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Response of lutropin (LH) and follitropin (FSH) to the administration of gonadoliberin (GnRH) in pregnant and post-partum cattle including experiments with prolactin suppression
THERIOGENOLOGY OF LUTROPIN
~SP~NSE
ADMINISTRATION POST-PARTUM
(LH) AND
FOLLITROPIN
OF GONADOLIBERIN
CATTLE
INCLUDING
TO THE
(FSH)
(GnRH) IN PREGNANT
EXPERIMENTS
AND
WITH PROLACTIN
SUPPRESSION
E. SCHALLENBERGER, Institut
D. SCHAMS
fiir Physiologie
und Forschungsanstalt Technischen 8050 Freising
and K. ZOTTMEIER
der Siidd. Versuchs-
fiir Milchwirtschaft
Universitat
- Weihenstephan,
Received for Publication:
der
Miinchen Germany
March 3, 1978
ABSTRACT
GnRH
(250 )Ig) was administered
total of 121 experiments the period
from
180 days ante
turn (pp). Additionally secretion
under
after parturition
injections
in a
(ap) to 50 days post parprolactin
by means
of 150 mg Bromocryptine
1, 4 and 7 pp. LH response
the dose response
intravenously
out on 21 cows during
in one group of animals
was inhibited
intramuscular on days
carried
(peak height,
curve) was about
of 3
(CB-154) area
the same from
ACKNOWLEDGMENTS We are grateful to the following for generous gifts: Farbwerke Hoe&St, Frankfurt/Main,GFR (GnEU-I); Sandoz Ltd., Basle, Switzerland (CB-154);National Institutesof Health, Bethesda, USA (NIH-PB3, NIH-FSH-B,);Dr. H. Papkoff, San Francisco, USA (bovineLH III17-BP). This project was supported by the Deutsche Forschungsgemeinschaft.
JULY
1978 VOL. 10 NO. 1
35
THERIOGENOLOGY 150
to 60
days ap, then decreased
parturition partum.
significantly
and was lowest during
At a later time the LH response
than during pregnancy. cantly during
nificant
influence
values
was more pronounced
The FSH response
decreased
the last 9 days ap, remained
first 6 days pp and increased
thereafter.
of prolactin
in all GnRH treated
gonadotropin the period response
responsiveness
animals
pp was much higher
some indication this hormone
on LH and FSH
on day- 50 pp).
pronounced
for the individuality cycle post partum
pituitary
(except during
the variation
of the LH
than ap. The LH results
of the wide range of response
after parturition
the
There was no sig-
was measurable
around parturition),
siqnifi-
low during
inhibition
(except for the total FSH released
Whereas
towards
the first 6 days post
gave
pattern
for
which might be one reason
in the initiation
of a new estrous
in cattle.
INTRODUCTION
In contrast
to the exact timing of hormonal
tion occurring during post-partum variation.
period
or a decreased
responsiveness
of the pituitary
that enhanced
prolactin we
(2,
inhibition post partum
3)
of CB-154
be due to a lower and/
data on this in cattle, changes
in the
to GnRH injections
of pregnancy,
dur-
around parturition
and
Since it is known
suppress
also investigated
by means
to considerable
possible
to respond
levels
the
of the hypothalamo-hypo-
the first 50 days post partum.
in men
requla-
events during
in the pituitary
system. As there is limited
ing the last trimester during
might
of gonadotropins
(I) we have tried to demonstrate ability
cycle,
in cattle are subject
This high variability
rate of synthesis
physeal
the estrous
gonadotropin
values
the effect of prolactin
administration
immediately
to see if there was any improvement
in LH and
FSH responsiveness.
36
JULY
1978 VOL. 10 NO. 1
THERIOGENOLOGY MATERIALS AND METHODS Preparation and administration of GnRH: The synthetGnRH decapeptide preparation LRH-Hoe 471 (Geiger et iC al. (4)) was dissolved and diluted with saline and administered intravenously in a constant concentration of 250 pg/ 4.0 ml final volume. Preparation and administration of Bromocryptine: The synthetic ergot alkaloid, 2-Br-a-ergocryptine-sulfonate, CB-154 (Sandoz, Basle) was dissolved in 40 % ethanol and administered intramuscularly in a concentration of 150 mg/ 4.0 ml final volume on days 1, 4 and 7 post partum. Experimental animals:
The experiments were carried
out with 29 female animals (aged 2.5 to 10 years) of the local Brown Swiss breed at our experimental station Veitshof. Experimental design:
Repeated injections of GnRH
were given to groups of 6 - 12 animals from 180 days ante to 50 days post partum in intervals as shown in Tables I and II. To exclude any seasonal effect, the animals were selected according to their time of parturition either from June to August or from November to January. Within this study 7 animals additionally received CB-154 injections im on days 1, 4 and 7 post partum. Blood sampling: Blood was collected from the jugular vein by means of indwelling catheters at 15 min intervals from 30 min before until 5 h after the administration of the releasing hormone. Serum samples were kept frozen at - 18O C until assayed. Hormone determination: The LH, FSH and prolactin concentrations were determined radioimmunologically (5, 6,
JULY
1978 VOL. 10 NO. 1
37
THERIOGENOLOGY 7). The reference pituitary
standard
preparation
for FSH was a crude bovine
NIH-FSH-Blhavinq
ty of 0.4 times the international NIH-FSH-S, BP having
and for LH bovine a biological
As reference
(biol. activity
reference
pituitary
activity
preparation
a biological
activi-
preparation
preparation
111-17-
of 0.9 times NIH-LH-S.,.
for bovine
prolactin
NIH-P-B3
24.1 IU/mq) was used.
RESULTS
The following
parameters
the LH and FSH response and post partum
after injection
between
and the area under the plotted tal hormone
parturition
and reach
could be measured
significantly
for to-
during
of LH peak value
pregnancy.
