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Biphasic effect of extracts of Lithospermum ruderale on the uptake of 32P by testes and thyroids of cockerels
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
BIPHASIC EFFECT OF EXTRACTS OF LITHOSPERMUM RUDERALE ON THE UPTAKE OF 32P BY TESTES AND THYROIDS OF COCKERELS Frank
Received
J. Zeller, W. R. Breneman, Marvin Carmack, C. J. Kelley Departments of Zoology1 and Chemistry Indiana University, Bloomington, Indiana
October
9,1975
Summary - A polyphenolic fraction of the plant Lithospermm ruder&e was injected into White Leghorn cockerels at various time intervals and the effect on testes and thyroids was measured by the uptake of 32P. The 32~ uptake 8 hours after lithosperm2 injection was markedly depressed and 12 hours after administration was notably increased. It is suggested that the hypothalamic regulation of the testes and thyroids is altered by lithosperm interference of the hypothalamic feedback system and/or the binding of receptor sites in the two glands. The synthesis been shown fractions exist
and release
to be inhibited (2)
by cold
of the plant
concerning
of chick
the site
hormones
of the anterior
pituitary
cells
administered ments were
analyzed
for
from
the anterior
thyrotropin the
testes
their
action
and/or
(1)
effects
the inhibition of the sensitivity
hormones.
before
on the
pituitary
including
possibilities
This
of Lithospermum
times
autopsy
release
has
and polyphenolic
Several
the altering
fractions
at various
and thyrotropin
ruderale.
to releasing
polyphenolic
to cockerels
extracts
2
of lithosperm
releasing
in which
water
Lithospermum
of hypothalamic
experiments
gonadotropins
paper
reports
ruderale and the
were treat-
of gonadotropins
as assayed
by the uptake
and
of 32P by
and thyroids.
Materials and Methods. Single-comb White Leghorn cockerels aged 2, 9 or lldays were used in the experiments. The chicks were removed from feed 12 hours prior to being killed at which time the glands were quickly removed and weighed to the nearest 0.1 mg. The thyroids and testes were dried and then counted on a Nuclear Chicago gas flow counter. The end-point of the assays was the uptake of 32 P in terms of wet-weights of the glands. Counts were expressed as Antilog Llo CPM Cl,3 X \r Body weight (gm) gland (mg) Analysis of variance (ANOVA) was employed for the evaluation of data and the
1
Waterman
Contribution Institute.
2. inhibiting
The term lithosperm is used principle, or principles,
1.
Cop.vright AN rights
number
o 19 75 b-v Academic Press, Inc. in anv form reserved.
of reproduction
1019
from
the Department
as a generic in the genus 1234
of Zoology,
designation Lithospermum.
for
115 from
the
the hormone
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
t-test was used when two groups were compared. The anterior pituitary glands were stored in acetone, then air-dried, ground, suspended in distilled water and assayed for their gonadotropin and thyrotropin content. Injections were made subcutaneously in a volume of 0.2 ml. Carrier free 32P was administered one hour before autopsy. The lithosperm fractions were prepared from water-soluble extracts of the dried roots of Lithospermum ruderale The polyphenolic fraction Ea used in these experiments was prepared from a (3). combination of chromatographic separations on Sephadex and a chemical fractionation (3, Table 1, Footnote a>. Three extraneous thyroids of different in body weights. No either analysis. (b) grams of wet-weights groups were comparable morning and continued the pineal gland was ment was performed in spanned the duration ferences were observed Results.
Fraction
eleven-day-old
variables were analyzed: (a) The weights of the testes and groups were compared and also were corrected for variations significant differences between groups were observed by The uptake of 32P by the two glands was expressed in milliand of dry-weight and related differences between treatment by either method. injections began in early (c) Finally, until early afternoon, therefore, the light stimulation via considered as a possible source of variation (4). An experi which cockerels received only 32P at time intervals which of the lithosperm experiments. No significant group difin the 32P uptake by either the testes or thyroids.
Ea (3) was administered
cockerels
four
hours
before
were
bimodal.
beginning
autopsy
There
initiated
at 10 or 12 hours ranges
and a very
at the
The effects related
(2)
treatment, The total of both one-hour 7.52,
treatment the
injection P < 0.007
5.10,
in
in
before
autopsy.
the
overlapped
three
groups
Notable for
were
12 hours
had the maximum deviation
fact
which
increases and the from
P uptake
the
testes
6 and &hour
when treatment
was
overlapped
the con-
examined by the
testes
that
the range range.
received
combined control
1235
responses value;
of the
uptake
of 8 hours
occurred
testes:
F = 106.75,
F = 0.4 mg
of 32P duration;
following
of these
1B).
The combined
of the means of the A lowered
of
the influence
of lithosperm.
treatment
in 32 P uptake
(Table
reflected
32 P uptake
the
to be dose
by the duration
simultaneously
elevated
control
are known
to be modified
and of the dosage
the
of the
in the
and thyroids
shown
were
slightly of the
and terminating
responses
uptake
of
periods.
on ')LP uptake
periods
32
to groups
autopsy
The 32 P counts
on the testes
of treatment
in spite
P ~0.025.
to lithosperm
increase
variables
effects
duration
and 0.8 mg dosages occurred
marked
experiment both
injection
before
in 'LP
of lithosperm
therefore,
hours
decrease
4, 14 and 16-hour
and in this
a single
The 32 P uptake
1A).
was a notable
groups
trol
sixteen
(Table
treatment
in
three
F =
exposure groups
P ~8.0 -10 .
