences indices,
in
no
indices
between
The
phase
I and
PHA/LY
significant
the
mean
the
2 calves
PHA-P
PHA-P
concentration
phase
of
the
when
in m e a n
highly
responsiveness
in
I and,
lymphocyte
differences
demonstrated.
a greater
variation
week
by
SI
CPM
the
was
were
due
to
adjusted
creation
of
indices
related
to TX
difference
in mean
PHA/LY
uo
lymphocytes
to
age
7 weeks
in p h a s e
indicated
2 calves
to N S M
21
in
stimulation. The vitro phase both
difference
biweek!v
of
2 calves
to P H A - P ,
in
The
the
did
Marked
higher
the
greater
in
LPS
and
the
induced
by
neonatal
whole
significantly
obtained
with
response
of
summer
PHA-P
months
reflected
TX
and
and
I to
the
PWM
as m e a s u r e d
degree method.
a brief
regimen
lymphocyte
response
blood
weeks
to P H A - P
culture
in v i t r o
in N S M
peripheral
ages
I calves
blood
alter
differences
for
phase
PWM
in
not
the
from
and
seasonal
values
addition
intevals
lymphocytes
calves
changes
treatment NSM.
at
response
in
were
summer
*H-TdR
the
LPS
in
and
of v a r i a t i o n
of
ALG
responses
observed
months.
lymphocytes bv
and
to
with
In
to P H A - P
was
much
uptake.
ACKNOWLEDGEMENTS
The
authors
technical This the
work
Texas
wish
to
assistance was
thank
and
supported
Agricultural
Betty
Connie
by N I H
Experiment
Rosenbaum
Leggett
for
Fellowship Station.
and R o n manuscript Grant
Blakely
for
preparation.
5T01-GM01232-13
and
187
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