The discovery of the various peptide factors in the gonads followed different paths. A number of factors were specifically searched for because of physiological experiments that predicted that an activity from the gonads was necessary to explain phenomena. Such was the case for gonadal steroids and for such peptide factors as inhibin, MIS, OMI, FRP, seminal plasma inhibin, relaxin, PA factor and other proteases, and ABP. In the process other factors such as activin and follistatin were serendipitously discovered. A second group of factors was discovered because in vitro experiments of various combinations of gonadal cell types failed to replicate in vivo findings, suggesting missing signals. Such substances are the panoply of growth factors aiding in differentiation and growth promotion and inhibition: LS and LI, P-Mod-S, clusterin, and various components of the ECM. Finally, and most recently, another set of peptides has been identified because immunological or molecular probes have been used to search gonadal tissue for factors originally discovered elsewhere; these include POMC, GnRH-like peptide, oxytocin, AVP, angiotensin, ANF, CRF, neural peptides, and c-mos. Our understanding of the relationship of most of these peptides to the local signals necessary for gonadal function is still very elementary. Clearly some like relaxin and inhibin function as important hormones, and ABP, for example, probably functions importantly in transporting testosterone down the tubule. Most local paracrine or autocrine peptide signals appear to act in relationship to gonadotropin levels probably in local differentiation in the process of gamete maturation, but this is only conjecture at this point. No experimental verification that any of these factors is involved in follicle selection for recruitment or for atresia is yet available. For many of the factors local receptors have not yet been identified. The richness of the variety of peptides in the gonads suggests that microanalysis of cell-cell signaling would be rewarding, but at the time of this writing such investigations are not yet possible.
Glucose Modulation of Somatostatin and LHRH Release from Rat Hypothalamic Fragments in vitro
In the rat, hypoglycaemia inhibits growth hormone secretion, but the mechanism is unclear. To investigate this further, we have studied the effects of glucose and 2-deoxy-D-glucose on somatostatin and LHRH release from rat hypothalamic fragments incubated in vitro. Glucose (1.35–22 mM) was added to glucose-free medium and 5 and 50 mM 2-deoxy-D-glucose were added to medium containing 5.5 mM glucose. Medium somatostatin and LHRH levels were measured by RIA. Somatostatin and LHRH released diluted in parallel with synthetic somatostatin and LHRH. Sephadex gel filtration demonstrated two molecular forms of somatostatin, 70% coeluting with somatostatin-14 and 30% with somatostatin-28; LHRH coeluted with synthetic LHRH. KC1 (30–100 mM) resulted in release of somatostatin and LHRH; this was reduced in calcium-free medium. Basal and K+-stimulated somatostatin release were significantly increased by reducing glucose levels (r = -0.6, p < 0.001). Basal LHRH was not influenced by glucose. Basal and K+-induced somatostatin release were significantly increased by 2-deoxy-D-glucose (p < 0.05), while LHRH levels remained unchanged. Our results demonstrate that basal and K+-induced somatostatin release from rat hypothalamic fragments are modulated by local glucose concentrations, and this effect is specific as it is not paralleled by LHRH changes. We suggest that the reduction in growth hormone secretion during hypoglycaemia in the rat might be mediated, at least in part, via a direct effect of glucose on somatostatin release.