The
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE
Testes Uptake of 32 P in Eleven-Day-Old Cockerels Which Ea. 2.0 u Ci 32P Was Injected One Hour Before Autopsy
A.
Duration -Testes: X
Range
iz Range ANOVA
B.
1
Treatment
Control 180.57 203.98-159.86
4 Hours 188.36 210.23-168.77
6 Hours 138.77* 154.91-124.30
8 Hours 128.30*** 145.00-112.75
10 Hours 378.07*** 412.74-346.32
12 Hours 263.11*** 290.78-238.09
14 Hours 196.92 216.92-178.77
16 Hours 218.99 243.26-181.60
Treatments 7 Error 104
Testes
of Lithosperm
Received 0.4 mg of Fraction To All Animals. f = 14.
and Thyroid
F MsQ 0.3745 47.38 S2 = 0.0066 Gland Amount
Uptake
<2t)o-29
of 32 P in Nine-Day-Old
and Duration
of Lithosperm
Cockerels
f = 14.
Treatment
1 Hour Testes: - X Range
Control 176.84 198.18-157.79
0.2 mg 227.14** 255.91-201.60
0.4 mg 210.00 235.57-187.20
0.8 mg 198.09 221.83-176.87
154.07 172.40-137.69
134.36** 150.88-119.64
330.37*** 365.95-298.26
291.60*** 319.11-266.43
8 Hours
z
171.85 191.97-153.83
Range
12 Hours 432.16*** 523.92-356.49
z Range ANOVA (Excluding
Controls)
MsQ 0.3774
Treatments 8 Error 117
F 44.93 S2 = 0.0084
< 4:2-32
1 Hour Thyroids: z Range
Control 203.10 223.01-184.98
0.2 mg 266.25*** 305.70-231.89
0.4 mg 297.90*** 341.53-259.82
0.8 mg 241.70 276.59-211.20
157.29** 173.68-142.27
149.84** 164.56-136.44
305.59*** 350.21-266.65
236.98 265.35-211.65
8 Hours
z
181.40 203.59-161.64
Range
12 Hours
f
348.68*** 425.49-285.71
Range ANOVA (Excluding
Controls)
Range = 95% Confidence
Limits.
Treatments 8 Error 117 *P = ~0.05,
**P = < 0.01,
1236
WQ 0.2402
F 24.06 S2 = 0.010
***P=
< 25-21
by t - test.
Vol. 67, No. 3, 1975
responses those
BIOCHEMICAL
of testes
described
for
The data those
for
that
very
three
similar
with
fore
autopsy
treatments thyroid
F = 15.08,
had a substantial which
were
glands;
F = 26.78,
was the most inhibitory
dosage
for Lower
dosages
ment effects
were
groups,
groups
or when all
nificance
being
the
0.02
but
the 0.06
than
similar
mg dosage
that
dosage
levels.
clined
as the dosage The data
the
three
P co.04. an interaction
but
which which
There
was a
were
treated
one-
began
8 hours
be-
P co.003 32
augmented
whereas
P uptake
in all
three
the responses
tested
next
(Table
of the
testes
for
by the time-
at this
the control
The 0.18
to the 0.2 mg dosage 8-hour
group
mg dosage
did
the
either
mg dosage
Total three
treat-
one-hour
as individual did
approach
sig-
in Table
1B.
The 32P uptake
differ
from
the
not
groups
The animals
2).
had substantially
which
received
control lower
lithosperm
at
average uptakes 12 hours
had 32 P counts
higher than those of the controls at all three 32 the P uptakes in the 8-hour and 12-hour series de-
Once again
for
of lithosperm
32 P uptake
were
one-hour This
with
testes.
with
from
combined.
animals.
autopsy
testes
not differ
mg and the 0.18
of control
suggested
similarities
The 0.8 mg dosage
than
of each of the
F = 9.96,
markedly
Ea (3) were
were
in the
before
the
did
effects
the
groups
effect;
The 32 P uptake
groups
for
Treatments
duration
more variable
testes.
of Fraction
however,
showed
and was comparable
marked.
dosage
P ~1.5~'~.
paralleled
treatment
values
inhibitory
by the
were
Comparisons
the three
P ~6.4~'~.
groups
for
observed
in
of 12 hours
32P uptake
glands
present.
effects
by lithosperm
autopsy;
thyroid
thyroid
time-dose
stimulation
before
control
therefore,
1A.
the ANOVA F-value
the
to the relative
in Table
were
RESEARCH COMMUNICATIONS
experiment,
by the
differences
periods
hour
treatments
testes,however,
significant
pronounced
in this
the 32 P uptake
for
the
time
respect
to lithosperm
AND BIOPHYSICAL
less dosages
was increased.
by the
affected
of dose x time.
is
in general
by the lithosperm.
differed
significance
thyroids
from
the control
paralleled The combined at an F value
questionable,
however,
After
of treatment
8 hours
1237
those
because
of
effects
of
of 4.46,
ANOVA indicated
the mean for
32P
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE 2 Testes and Thyroid Gland Uptake of 32 P in Nine-Day-Old Cockerels Fraction Ea. 2.0 u Ci 32P Was Injected One Hour Before Autopsy f = 13. Treatment Amount and Duration of Lithosperm
Which To All
Received Animals.