Similar
the following the curve
significantly
(p
concentrations
40 days. LH peak
(see Fig.
1) decrease
between
(~~0.05)
injection
10 days post
hormone
5 h but was reduced
The quotient pattern.
peak value
is
and is significantly
the whole of the post-partum
The shortest
ly after parturition.
and maximum
during pregnancy
(p < 0.05) during examined.
again
than during pregnancy.
and base level gave a similar
constant
of increased
constant highly
the last 9 days before
10 days pp higher values
during
to higher values
The interval
decrease
(~~0.05) from 150-150 days ap to 9 - 1 days
ap and increase
period
and peak,
I) are relatively
during
levels and the area under
reduced
(ap)
the resulting
injection
of pregnancy,
(pcO.005)
than ever observed
relatively
of GnRH ante
curve as indicator
(see Table
the last 4 months
significantly
partum
to characterize
response.
LH base levels during
choosen
(pp): peak and base values,
the time interval
quotient,
were
interval
As indicated concentration
was found immediate-
in Fig.
1 the duration
was on an average
around parturition.
about
The variability JULY
of
1978 VOL. 10 NO. 1
THERIOGENOLOGY the measured standard
LH-concentrations
deviations)
was much higher indicates
during
(as expressed
the whole
than ever evaluated
a range of relatively
in the
post-partum
period
ante partum.
This
low to very high response
patterns.
There was a reduction
of the FSH base concentration
from 60 days ap until parturition to the levels peak values
in the periods
decreased
last 9 days before that. The maximum
before
parturition
Fig.
2). The quotient
than during
injection
and peak value was about
(see also
of the interval
slight-
25 minutes
between shorter
post
showed no
10 days ap, then values
diminished
On day 10 pp there was an obvious
(p(O.05).
(p(O.05)
period
around par-
Total FSH response
change until
significantly rise
duration
than ante partum.
significant
pregnancy
and reduced
The average
the
again after
peak to base level increased
the end of gestation
FSH
during
in the post-partum
turition.
partum
(~(0.05)
and increased
concentrations
lower on the average
II) compared
and thereafter.
significantly
were
ly towards
(see Table
and a further
tendency
to increase
on days
30 and 50 pp.
In the group of animals partum
prolactin
depressed
on day
ter as indicated reached
control
the same level.
values
were
with CB-154 significantly
10 pp both during in Table values
were not significantly of reduction
area under JULY
compared
3). FSH peak values
are quite
win-
the FSH curve
cows, LH base and total hormone
altered,
but there was a
to controls
(see Table
and base concentrations
diminished
comparable
1978 VOL. 10 NO. 1
treated
LH peak values
tendency
quotients
and during
concentrations
on day 20 pp and remain at about
response
were not significantly
post
(pCO.0005)
summer
III. Prolactin
In these CB-154
levels were unaffected.
‘IV and Fig.
treatment
and the resulting
to control
is slightly
animals.
smaller
during
The the 39
experiments
with CB-154
treatment
50 pp there is a significant released
post partum.
(~(0.05)
Only on day
reduction
FSH; at the same time FSH base values
of total
increase.
DISCUSSION
The present responsiveness
The response
as there were
pituitary
secretion
comparable
formed during winter in cows, Jenkin
demonstrated
post partum.
Contrary
to conditions
measured
in this study beginning LH response
cycle in cattle
was observed increased
post partum
in dairy cows differ cows in which
could be near term and
there was some
patterns
with day
during
10 pp quite
as reported
report
for the estrous
(11). LH base levels
earlier
(12; 13; 14).
the early post-partum
from those in post-partum
duced up to 20 days pp
was
in ewes and also in women we
as described
pituitary
O-5 con-
(IO) a minor LH responsiveness
in an earlier
our LH results
reduction
with advancing
late gestation,
reported
40
a progressive
6 weeks after delivery
(9). In women
per-
to our observations
sensitivity
increase
increase
Similar
responsiveness
in sheep during
3 weeks post partum;
However
can be excluded
Flirtheron little or no LH response
tinuously.
influence
in the experiments
(8) described
days pp and after that period,
comparable
from 9 days be-
after GnRH treatment
in ewes. Lowest
in the
to GnRH ante
A seasonal
pattern
results
and summer.
et al.
in the LH response
variations
was lowest
6 days after parturition.
on this gonadotropin
gestation
demonstrate
of the maternal
and post partum. fore until
experiments
LH responsiveness
period
suckled
to GnRH was re-
(1).
