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Departments of Cell Biology and Physiology (S.S.M., T.M.P.), and Medicine (S.J.W.), University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania 15261
Address all correspondence and requests for reprints to: Dr. Tony M. Plant, Department of Cell Biology and Physiology, University of Pittsburgh, S330 Biomedical Science Tower, Pittsburgh, Pennsylvania 15261.
The purpose of this study was to examine the relative roles of FSH and
LH in stimulating testicular inhibin secretion in the male rhesus
monkey. Recombinant human (rh) FSH and rhCG were used as the
gonadotropic stimuli, and juvenile rhesus monkeys, in which the
endocrine activity of the pituitary-testicular axis was being driven in
an adult manner with an intermittent iv GnRH infusion, were studied.
Immunoactive inhibin levels were measured by the Monash RIA. Initiation
of an intermittent iv infusion of rhFSH (10 IU every 3 h)
resulted, after a delay of 5–6 h, in a progressive increase in the
concentrations of immunoactive inhibin, which achieved, after 48 h
of stimulation, a value twice that observed during vehicle treatment.
Gel filtration chromatography revealed that the FSH-induced elevation
in immunoactive inhibin was the result of an increase in three distinct
mol wt fractions: peak I (100 kDa), peak II (50–60 kDa), and peak III
(31 kDa). Although peak III accounted for most of the inhibin
immunoactivity in vehicle-treated animals, peaks I and II were most
responsive to FSH stimulation. Application of recently developed
enzyme-linked immunosorbent assays for inhibin B and pro-
-C-related
peptides provided additional insights into the nature of the
FSH-sensitive forms of circulating immunoactive inhibin. Most notably,
the 31-kDa fraction (peak III) was comprised of inhibin B and
pro--C. In contrast to FSH stimulation, an intermittent infusion of
rhCG (40 IU every 3 h), which markedly elevated testicular
testosterone secretion, failed to increase immunoactive inhibin
concentrations. These findings indicate that various forms of
immunoactive inhibin are present in the circulation of the rhesus
monkey, and that in this species, FSH is the principal stimulus of the
secretion of testicular inhibins, including inhibin B. Additionally,
they further underline the importance of the FSH-inhibin feedback loop
in governing testicular function in primates.
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H. G. Burger and D. M. Robertson Editorial: Inhibin in the Male--Progress at Last Endocrinology, April 1, 1997; 138(4): 1361 - 1362. [Full Text] [PDF]
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