1 Hour Testes: z Range
0.02 mg 185.09 213.58-160.39
Control 181.23 205.50-170.60
0.06 mg 190.34 212.89-170.19
0.18 mg 206.10 218.94-194.30
139.27*** 154.85-125.24
129.40*** 145.75-114.
242.10*** 278.04-210.81
225.14** 243.46-208.19
8 Hours
i Range 12 Hours z Range ANOVA (Excluding
291.02*** 327.96-258.24
P -31
F MSQ 0.1610 25.56 S2 = 0.0063
Treatments 8 Error 108
Controls)
1 Hour Thyroids: z Range
0.02 mg 156.73 169.77-144.70
Control 174.40 191.14-159.12
0.06 mg 150.05 168.75-133.42
0.18 mg 153.87 168.05-140.88
106.30*** 117.60-96.08
105.84*** 118.53-94.50
182.45 201.91-164.87
161.72 192.97-135.54
8 Hours
z
145.70 161.35-131.57
Range
12 Hours 225.10*** 253.14-200.14
ii Range ANOVA (Excluding
Range = 95% Confidence
uptake
at 0.02
The 12-hour
mg dosage
series
elevated
of time
in
however,
gland
to determine hormone
with
except
**P
lower
at the 0.06
contrast
the effect
In order
*P = < 0.05,
was slightly
32 P uptake
x dosage,
of variance,
pituitary
Limi.ts.
of 32 P uptake
depression
cantly
Treatments 8 Error 108
Controls)
when the interaction of time was apparent; the effect content,
than
that
1238
= < 0.001
of the control
data,
not
There
cockerels
but
by t - test.
the
show signifiwas interaction
mean was employed F = 17.57,
< A-10
was more marked.
did
mg dosage.
of the lithosperm
U-day-old
***P
mg dosages
testicular
at the 0.02
F 19.78 = 0.0065
= < 0.01,
mg and 0.18 the
MSQ 0.12862 S
as an estimate
P
were
injected
on anterior with
0.4 mg
Vol. 67, No. 3, 1975
of Ea (3) on the
BIOCHEMICAL
at 1, 2, 8 and 12 hours
thyroids
and testes
those
previously
described,
animal
received
itary clearly hour,
the
a-hour
noteworthy
that
in
donor
the one-hour
whereas
gonadotropin.
of the
uptake
and 12-hour
gonadotropin
mals were
“P
"donor"
birds these
The effects were
data
groups
differed
are
were
32
group
P uptake
those
not
fresh
chicks
received
(Table
glands
groups
Each assay anterior
groups.
had a much higher
testes
the one-
had a lower
thyroids
pitu-
3A) indicate
from
the control
by the
of the
the same as
tabulated.
of donor
from
recipient
of the lithosperm
essentially
the assay
which
recipient
in the than
in
the groups
the 12-hour
striking
testes
and a-hour
Differences less
autopsy.
dose of 1.0 mg equivalent
The responses
that
before
therefore,
a single
gland.
of the
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
is
titer
of
level
of the
and there
It
were
of
assay
ani-
two varia-
TABLE 3 Testes and Thyroid Uptake of “P in Two-Day-Old Cockerels Given Anterior Pituitary from Donor Birds Which Received 0.4 mg Lithosperm Fraction Ea for One, Two, Four, Eight or Twelve Hours. 1.0 u Ci 32P Was Administered Hour Before Autopsy. 1.0 mg Equivalent of Fresh Anterior Pituitary Gland Injected Five Hours Before Autopsy. f = 15. A. Donors:
x
Range
ANOVA
Treatments Error
1 Hour LSPM 149.21*** 160.55-138.68
2 Hours LSPM 166.95 184.59-151.00
Donors: j; Range
8 Hours LSPM 124.39*** 131.32-117.84
12 Hours LSPM 240.99*** 276.16-210.28
MSQ
0.3832
S2
F 58.95 = 0.0065
ANOVA
Treatments Error
Thyroids
Control AP 100.20 110.51-90.86
1 Hour LSPM 73.10*x* 82.91-64.45
2 Hours LSPM 93.01 103.62-83.49
Donors: z Range
8 Hours LSPM 67.91*** 76.06-60.64
12 Hours LSPM 100.00 110.61-90.41
5 a4
Range = 95% Confidence
=Q 0.079Z2 s Limits.
F 11.65 = 0.0068
4 Hours LSPM 173.97 195.84-154.55
< 3Po-25 B.
Donors: x Range
Testes
Control AP 179.78 191.21-169.02
5 a4
One Was
4 Hours LSPM 87.28x 94.46-80.66
< lPawoa
*P = < 0.05,
**P = < 0.01,
1239
***P
= < 0.001
by t - test.