JULY
1978VOL. 10 NO. 1
THERIOGENOLOGY We conclude responsiveness
from our experiments
to GnRH pp seem to be not the main
for the variabilities cycles
commencing
variability nection
estrous
between
given during
cycle
may be partly
day 9 and 50 pp. So far injections
different
compared
Pituitary
stages of the estrous earlier
measured
in peripheral
increase
of pituitary
lar amounts
blood
significant
LH content
in peripheral
(15) estimated
change
in sheep
partum.
In women
gestation
plasma)
pituitary
FSH content
up to
the content
decreased.
FSH response
to GnRH was de-
by peripheral
GnRH until
constant
until
conditions
were
turn,,the FSH basal
levels
to our earlier
estrous
cycles
JULY
found during increased during
IO days ap. This means
depleted
day 10 ap. Beginning
parable
FSH levels
and 3 - 6 weeks post
but 8 - IO days pp the response
was neither
(based
on sheep and cows.
19). In our dairy cows, the FSH response was almost
(16). The
showed very simi-
reports
of pregnancy
similar
preg-
in ewes that there was no
(17) as assessed
in the last trimester
during
post partum
and thereafter
A very low pituitary tected
of LH
curve in our study
in mean pituitary
135 days of gestation
amounts
(8; 15). In cows there is an
as in the mentioned
Charnley et al.
smaller
to the total LH concentration
the LH dose response
on measurements
It
17 - 18 of the cycle.
in sheep decreases
related
were
cycle.
(11) that during mid-
to days
LH content
and is closely
area under
in con-
in the cows could be
(day 11 - 12) significantly
nancy
The high
of the onset of cyclicity.
symptoms
could be shown already
are released
reason
of new estrous
IO days after parturition.
the variability
First visible observed
in the initiation
in the responsiveness
with
that a decreased
(18,
pregnancy that the
of FSH nor refractory
to
with day IO post par-
and response
data obtained
to GnRH were com-
during
the normal
(11).
1978VOL.lONO.l
41
THERIOGENOLOGY The progressive
decrease
nancy might be explained tinuously
high progesterone
plasma placental pregnancy
estrogens
especially
This feedback
Separate
during
control mechanisms
pregnancy
indicates
and its reduction
fusions
seem
to exist for FSH
of the placental
stimulated.
patterns
period
estrogen
There was a marked
of estrogen, change during slightly
during
during
and after
after
in-
h in heifers,
LH and FSH could be
rise of the FSH values
decrease
at the higher
at
dose
LH levels did not
this time. LH base concentrations later
the
source. After
and after infusion.
10 - 12 hours
be
until day 6 post partum
between
the lower dose and a marked
in
might
a few days before
The low response
reaction
blood
FSH responsiveness
of 1.6 - 8.0 mg estradiol-17R/4
different
in the response
of estrogens
a short period of recovery
termination
LH responsiveness
in peripheral
feedback
for the increasing
parturition.
by daily administration
differences
for the gonadotropins
cattle. A dose related responsible
of
parturition.
(20).
and LH as there are distinct pattern
of con-
the last trimester
during the few days before
to sheep and diminished rate
during preg-
feedback
levels and the increasing
action was simulated
of progesterone and synthesis
in LH response
by the negative
(Schallenberger
rose
and Schams,
unpublished).
There were no indications lactin
significantly
in our experiments
influences
the pituitary
ness to GnRH. We do not see any importance cal significant treated
difference
and CB-154
of the importance function
period
responsive-
in the statisti-
of total released
FSH of un-
cows on day 50 pp. The question
of prolactin
post partum
the anestrous extended
treated
that pro-
remains.
for the recovery It was reported
in post-partum
when they are suckled.
lactating
Nilked
of ovarian (21) that
cows is
cows usually JULY
ovulate
1978 VOL. 10 NO. 1
THERIOCENOLOCY earlier partum
after calving prolactin
gonadotropin
cycle
levels
in women
concentrations
In these cases of CB-154
than suckled
is restored
(22). High post
are responsible
and amenorrhea
inhibition
increases
ones
of prolactin
for low
during
lactation.
secretion
by means
LH and FSH levels and the menstrual (23; 2).
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Webb,
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Manns,
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on serum follicle hormone
25-33
E.S., Forsbach,
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Geiger,
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capeptide Biophys.
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THERIOGENOLOGY 6.
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117: 75-79
JULY
(1973)
1978 VOL. 10 NO. I
THERIOGENOLOGY
ng LH
ngLH
1 ml serum
119-90 dayso
/ml
serum
ngLH
/ml
serum
P
~~L~i~
501 89-60 days a P
0
1
2
3
L
1 25Opg GnRHlv
Fig.
1.