Serum immunoreactive inhibin-alpha (irI alpha), FSH, LH, and testosterone (T) were measured in male golden hamsters during short-day-induced testicular regression and during testicular recrudescence following the transfer from short to long days. Serum FSH levels were maximally suppressed within 2 wk of transfer to short days. In contrast to FSH, irI alpha levels were not fully reduced until after 6 wk of exposure to short days, closely paralleling the timing of testicular regression. LH and T levels were also reduced within two 2k, with maximal suppression observed between 6 and 8 wk. Conversely, when males with regressed testes were transferred to long days, serum FSH rose to peak (25 ng/ml) levels by 3 wk and then declined to usual long-day levels. In contrast, serum irI alpha levels rose gradually, reaching adult long-day levels following 10 wk of exposure. Serum LH and T levels rose to peak levels between 5 and 8 wk before declining to adult levels. FSH, LH, and irI alpha levels were also measured after castration in male hamsters maintained on long or short days. Twenty-four hours after castration, levels of irI alpha were reduced in long-day males to levels comparable to those observed in castrated short-day males. Serum irI alpha levels respond slowly to abrupt changes in FSH levels after transfer to either long or short days, suggesting that testicular irI alpha secretion may not be directly and immediately influenced by circulating FSH levels in the hamster.(ABSTRACT TRUNCATED AT 250 WORDS)
We have measured serum and ovarian immunoreactive inhibin alpha (irI alpha) and serum FSH in fetal and neonatal rats from 20 days of gestation until 40 days of age. For animals aged 10 days or older, serum measurements were made on intact and gonadectomized animals. Serum irI alpha was detectable in intact male and female rats at all ages studied. In females, irI alpha levels were low until Day 5 and then increased steadily to peak at Day 25. Thereafter they declined until Day 35 to reach levels typical of adult females. There was a significant decrease in irI alpha levels 24 h after ovariectomy at all ages. Serum FSH levels in females were low until Day 7, then increased rapidly to plateau from Days 10-15. The levels then declined until Day 25 and were generally unchanged after that time. There was a significant increase in FSH 24 h after ovariectomy in rats aged 20 days and older, and in younger rats by 48 h after ovariectomy. In male rats, serum irI alpha levels were significantly higher than females until Day 7. The levels increased at Day 7 and then remained relatively constant until Day 20, after which they declined to reach typical adult male levels. Serum irI alpha levels were significantly lower in males than females from Days 25-40. There was a significant decrease in serum irI alpha 24 h after castration at all ages studied. Serum FSH levels in males were low until Day 20, increased at Day 25, and thereafter remained relatively unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
Corticotrophin releasing factor-like immunoreactivity (CRF-LI) and bioactivity, and arginine vasopressin-like immunoreactivity (AVP-LI) have been measured in extracts of human fetal and adult hypothalamic tissue and their development with the gestational age of the fetuses (12-27 weeks) studied. CRF-LI was measured by a radioimmunoassay developed for ovine corticotrophin-releasing factor (oCRF-41). Corticotrophin-releasing factor bioactivity was measured in a rat isolated anterior pituitary cell perfusion system. CRF-LI and bioactivity and AVP-LI were all detectable in fetal hypothalamic extracts from 12 to 13 weeks of gestational age. CRF-LI was also present in human fetal pituitary glands from 12 weeks of gestational age. The concentration of CRF-LI in the fetal hypothalamic extracts (9.2 +/- 11.4 ng/g, mean +/- S.E.M., n = 33) showed no significant correlation with the gestational age of the fetuses. However the concentration of AVP-LI (25.0-36.8 ng/g, n = 17) did show a positive correlation (r = 0.508, P less than 0.05) with gestational age, as did the concentration of CRF bioactivity (471.3-556.3 ng ACTH released/g tissue, n = 13, r = 0.725, P less than 0.01). The CRF bioactivity of all fetal hypothalamic extracts was potentiated by the addition of synthetic human (h)AVP, but the bioactivity of the adult hypothalamic extracts was not, presumably because of the higher levels of AVP-LI already present in the adult extracts. Pretreatment of tissue extracts with antisera to oCRF-41 and/or hAVP reduced the CRF bioactivity of all hypothalamic extracts. Sephadex chromatography of fractions which co-eluted with synthetic oCRF-41 or hAVP contained CRF bioactivity and this bioactivity was potentiated when synthetic hAVP or oCRF-41, respectively, were added to the fractions. However, a larger molecular weight form of CRF-LI (8000-10 000 daltons), which was observed only in fetuses of 20 weeks of gestational age or less, did not contain any significant CRF bioactivity.
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