Vol. 67, No. 3, 1975
in
tions
the responses
pituitaries uptake
from in
the
which
Discussion.
the
elevated
variable.
The thyroids than
increased
did
after
therefore,
as well
are
similar
rat
(5,6,7,8)
observed the rat
in which
following
(LH-RF)
the response terior
but,
by endogenous
responsiveness
The timing cockerels
of these but
assay
responses
parallels.
titers
of both
gonadotropins
animals
synthesis
had marked
and release
of
32
control.
P uptake
It
was suggested
prior
the anterior
but
the
;IL
P was
of lithoof
hour
the
pituitary
gland
was
following
injection
hormone
releasing
an enhancement cells
to LH-RF,
that
of the rat the cells
secretion,
may be
and that feedback effects
treated testes It
hormones
is
group
pitui-
axis. on
had low
and thyroids evident
that
was inhibited.
of an-
of lithosperm-treated
8-hour
P uptake.
data
in the female
the
glands
lithosperm
pituitary
that
and the
1240
had
to a lesser
to the duration
of the lithosperm
pituitary
32
more
administration
the reverse
of
somewhat
The analysis
One
estrogen
and thyrotropin depression
autopsy
The thyroidal
in a hypothalamic
from
of "P,
injection
respect
sensitivity
by variations are
received
before
to luteinizing
estradiol
The glands
suggest
were
on the anterior
after
their
which
have been reported
sensitivity
of the anterior
chicks
these
in
caused
from
had a
12 hours
of estradiol.
LH-RF following is
and the
differ
uptakes
not known
which
effect
hours
cyclic
are
received
employed. is
to results
decreased
eight
with
of lithosperm
to LH-RP occurred.
pituitary
"primed" tary
showed
depressed
was similar.
of the dosages
a biphasic
animals
in one experiment.
the administration
pituitary
factor
the pattern
terms
in some respects
not
to the lithosperm
treatment
of action
which
the control
donors
intervals
must be evaluated
as in
The mechanism
time
responded
but
that
lithosperm
Other
glands
the one-hour
sperm effects, treatment
administered
testes
did
the S-hour
had markedly
'LP uptakes.
the
chicks
than
glands
demonstrate
autopsy
of birds
lower
donor from
in the
the control.
responses
strikingly
degree
than
P uptake
was slightly
the glands
before
testes
32
The
donors
given lower
8 hours
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the 12-hour
Testicular
lithosperm
3B).
4-hour
were
was markedly
whereas
(Table
the recipients
The birds which
BIOCHEMICAL
of both The
Vol. 67, No. 3, 1975
pituitary
glands
12-hour
of the assay
treated
and thyrotropin "P
BIOCHEMICAL
uptakes.
on the other
and the
testes
at this
time
releasing
factors
is
release
leasing
factors
and decrease tion
in the
and release
has only
effective
had broken
or if
suggests
pituitary
either
additional
the
by the
may not
occur
cells
of treatment
could
The occurrence
of either
or both
the sensitivity
of the pituitary
cells
to stimulation;
would
be explained
if
synthesized
in
would
in pituitary
events
secre-
lithosperm
factors
during
of these
the re-
the lithosperm
increase
complex
of inhibition.
effect
Secretion for
with
of hypothalamic
had been
greatly
of hypothalamic
The marked
a receptor-lithosperm receptors
were
treatment.
may complex
release
had enhanced
hormones
8 hour
the
gonadotropins
donors
action
from
or the receptors
to respond.
A sudden
of both
of the 12-hour
in some fashion
action.
material
titers
that
12 hours
if
had high
This
of the cells
a short-term
pituitary
of the pituitary
the anterior
after
especially
hand,
the hypothalamus
ability
received
and release
period.
blocked
from
which
and thyroids
synthesis
augmented
and/or
birds
donors,
Both
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
be
cells
the interval would
essentially
increase
a "priming"
occur. References
1.
W. R. Breneman and Frank 1049-1053, 1975.
2.
W. R. Breneman; Comp. Endocrinol.
3.
Charles J. Kelley; J. R. Mahajan; R. Breneman and Marvin Carmack.
4.
Jerome
5.
G. Zaballose
and S. M. McCann.
6.
C. Libertun;
R. Orias
7. 8.
A. Castro-Vasquez K. J. 1975.
Zeller.
Biochem.
Frank 3. Zeller; Marvin (In Press) 1975.
M. Yochim
Cooper;
J.
and Edward
Lucille J. Org.
P. Wallen.
and C. J. Kelley.
94: 1094-1099, Endocrinol.
and S. M. McCann.
Comm. 65: Gen. and
A. Neubert; 1975.
of Rep. 11: 125-132,
Endocrinol.
1241
Res.
C. Brooks; Leonard Chem. 40: 1804-1815, Biol.
and S. M. McCann.
C. D. Fawcett
Carmack
Endocrinol.
and S. M. McCann.
and Biophys.
96:
1974. 1377-1385,
97: 13-19, Endocrinol.
1974. 1975.