LH
5
0 1
1234501
250,ugGnRH IV
response (mean +
2
3
t
SD)
after
c 5 hours
25Opg G>>Rti IV
injection of 250/1g GnRH iv
to female cattle durinq 8 consecutiveperiods ante m (180 - 1 days ap) and 5 periods postprtm(l0
- 50 days pp)
n:nmbe.rof~iments
JULY
1978VOL.lONO.l
47
THERIOGENOLOCY
ng FSHlml
600
serum
J
ng FSH/mt
MO-15Odays (I p in:6
serum
ng FSH I ml serum
59-30days
I
10th
a p
in=12)
day pp In.9 I
I
t------L------L-r----
2
3
L
5
3
0
L
5
t
0
hours 250&g
GnRH
iv
250/g
GnRH
i v
25O$g
GnRH
i v
Fig. 2. FSH response (mean+SD)after injectionof 25Opg GnRH iv to female cattleduring 8 omsecutivepericds antepartum (180-Idays ap) and 5 periods post partun (O-50 days pp). n: number of experiments
48
JULY
1978 VOL. lONO.
1
THERIOGENOLOGY
ng LH /ml
serum
ng FSH / ml serum
T
lo"'day pp In=71
40
10th day pp
400
30
300
200 100
I, 20th
, , , ,
(
daypp
3o’h daypp t n=7 I
30th
daypp
ln=71
pp I
sothdoy II-l-61
,
400
In=61
300
, , , ,
I,, 1 P 25Oyg
2
3
L
GnRH i v
0
1
2
3
t 250,ug GnRH i v
4 5 hours
Fig. 3. UI and FSH response (mean+SD)after injection of 25Opg GnRH iv to 03~s on days 10, 20, 30 and 50 post partum after treatment with a prolactin inhibitor (150 nq CI3-154 im) on days 1,4,and7pp. n:numkrofexperiments
JULY
1978 VOL. 10 NO. 1
49
50
JULY
1978 VOL. 10 NO. 1
c
113241
53+21
Areaunderthe 9 hmitd x 2 SD
2.3
3132152
135+71
6
l&-150
Interval injec&ion peak (nin) x+SD
QuotientpeW base level
FsHrmx.peak v;itue (fig/ml) x+SD
FSH baselevel (n&l) G+ SD
Nunberofexprimts (n)
Day
79+18
105+19
3.1
4201185
137+_87
6
119-90
partm
91239
115224
2.8
4362131
157290
6
89-60
83235
110+_17
3.5
403tl57
116272
12
59-30
1: statistical significant(pCO.05)
71231
109222
2.5
4672158
184+102 _
7
149-120
Iulte
snd the first 50 days post piirhr
8
9-l
x
I
43213
Y
lm_21
2.2
I
31510
82219
1.9
292248
againstpreviousvalue
77+49
114221
3.9
4122157 242+66
9
o-6
1156253
I
!
5&t24
%
91+30
2.2
3492159
1 16e61
9
10
I
1
46218
m-42
1.9
me147
16355
9
20
Post pax-turn
thelasttrimssterofpregnanCy
107256 1108234
8
29-10
TableII. FSH respmse afteriv injectionof250~GnRHdurbg
62222
81225
2.4
3192113
134274
7
30
96223
50
I
4
tinter
mmr
zasdn
X
2
2
30
50 44
38
42
42
80
170
110
110
2.9
6.8
2.7
0.3 x
17.3
21.5
15.2
1.0 x
2.5
3.2
1.2
0.1
16.4
15.6
8.7
0.6
statisticalsignificant (p <0.0X5) against amtmls
2
4
50
20
5
30
2
5
20
IO
5
nmber of aximls
10
day @St pzrtm
-_ Prolactinconcen_trations (ns/ml) n SD X --
CT3-154treatrwnt
T
3
3
4
5
3
3
4
4
nvmberof aniwals
60
54
77
96
66
66
88
80
4.2
4.8
3.1
3.6
22.7
19.4
15.8
23.4
Prolactin cmcentr. r: x
Controls
Table 111. Prolactin concentrationsin peripherab blood post partum after treatmnt with a prolactin inh%itor on days 1, 4 and 7 pp in cxm-parison to untreated contro:s
1.2
2.4
1.2
1.3
14.2
10.6
10.7
13.7
(n9A-U SD
I
ut w
5 L
z
7 F
10
1
23.2212.2
79228
interval injectionheak x + SD (min)
areaunder the c-qe (units) X 2 SD
11.8
14.127.2
1.25.2
quotient peak/ base level
pc+ value h-q/ml)x -+ SD
jmx.
base-level (ng/ Iml)x+SD
nuker of eXpri-7 mnts (n)
day post partum
30.1L22.1
81227
13.6
19.4216.0
1.45.7
7
20
L H.