1975. 96:
1123-1129,
W.
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
BIPHASIC EFFECT OF EXTRACTS OF LITHOSPERMUM RUDERALE ON THE UPTAKE OF 32P BY TESTES AND THYROIDS OF COCKERELS Frank
Received
J. Zeller, W. R. Breneman, Marvin Carmack, C. J. Kelley Departments of Zoology1 and Chemistry Indiana University, Bloomington, Indiana
October
9,1975
Summary - A polyphenolic fraction of the plant Lithospermm ruder&e was injected into White Leghorn cockerels at various time intervals and the effect on testes and thyroids was measured by the uptake of 32P. The 32~ uptake 8 hours after lithosperm2 injection was markedly depressed and 12 hours after administration was notably increased. It is suggested that the hypothalamic regulation of the testes and thyroids is altered by lithosperm interference of the hypothalamic feedback system and/or the binding of receptor sites in the two glands. The synthesis been shown fractions exist
and release
to be inhibited (2)
by cold
of the plant
concerning
of chick
the site
hormones
of the anterior
pituitary
cells
administered ments were
analyzed
for
from
the anterior
thyrotropin the
testes
their
action
and/or
(1)
effects
the inhibition of the sensitivity
hormones.
before
on the
pituitary
including
possibilities
This
of Lithospermum
times
autopsy
release
has
and polyphenolic
Several
the altering
fractions
at various
and thyrotropin
ruderale.
to releasing
polyphenolic
to cockerels
extracts
2
of lithosperm
releasing
in which
water
Lithospermum
of hypothalamic
experiments
gonadotropins
paper
reports
ruderale and the
were treat-
of gonadotropins
as assayed
by the uptake
and
of 32P by
and thyroids.
Materials and Methods. Single-comb White Leghorn cockerels aged 2, 9 or lldays were used in the experiments. The chicks were removed from feed 12 hours prior to being killed at which time the glands were quickly removed and weighed to the nearest 0.1 mg. The thyroids and testes were dried and then counted on a Nuclear Chicago gas flow counter. The end-point of the assays was the uptake of 32 P in terms of wet-weights of the glands. Counts were expressed as Antilog Llo CPM Cl,3 X \r Body weight (gm) gland (mg) Analysis of variance (ANOVA) was employed for the evaluation of data and the
1
Waterman
Contribution Institute.
2. inhibiting
The term lithosperm is used principle, or principles,
1.
Cop.vright AN rights
number
o 19 75 b-v Academic Press, Inc. in anv form reserved.
of reproduction
1019
from
the Department
as a generic in the genus 1234
of Zoology,
designation Lithospermum.
for
115 from
the
the hormone
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
t-test was used when two groups were compared. The anterior pituitary glands were stored in acetone, then air-dried, ground, suspended in distilled water and assayed for their gonadotropin and thyrotropin content. Injections were made subcutaneously in a volume of 0.2 ml. Carrier free 32P was administered one hour before autopsy. The lithosperm fractions were prepared from water-soluble extracts of the dried roots of Lithospermum ruderale The polyphenolic fraction Ea used in these experiments was prepared from a (3). combination of chromatographic separations on Sephadex and a chemical fractionation (3, Table 1, Footnote a>. Three extraneous thyroids of different in body weights. No either analysis. (b) grams of wet-weights groups were comparable morning and continued the pineal gland was ment was performed in spanned the duration ferences were observed Results.
Fraction
eleven-day-old
variables were analyzed: (a) The weights of the testes and groups were compared and also were corrected for variations significant differences between groups were observed by The uptake of 32P by the two glands was expressed in milliand of dry-weight and related differences between treatment by either method. injections began in early (c) Finally, until early afternoon, therefore, the light stimulation via considered as a possible source of variation (4). An experi which cockerels received only 32P at time intervals which of the lithosperm experiments. No significant group difin the 32P uptake by either the testes or thyroids.
Ea (3) was administered
cockerels
four
hours
before
were
bimodal.
beginning
autopsy
There
initiated
at 10 or 12 hours ranges
and a very
at the
The effects related
(2)
treatment, The total of both one-hour 7.52,
treatment the
injection P < 0.007
5.10,
in
in
before
autopsy.
the
overlapped
three
groups
Notable for
were
12 hours
had the maximum deviation
fact
which
increases and the from
P uptake
the
testes
6 and &hour
when treatment
was
overlapped
the con-
examined by the
testes
that
the range range.
received
combined control
1235
responses value;
of the
uptake
of 8 hours
occurred
testes:
F = 106.75,
F = 0.4 mg
of 32P duration;
following
of these
1B).
The combined
of the means of the A lowered
of
the influence
of lithosperm.
treatment
in 32 P uptake
(Table
reflected
32 P uptake
the
to be dose
by the duration
simultaneously
elevated
control
are known
to be modified
and of the dosage
the
of the
in the
and thyroids
shown
were
slightly of the
and terminating
responses
uptake
of
periods.
on ')LP uptake
periods
32
to groups
autopsy
The 32 P counts
on the testes
of treatment
in spite
P ~0.025.
to lithosperm
increase
variables
effects
duration
and 0.8 mg dosages occurred
marked
experiment both
injection
before
in 'LP
of lithosperm
therefore,
hours
decrease
4, 14 and 16-hour
and in this
a single
The 32 P uptake
1A).
was a notable
groups
trol
sixteen
(Table
treatment
in
three
F =
exposure groups
P ~8.0 -10 .
The
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE
Testes Uptake of 32 P in Eleven-Day-Old Cockerels Which Ea. 2.0 u Ci 32P Was Injected One Hour Before Autopsy
A.
Duration -Testes: X
Range
iz Range ANOVA
B.
1
Treatment
Control 180.57 203.98-159.86
4 Hours 188.36 210.23-168.77
6 Hours 138.77* 154.91-124.30
8 Hours 128.30*** 145.00-112.75
10 Hours 378.07*** 412.74-346.32
12 Hours 263.11*** 290.78-238.09
14 Hours 196.92 216.92-178.77
16 Hours 218.99 243.26-181.60
Treatments 7 Error 104
Testes
of Lithosperm
Received 0.4 mg of Fraction To All Animals. f = 14.
and Thyroid
F MsQ 0.3745 47.38 S2 = 0.0066 Gland Amount
Uptake
<2t)o-29
of 32 P in Nine-Day-Old
and Duration
of Lithosperm
Cockerels
f = 14.
Treatment
1 Hour Testes: - X Range
Control 176.84 198.18-157.79
0.2 mg 227.14** 255.91-201.60
0.4 mg 210.00 235.57-187.20
0.8 mg 198.09 221.83-176.87
154.07 172.40-137.69
134.36** 150.88-119.64
330.37*** 365.95-298.26
291.60*** 319.11-266.43
8 Hours
z
171.85 191.97-153.83
Range
12 Hours 432.16*** 523.92-356.49
z Range ANOVA (Excluding
Controls)
MsQ 0.3774
Treatments 8 Error 117
F 44.93 S2 = 0.0084
< 4:2-32
1 Hour Thyroids: z Range
Control 203.10 223.01-184.98
0.2 mg 266.25*** 305.70-231.89
0.4 mg 297.90*** 341.53-259.82
0.8 mg 241.70 276.59-211.20
157.29** 173.68-142.27
149.84** 164.56-136.44
305.59*** 350.21-266.65
236.98 265.35-211.65
8 Hours
z
181.40 203.59-161.64
Range
12 Hours
f
348.68*** 425.49-285.71
Range ANOVA (Excluding
Controls)
Range = 95% Confidence
Limits.
Treatments 8 Error 117 *P = ~0.05,
**P = < 0.01,
1236
WQ 0.2402
F 24.06 S2 = 0.010
***P=
< 25-21
by t - test.
Vol. 67, No. 3, 1975
responses those
BIOCHEMICAL
of testes
described
for
The data those
for
that
very
three
similar
with
fore
autopsy
treatments thyroid
F = 15.08,
had a substantial which
were
glands;
F = 26.78,
was the most inhibitory
dosage
for Lower
dosages
ment effects
were
groups,
groups
or when all
nificance
being
the
0.02
but
the 0.06
than
similar
mg dosage
that
dosage
levels.
clined
as the dosage The data
the
three
P co.04. an interaction
but
which which
There
was a
were
treated
one-
began
8 hours
be-
P co.003 32
augmented
whereas
P uptake
in all
three
the responses
tested
next
(Table
of the
testes
for
by the time-
at this
the control
The 0.18
to the 0.2 mg dosage 8-hour
group
mg dosage
did
the
either
mg dosage
Total three
treat-
one-hour
as individual did
approach
sig-
in Table
1B.
The 32P uptake
differ
from
the
not
groups
The animals
2).
had substantially
which
received
control lower
lithosperm
at
average uptakes 12 hours
had 32 P counts
higher than those of the controls at all three 32 the P uptakes in the 8-hour and 12-hour series de-
Once again
for
of lithosperm
32 P uptake
were
one-hour This
with
testes.
with
from
combined.
animals.
autopsy
testes
not differ
mg and the 0.18
of control
suggested
similarities
The 0.8 mg dosage
than
of each of the
F = 9.96,
markedly
Ea (3) were
were
in the
before
the
did
effects
the
groups
effect;
The 32 P uptake
groups
for
Treatments
duration
more variable
testes.
of Fraction
however,
showed
and was comparable
marked.
dosage
P ~1.5~'~.
paralleled
treatment
values
inhibitory
by the
were
Comparisons
the three
P ~6.4~'~.
groups
for
observed
in
of 12 hours
32P uptake
glands
present.
effects
by lithosperm
autopsy;
thyroid
thyroid
time-dose
stimulation
before
control
therefore,
1A.
the ANOVA F-value
the
to the relative
in Table
were
RESEARCH COMMUNICATIONS
experiment,
by the
differences
periods
hour
treatments
testes,however,
significant
pronounced
in this
the 32 P uptake
for
the
time
respect
to lithosperm
AND BIOPHYSICAL
less dosages
was increased.
by the
affected
of dose x time.
is
in general
by the lithosperm.
differed
significance
thyroids
from
the control
paralleled The combined at an F value
questionable,
however,
After
of treatment
8 hours
1237
those
because
of
effects
of
of 4.46,
ANOVA indicated
the mean for
32P
Vol. 67, No. 3, 1975
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
TABLE 2 Testes and Thyroid Gland Uptake of 32 P in Nine-Day-Old Cockerels Fraction Ea. 2.0 u Ci 32P Was Injected One Hour Before Autopsy f = 13. Treatment Amount and Duration of Lithosperm
Which To All
Received Animals.