26.2214.1,
66230
12.2
13.429.4
1.15.4
7
30 -
36.z17.2
88.246
14.6
19.e10.7
1.33.7
6
50
52.2228.7
105236
2.7
329+144
12 1240
7
4111~25.7
116239
2.1
2a_56
97240
7
20
FSH
46.1+19.0
99245
2.1
226242
1 le52
7
30
Table IV. LH andFSH response after ivinjectionof 25Opg GnRH during the post-partum period after treatmentwithaprolactin inhibitor on days 1, 4 and 7 pp
39.126.2
105L28
1.7
241+51
141249
6
50
A
~SP~NSE
ADMINISTRATION POST-PARTUM
(LH) AND
FOLLITROPIN
OF GONADOLIBERIN
CATTLE
INCLUDING
TO THE
(FSH)
(GnRH) IN PREGNANT
EXPERIMENTS
AND
WITH PROLACTIN
SUPPRESSION
E. SCHALLENBERGER, Institut
D. SCHAMS
fiir Physiologie
und Forschungsanstalt Technischen 8050 Freising
and K. ZOTTMEIER
der Siidd. Versuchs-
fiir Milchwirtschaft
Universitat
- Weihenstephan,
Received for Publication:
der
Miinchen Germany
March 3, 1978
ABSTRACT
GnRH
(250 )Ig) was administered
total of 121 experiments the period
from
180 days ante
turn (pp). Additionally secretion
under
after parturition
injections
in a
(ap) to 50 days post parprolactin
by means
of 150 mg Bromocryptine
1, 4 and 7 pp. LH response
the dose response
intravenously
out on 21 cows during
in one group of animals
was inhibited
intramuscular on days
carried
(peak height,
curve) was about
of 3
(CB-154) area
the same from
ACKNOWLEDGMENTS We are grateful to the following for generous gifts: Farbwerke Hoe&St, Frankfurt/Main,GFR (GnEU-I); Sandoz Ltd., Basle, Switzerland (CB-154);National Institutesof Health, Bethesda, USA (NIH-PB3, NIH-FSH-B,);Dr. H. Papkoff, San Francisco, USA (bovineLH III17-BP). This project was supported by the Deutsche Forschungsgemeinschaft.
JULY
1978 VOL. 10 NO. 1
35
THERIOGENOLOGY 150
to 60
days ap, then decreased
parturition partum.
significantly
and was lowest during
At a later time the LH response
than during pregnancy. cantly during
nificant
influence
values
was more pronounced
The FSH response
decreased
the last 9 days ap, remained
first 6 days pp and increased
thereafter.
of prolactin
in all GnRH treated
gonadotropin the period response
responsiveness
animals
pp was much higher
some indication this hormone
on LH and FSH
on day- 50 pp).
pronounced
for the individuality cycle post partum
pituitary
(except during
the variation
of the LH
than ap. The LH results
of the wide range of response
after parturition
the
There was no sig-
was measurable
around parturition),
siqnifi-
low during
inhibition
(except for the total FSH released
Whereas
towards
the first 6 days post
gave
pattern
for
which might be one reason
in the initiation
of a new estrous
in cattle.
INTRODUCTION
In contrast
to the exact timing of hormonal
tion occurring during post-partum variation.
period
or a decreased
responsiveness
of the pituitary
that enhanced
prolactin we
(2,
inhibition post partum
3)
of CB-154
be due to a lower and/
data on this in cattle, changes
in the
to GnRH injections
of pregnancy,
dur-
around parturition
and
Since it is known
suppress
also investigated
by means
to considerable
possible
to respond
levels
the
of the hypothalamo-hypo-
the first 50 days post partum.
in men
requla-
events during
in the pituitary
system. As there is limited
ing the last trimester during
might
of gonadotropins
(I) we have tried to demonstrate ability
cycle,
in cattle are subject
This high variability
rate of synthesis
physeal
the estrous
gonadotropin
values
the effect of prolactin
administration
immediately
to see if there was any improvement
in LH and
FSH responsiveness.
36
JULY
1978 VOL. 10 NO. 1
THERIOGENOLOGY MATERIALS AND METHODS Preparation and administration of GnRH: The synthetGnRH decapeptide preparation LRH-Hoe 471 (Geiger et iC al. (4)) was dissolved and diluted with saline and administered intravenously in a constant concentration of 250 pg/ 4.0 ml final volume. Preparation and administration of Bromocryptine: The synthetic ergot alkaloid, 2-Br-a-ergocryptine-sulfonate, CB-154 (Sandoz, Basle) was dissolved in 40 % ethanol and administered intramuscularly in a concentration of 150 mg/ 4.0 ml final volume on days 1, 4 and 7 post partum. Experimental animals:
The experiments were carried
out with 29 female animals (aged 2.5 to 10 years) of the local Brown Swiss breed at our experimental station Veitshof. Experimental design:
Repeated injections of GnRH
were given to groups of 6 - 12 animals from 180 days ante to 50 days post partum in intervals as shown in Tables I and II. To exclude any seasonal effect, the animals were selected according to their time of parturition either from June to August or from November to January. Within this study 7 animals additionally received CB-154 injections im on days 1, 4 and 7 post partum. Blood sampling: Blood was collected from the jugular vein by means of indwelling catheters at 15 min intervals from 30 min before until 5 h after the administration of the releasing hormone. Serum samples were kept frozen at - 18O C until assayed. Hormone determination: The LH, FSH and prolactin concentrations were determined radioimmunologically (5, 6,
JULY
1978 VOL. 10 NO. 1
37
THERIOGENOLOGY 7). The reference pituitary
standard
preparation
for FSH was a crude bovine
NIH-FSH-Blhavinq
ty of 0.4 times the international NIH-FSH-S, BP having
and for LH bovine a biological
As reference
(biol. activity
reference
pituitary
activity
preparation
a biological
activi-
preparation
preparation
111-17-
of 0.9 times NIH-LH-S.,.
for bovine
prolactin
NIH-P-B3
24.1 IU/mq) was used.
RESULTS
The following
parameters
the LH and FSH response and post partum
after injection
between
and the area under the plotted tal hormone
parturition
and reach
could be measured
significantly
for to-
during
of LH peak value
pregnancy.
Similar
the following the curve
significantly
(p
concentrations
40 days. LH peak
(see Fig.
1) decrease
between
(~~0.05)
injection
10 days post
hormone
5 h but was reduced
The quotient pattern.
peak value
is
and is significantly
the whole of the post-partum
The shortest
ly after parturition.
and maximum
during pregnancy
(p < 0.05) during examined.
again
than during pregnancy.
and base level gave a similar
constant
of increased
constant highly
the last 9 days before
10 days pp higher values
during
to higher values
The interval
decrease
(~~0.05) from 150-150 days ap to 9 - 1 days
ap and increase
period
and peak,
I) are relatively
during
levels and the area under
reduced
(ap)
the resulting
injection
of pregnancy,
(pcO.005)
than ever observed
relatively
of GnRH ante
curve as indicator
(see Table
the last 4 months
significantly
partum
to characterize
response.
LH base levels during
choosen
(pp): peak and base values,
the time interval
quotient,
were
interval
As indicated concentration
was found immediate-
in Fig.
1 the duration
was on an average
around parturition.
about
The variability JULY
of
1978 VOL. 10 NO. 1
THERIOGENOLOGY the measured standard
LH-concentrations
deviations)
was much higher indicates
during
(as expressed
the whole
than ever evaluated
a range of relatively
in the
post-partum
period
ante partum.
This
low to very high response
patterns.
There was a reduction
of the FSH base concentration
from 60 days ap until parturition to the levels peak values
in the periods
decreased
last 9 days before that. The maximum
before
parturition
Fig.
2). The quotient
than during
injection
and peak value was about
(see also
of the interval
slight-
25 minutes
between shorter
post
showed no
10 days ap, then values
diminished
On day 10 pp there was an obvious
(p(O.05).
(p(O.05)
period
around par-
Total FSH response
change until
significantly rise
duration
than ante partum.
significant
pregnancy
and reduced
The average
the
again after
peak to base level increased
the end of gestation
FSH
during
in the post-partum
turition.
partum
(~(0.05)
and increased
concentrations
lower on the average
II) compared
and thereafter.
significantly
were
ly towards
(see Table
and a further
tendency
to increase
on days
30 and 50 pp.
In the group of animals partum
prolactin
depressed
on day
ter as indicated reached
control
the same level.
values
were
with CB-154 significantly
10 pp both during in Table values
were not significantly of reduction
area under JULY
compared
3). FSH peak values
are quite
win-
the FSH curve
cows, LH base and total hormone
altered,
but there was a
to controls
(see Table
and base concentrations
diminished
comparable
1978 VOL. 10 NO. 1
treated
LH peak values
tendency
quotients
and during
concentrations
on day 20 pp and remain at about
response
were not significantly
post
(pCO.0005)
summer
III. Prolactin
In these CB-154
levels were unaffected.
‘IV and Fig.
treatment
and the resulting
to control
is slightly
animals.
smaller
during
The the 39
experiments
with CB-154
treatment
50 pp there is a significant released
post partum.
(~(0.05)
Only on day
reduction
FSH; at the same time FSH base values
of total
increase.
DISCUSSION
The present responsiveness
The response
as there were
pituitary
secretion
comparable
formed during winter in cows, Jenkin
demonstrated
post partum.
Contrary
to conditions
measured
in this study beginning LH response
cycle in cattle
was observed increased
post partum
in dairy cows differ cows in which
could be near term and
there was some
patterns
with day
during
10 pp quite
as reported
report
for the estrous
(11). LH base levels
earlier
(12; 13; 14).
the early post-partum
from those in post-partum
duced up to 20 days pp
was
in ewes and also in women we
as described
pituitary
O-5 con-
(IO) a minor LH responsiveness
in an earlier
our LH results
reduction
with advancing
late gestation,
reported
40
a progressive
6 weeks after delivery
(9). In women
per-
to our observations
sensitivity
increase
increase
Similar
responsiveness
in sheep during
3 weeks post partum;
However
can be excluded
Flirtheron little or no LH response
tinuously.
influence
in the experiments
(8) described
days pp and after that period,
comparable
from 9 days be-
after GnRH treatment
in ewes. Lowest
in the
to GnRH ante
A seasonal
pattern
results
and summer.
et al.
in the LH response
variations
was lowest
6 days after parturition.
on this gonadotropin
gestation
demonstrate
of the maternal
and post partum. fore until
experiments
LH responsiveness
period
suckled
to GnRH was re-
(1).
JULY
1978VOL. 10 NO. 1
THERIOGENOLOGY We conclude responsiveness
from our experiments
to GnRH pp seem to be not the main
for the variabilities cycles
commencing
variability nection
estrous
between
given during
cycle
may be partly
day 9 and 50 pp. So far injections
different
compared
Pituitary
stages of the estrous earlier
measured
in peripheral
increase
of pituitary
lar amounts
blood
significant
LH content
in peripheral
(15) estimated
change
in sheep
partum.
In women
gestation
plasma)
pituitary
FSH content
up to
the content
decreased.