1 Hour Testes: z Range
0.02 mg 185.09 213.58-160.39
Control 181.23 205.50-170.60
0.06 mg 190.34 212.89-170.19
0.18 mg 206.10 218.94-194.30
139.27*** 154.85-125.24
129.40*** 145.75-114.
242.10*** 278.04-210.81
225.14** 243.46-208.19
8 Hours
i Range 12 Hours z Range ANOVA (Excluding
291.02*** 327.96-258.24
P -31
F MSQ 0.1610 25.56 S2 = 0.0063
Treatments 8 Error 108
Controls)
1 Hour Thyroids: z Range
0.02 mg 156.73 169.77-144.70
Control 174.40 191.14-159.12
0.06 mg 150.05 168.75-133.42
0.18 mg 153.87 168.05-140.88
106.30*** 117.60-96.08
105.84*** 118.53-94.50
182.45 201.91-164.87
161.72 192.97-135.54
8 Hours
z
145.70 161.35-131.57
Range
12 Hours 225.10*** 253.14-200.14
ii Range ANOVA (Excluding
Range = 95% Confidence
uptake
at 0.02
The 12-hour
mg dosage
series
elevated
of time
in
however,
gland
to determine hormone
with
except
**P
lower
at the 0.06
contrast
the effect
In order
*P = < 0.05,
was slightly
32 P uptake
x dosage,
of variance,
pituitary
Limi.ts.
of 32 P uptake
depression
cantly
Treatments 8 Error 108
Controls)
when the interaction of time was apparent; the effect content,
than
that
1238
= < 0.001
of the control
data,
not
There
cockerels
but
by t - test.
the
show signifiwas interaction
mean was employed F = 17.57,
< A-10
was more marked.
did
mg dosage.
of the lithosperm
U-day-old
***P
mg dosages
testicular
at the 0.02
F 19.78 = 0.0065
= < 0.01,
mg and 0.18 the
MSQ 0.12862 S
as an estimate
P
were
injected
on anterior with
0.4 mg
Vol. 67, No. 3, 1975
of Ea (3) on the
BIOCHEMICAL
at 1, 2, 8 and 12 hours
thyroids
and testes
those
previously
described,
animal
received
itary clearly hour,
the
a-hour
noteworthy
that
in
donor
the one-hour
whereas
gonadotropin.
of the
uptake
and 12-hour
gonadotropin
mals were
“P
"donor"
birds these
The effects were
data
groups
differed
are
were
32
group
P uptake
those
not
fresh
chicks
received
(Table
glands
groups
Each assay anterior
groups.
had a much higher
testes
the one-
had a lower
thyroids
pitu-
3A) indicate
from
the control
by the
of the
the same as
tabulated.
of donor
from
recipient
of the lithosperm
essentially
the assay
which
recipient
in the than
in
the groups
the 12-hour
striking
testes
and a-hour
Differences less
autopsy.
dose of 1.0 mg equivalent
The responses
that
before
therefore,
a single
gland.
of the
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
is
titer
of
level
of the
and there
It
were
of
assay
ani-
two varia-
TABLE 3 Testes and Thyroid Uptake of “P in Two-Day-Old Cockerels Given Anterior Pituitary from Donor Birds Which Received 0.4 mg Lithosperm Fraction Ea for One, Two, Four, Eight or Twelve Hours. 1.0 u Ci 32P Was Administered Hour Before Autopsy. 1.0 mg Equivalent of Fresh Anterior Pituitary Gland Injected Five Hours Before Autopsy. f = 15. A. Donors:
x
Range
ANOVA
Treatments Error
1 Hour LSPM 149.21*** 160.55-138.68
2 Hours LSPM 166.95 184.59-151.00
Donors: j; Range
8 Hours LSPM 124.39*** 131.32-117.84
12 Hours LSPM 240.99*** 276.16-210.28
MSQ
0.3832
S2
F 58.95 = 0.0065
ANOVA
Treatments Error
Thyroids
Control AP 100.20 110.51-90.86
1 Hour LSPM 73.10*x* 82.91-64.45
2 Hours LSPM 93.01 103.62-83.49
Donors: z Range
8 Hours LSPM 67.91*** 76.06-60.64
12 Hours LSPM 100.00 110.61-90.41
5 a4
Range = 95% Confidence
=Q 0.079Z2 s Limits.
F 11.65 = 0.0068
4 Hours LSPM 173.97 195.84-154.55
< 3Po-25 B.
Donors: x Range
Testes
Control AP 179.78 191.21-169.02
5 a4
One Was
4 Hours LSPM 87.28x 94.46-80.66
< lPawoa
*P = < 0.05,
**P = < 0.01,
1239
***P
= < 0.001
by t - test.