FSH response
to GnRH was de-
by peripheral
GnRH until
constant
until
conditions
were
turn,,the FSH basal
levels
to our earlier
estrous
cycles
JULY
found during increased during
IO days ap. This means
depleted
day 10 ap. Beginning
parable
FSH levels
and 3 - 6 weeks post
but 8 - IO days pp the response
was neither
(based
on sheep and cows.
19). In our dairy cows, the FSH response was almost
(16). The
showed very simi-
reports
of pregnancy
similar
preg-
in ewes that there was no
(17) as assessed
in the last trimester
during
post partum
and thereafter
A very low pituitary tected
of LH
curve in our study
in mean pituitary
135 days of gestation
amounts
(8; 15). In cows there is an
as in the mentioned
Charnley et al.
smaller
to the total LH concentration
the LH dose response
on measurements
It
17 - 18 of the cycle.
in sheep decreases
related
were
cycle.
(11) that during mid-
to days
LH content
and is closely
area under
in con-
in the cows could be
(day 11 - 12) significantly
nancy
The high
of the onset of cyclicity.
symptoms
could be shown already
are released
reason
of new estrous
IO days after parturition.
the variability
First visible observed
in the initiation
in the responsiveness
with
that a decreased
(18,
pregnancy that the
of FSH nor refractory
to
with day IO post par-
and response
data obtained
to GnRH were com-
during
the normal
(11).
1978VOL.lONO.l
41
THERIOGENOLOGY The progressive
decrease
nancy might be explained tinuously
high progesterone
plasma placental pregnancy
estrogens
especially
This feedback
Separate
during
control mechanisms
pregnancy
indicates
and its reduction
fusions
seem
to exist for FSH
of the placental
stimulated.
patterns
period
estrogen
There was a marked
of estrogen, change during slightly
during
during
and after
after
in-
h in heifers,
LH and FSH could be
rise of the FSH values
decrease
at the higher
at
dose
LH levels did not
this time. LH base concentrations later
the
source. After
and after infusion.
10 - 12 hours
be
until day 6 post partum
between
the lower dose and a marked
in
might
a few days before
The low response
reaction
blood
FSH responsiveness
of 1.6 - 8.0 mg estradiol-17R/4
different
in the response
of estrogens
a short period of recovery
termination
LH responsiveness
in peripheral
feedback
for the increasing
parturition.
by daily administration
differences
for the gonadotropins
cattle. A dose related responsible
of
parturition.
(20).
and LH as there are distinct pattern
of con-
the last trimester
during the few days before
to sheep and diminished rate
during preg-
feedback
levels and the increasing
action was simulated
of progesterone and synthesis
in LH response
by the negative
(Schallenberger
rose
and Schams,
unpublished).
There were no indications lactin
significantly
in our experiments
influences
the pituitary
ness to GnRH. We do not see any importance cal significant treated
difference
and CB-154
of the importance function
period
responsive-
in the statisti-
of total released
FSH of un-
cows on day 50 pp. The question
of prolactin
post partum
the anestrous extended
treated
that pro-
remains.
for the recovery It was reported
in post-partum
when they are suckled.
lactating
Nilked
of ovarian (21) that
cows is
cows usually JULY
ovulate
1978 VOL. 10 NO. 1
THERIOCENOLOCY earlier partum
after calving prolactin
gonadotropin
cycle
levels
in women
concentrations
In these cases of CB-154
than suckled
is restored
(22). High post
are responsible
and amenorrhea
inhibition
increases
ones
of prolactin
for low
during
lactation.
secretion
by means
LH and FSH levels and the menstrual (23; 2).
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Manns,
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25-33
E.S., Forsbach,
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Geiger,
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-61: XII-XIII
performance
L.E., Graves, J.W.,
L., Wenner,
W.E., Hauser,
Saiduddin,
cows. J.
E.R., Lauderdale,
S. and Tyler W.J. Stu-
cow. Res. Bull. Coil. Agric. 270: l-54
(1968)
R. and Del Pozo, E. Treatment
galactorrhea-amenorrhea
syndrome
(CB 154): restoration
of ovulatory
fertility.
46
and milked
repro-
(1958)
Life Sci. Univ. Wisconsin,
Varqa,
(1974)
of nursed
dies on the post-partum
23.
hor-
lactation;
J.N. and Cook, A.C. The comparative
J.W., Riesen,
of the
releasing
role of progesterone.
Sci. -17: 640-648
Casida,
120:
G. and Heap, R.B. The lack of response
the probable
22.
Gynecol.
sheep pituitary
J. Endocrinol.
21.
Am. J. Obstet.
(1974)
Am. J. Obstet.
of
with Br-ergocryptine
Gynecol.
function
and
117: 75-79
JULY
(1973)
1978 VOL. 10 NO. I
THERIOGENOLOGY
ng LH
ngLH
1 ml serum
119-90 dayso
/ml
serum
ngLH
/ml
serum
P
~~L~i~
501 89-60 days a P
0
1
2
3
L
1 25Opg GnRHlv
Fig.
1.
LH
5
0 1
1234501
250,ugGnRH IV
response (mean +
2
3
t
SD)
after
c 5 hours
25Opg G>>Rti IV
injection of 250/1g GnRH iv
to female cattle durinq 8 consecutiveperiods ante m (180 - 1 days ap) and 5 periods postprtm(l0
- 50 days pp)
n:nmbe.rof~iments
JULY
1978VOL.lONO.l
47
THERIOGENOLOCY
ng FSHlml
600
serum
J
ng FSH/mt
MO-15Odays (I p in:6
serum
ng FSH I ml serum
59-30days
I
10th
a p
in=12)
day pp In.9 I
I
t------L------L-r----
2
3
L
5
3
0
L
5
t
0
hours 250&g
GnRH
iv
250/g
GnRH
i v
25O$g
GnRH
i v
Fig. 2. FSH response (mean+SD)after injectionof 25Opg GnRH iv to female cattleduring 8 omsecutivepericds antepartum (180-Idays ap) and 5 periods post partun (O-50 days pp). n: number of experiments
48
JULY
1978 VOL. lONO.
1
THERIOGENOLOGY
ng LH /ml
serum
ng FSH / ml serum
T
lo"'day pp In=71
40
10th day pp
400
30
300
200 100
I, 20th
, , , ,
(
daypp
3o’h daypp t n=7 I
30th
daypp
ln=71
pp I
sothdoy II-l-61
,
400
In=61
300
, , , ,
I,, 1 P 25Oyg
2
3
L
GnRH i v
0
1
2
3
t 250,ug GnRH i v
4 5 hours
Fig. 3. UI and FSH response (mean+SD)after injection of 25Opg GnRH iv to 03~s on days 10, 20, 30 and 50 post partum after treatment with a prolactin inhibitor (150 nq CI3-154 im) on days 1,4,and7pp. n:numkrofexperiments
JULY
1978 VOL. 10 NO. 1
49
50
JULY
1978 VOL. 10 NO. 1
c
113241
53+21
Areaunderthe 9 hmitd x 2 SD
2.3
3132152
135+71
6
l&-150
Interval injec&ion peak (nin) x+SD
QuotientpeW base level
FsHrmx.peak v;itue (fig/ml) x+SD
FSH baselevel (n&l) G+ SD
Nunberofexprimts (n)
Day
79+18
105+19
3.1
4201185
137+_87
6
119-90
partm
91239
115224
2.8
4362131
157290
6
89-60
83235
110+_17
3.5
403tl57
116272
12
59-30
1: statistical significant(pCO.05)
71231
109222
2.5
4672158
184+102 _
7
149-120
Iulte
snd the first 50 days post piirhr
8
9-l
x
I
43213
Y
lm_21
2.2
I
31510
82219
1.9
292248
againstpreviousvalue
77+49
114221
3.9
4122157 242+66
9
o-6
1156253
I
!
5&t24
%
91+30
2.2
3492159
1 16e61
9
10
I
1
46218
m-42
1.9
me147
16355
9
20
Post pax-turn
thelasttrimssterofpregnanCy
107256 1108234
8
29-10
TableII. FSH respmse afteriv injectionof250~GnRHdurbg
62222
81225
2.4
3192113
134274
7
30
96223
50
I
4
tinter
mmr
zasdn
X
2
2
30
50 44
38
42
42
80
170
110
110
2.9
6.8
2.7
0.3 x
17.3
21.5
15.2
1.0 x
2.5
3.2
1.2
0.1
16.4
15.6
8.7
0.6
statisticalsignificant (p <0.0X5) against amtmls
2
4
50
20
5
30
2
5
20
IO
5
nmber of aximls
10
day @St pzrtm
-_ Prolactinconcen_trations (ns/ml) n SD X --
CT3-154treatrwnt
T
3
3
4
5
3
3
4
4
nvmberof aniwals
60
54
77
96
66
66
88
80
4.2
4.8
3.1
3.6
22.7
19.4
15.8
23.4
Prolactin cmcentr. r: x
Controls
Table 111. Prolactin concentrationsin peripherab blood post partum after treatmnt with a prolactin inh%itor on days 1, 4 and 7 pp in cxm-parison to untreated contro:s
1.2
2.4
1.2
1.3
14.2
10.6
10.7
13.7
(n9A-U SD
I
ut w
5 L
z
7 F
10
1
23.2212.2
79228
interval injectionheak x + SD (min)
areaunder the c-qe (units) X 2 SD
11.8
14.127.2
1.25.2
quotient peak/ base level
pc+ value h-q/ml)x -+ SD
jmx.
base-level (ng/ Iml)x+SD
nuker of eXpri-7 mnts (n)
day post partum
30.1L22.1
81227
13.6
19.4216.0
1.45.7
7
20
L H.
26.2214.1,
66230
12.2
13.429.4
1.15.4
7
30 -
36.z17.2
88.246
14.6
19.e10.7
1.33.7
6
50
52.2228.7
105236
2.7
329+144
12 1240
7
4111~25.7
116239
2.1
2a_56
97240
7
20
FSH
46.1+19.0
99245
2.1
226242
1 le52
7
30
Table IV. LH andFSH response after ivinjectionof 25Opg GnRH during the post-partum period after treatmentwithaprolactin inhibitor on days 1, 4 and 7 pp
39.126.2
105L28
1.7
241+51
141249
6
50
A