Vol. 67, No. 3, 1975
in
tions
the responses
pituitaries uptake
from in
the
which
Discussion.
the
elevated
variable.
The thyroids than
increased
did
after
therefore,
as well
are
similar
rat
(5,6,7,8)
observed the rat
in which
following
(LH-RF)
the response terior
but,
by endogenous
responsiveness
The timing cockerels
of these but
assay
responses
parallels.
titers
of both
gonadotropins
animals
synthesis
had marked
and release
of
32
control.
P uptake
It
was suggested
prior
the anterior
but
the
;IL
P was
of lithoof
hour
the
pituitary
gland
was
following
injection
hormone
releasing
an enhancement cells
to LH-RF,
that
of the rat the cells
secretion,
may be
and that feedback effects
treated testes It
hormones
is
group
pitui-
axis. on
had low
and thyroids evident
that
was inhibited.
of an-
of lithosperm-treated
8-hour
P uptake.
data
in the female
the
glands
lithosperm
pituitary
that
and the
1240
had
to a lesser
to the duration
of the lithosperm
pituitary
32
more
administration
the reverse
of
somewhat
The analysis
One
estrogen
and thyrotropin depression
autopsy
The thyroidal
in a hypothalamic
from
of "P,
injection
respect
sensitivity
by variations are
received
before
to luteinizing
estradiol
The glands
suggest
were
on the anterior
after
their
which
have been reported
sensitivity
of the anterior
chicks
these
in
caused
from
had a
12 hours
of estradiol.
LH-RF following is
and the
differ
uptakes
not known
which
effect
hours
cyclic
are
received
employed. is
to results
decreased
eight
with
of lithosperm
to LH-RP occurred.
pituitary
"primed" tary
showed
depressed
was similar.
of the dosages
a biphasic
animals
in one experiment.
the administration
pituitary
factor
the pattern
terms
in some respects
not
to the lithosperm
treatment
of action
which
the control
donors
intervals
must be evaluated
as in
The mechanism
time
responded
but
that
lithosperm
Other
glands
the one-hour
sperm effects, treatment
administered
testes
did
the S-hour
had markedly
'LP uptakes.
the
chicks
than
glands
demonstrate
autopsy
of birds
lower
donor from
in the
the control.
responses
strikingly
degree
than
P uptake
was slightly
the glands
before
testes
32
The
donors
given lower
8 hours
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the 12-hour
Testicular
lithosperm
3B).
4-hour
were
was markedly
whereas
(Table
the recipients
The birds which
BIOCHEMICAL
of both The
Vol. 67, No. 3, 1975
pituitary
glands
12-hour
of the assay
treated
and thyrotropin "P
BIOCHEMICAL
uptakes.
on the other
and the
testes
at this
time
releasing
factors
is
release
leasing
factors
and decrease tion
in the
and release
has only
effective
had broken
or if
suggests
pituitary
either
additional
the
by the
may not
occur
cells
of treatment
could
The occurrence
of either
or both
the sensitivity
of the pituitary
cells
to stimulation;
would
be explained
if
synthesized
in
would
in pituitary
events
secre-
lithosperm
factors
during
of these
the re-
the lithosperm
increase
complex
of inhibition.
effect
Secretion for
with
of hypothalamic
had been
greatly
of hypothalamic
The marked
a receptor-lithosperm receptors
were
treatment.
may complex
release
had enhanced
hormones
8 hour
the
gonadotropins
donors
action
from
or the receptors
to respond.
A sudden
of both
of the 12-hour
in some fashion
action.
material
titers
that
12 hours
if
had high
This
of the cells
a short-term
pituitary
of the pituitary
the anterior
after
especially
hand,
the hypothalamus
ability
received
and release
period.
blocked
from
which
and thyroids
synthesis
augmented
and/or
birds
donors,
Both
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
be
cells
the interval would
essentially
increase
a "priming"
occur. References
1.
W. R. Breneman and Frank 1049-1053, 1975.
2.
W. R. Breneman; Comp. Endocrinol.
3.
Charles J. Kelley; J. R. Mahajan; R. Breneman and Marvin Carmack.
4.
Jerome
5.
G. Zaballose
and S. M. McCann.
6.
C. Libertun;
R. Orias
7. 8.
A. Castro-Vasquez K. J. 1975.
Zeller.
Biochem.
Frank 3. Zeller; Marvin (In Press) 1975.
M. Yochim
Cooper;
J.
and Edward
Lucille J. Org.
P. Wallen.
and C. J. Kelley.
94: 1094-1099, Endocrinol.
and S. M. McCann.
Comm. 65: Gen. and
A. Neubert; 1975.
of Rep. 11: 125-132,
Endocrinol.
1241
Res.
C. Brooks; Leonard Chem. 40: 1804-1815, Biol.
and S. M. McCann.
C. D. Fawcett
Carmack
Endocrinol.
and S. M. McCann.
and Biophys.
96:
1974. 1377-1385,
97: 13-19, Endocrinol.
1974. 1975.
1975. 96:
1123-1129,
W.