Analysis of bovine follicular fluid (FF) using sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) coupled with a sensitive immunoblotting procedure resolved several components that were immunoreactive with an antiserum directed against the n-terminus of the \g=a\subunit of human inhibin (hI\g=a\(1\p=n-\32) In conclusion, the present study has revealed that the bovine ovary secretes considerable quantities of monomeric inhibin \g=a\subunit. The unexpected presence of this material in peripheral blood is likely to hinder attempts to obtain physiologically relevant data on circulating levels of inhibin in cattle using conventional radioimmunoassays.
The objectives were to determine the relationships between changes in the levels of histological and biochemical (estradiol [E2]:androstenedione [A], E2:A ratio) atresia and changes in inhibin contents of morphologically dominant follicles collected during the growing or the regressing phase of the first wave of follicular development in cycling crossbred beef heifers. Heifers were slaughtered either when the dominant follicle (> or = 9 mm; diameter of the antral cavity as assessed by ultrasonography) of the first wave was still growing (n = 7) or when the first dominant follicle (> or = 9 mm; n = 7) was regressing or was at the end of the plateau phase. Following ovary collection, the dominant follicle was dissected and level of histological atresia was determined on sections of follicular walls. Aliquots of follicular fluid from each of the dominant follicles were collected to measure concentrations of E2, A, and inhibin alpha subunit by RIA and to measure concentrations of dimeric (alpha-beta dimer) inhibin by a two-site immunoradiometric assay. Heifers were slaughtered on Days 5.4 +/- 0.5 (growing phase) and 11.8 +/- 0.5 (regressing phase) of the estrous cycle, and mean diameter of the dominant follicles was similar in both phases (9.9 +/- 0.4 vs. 10.8 +/- 0.4 mm; p > 0.09). All morphologically dominant follicles collected during the growing phase (7/7) were histologically healthy and estrogen-active (E2:A ratio > 1), while those collected during the regressing phase (7/7) were histologically atretic and estrogen-inactive (E2:A ratio < 1; chi 2 = 14.0, p < 0.0001).(ABSTRACT TRUNCATED AT 250 WORDS)
Two experiments were conducted to explore the effectiveness of synthetic peptide-based vaccines for active and passive autoimmunization of sheep against inhibin. In the first experiment, adult Romney ewes (n = 20) were actively immunized against a synthetically produced peptide that corresponded to the N-terminus of the alpha-subunit of bovine inhibin (bI alpha(1-29)-Tyr30). This peptide was conjugated to tuberculin purified protein derivative (PPD) to increase its antigenic properties. Control groups comprised non-immunized (n = 10) and PPD-immunized (n = 10) ewes. Primary immunization (400 micrograms conjugate/ewe) was followed by two booster immunizations (200 micrograms conjugate/ewe), given 5 and 8 weeks later. Following synchronization of oestrus using progestagen sponges, ovulation rates were assessed by laparoscopy. Weekly blood samples were taken throughout the experiment. All inhibin-immunized ewes produced antibodies which bound 125I-labelled bovine inhibin (Mr 32,000), and ovulation rate in inhibin-immunized ewes (2.15 +/- 0.22; mean +/- S.E.M.) was significantly (P less than 0.01) greater than in both non-immunized (0.90 +/- 0.23) and PPD-immunized (1.20 +/- 0.13) control groups. Immunization against the peptide, but not against PPD alone, resulted in a modest rise in plasma FSH, with mean levels after the second boost being significantly (P less than 0.025) higher (22%) than those before immunization. Moreover, when blood samples were taken (2-h intervals) from randomly selected groups of control (n = 7) and inhibin-immunized (n = 7) ewes for an 84-h period following withdrawal of progestagen sponges, the mean plasma concentration of FSH during the 48 h immediately before the preovulatory LH surge was 37% greater (P less than 0.025) in immunized than in control animals. However, more frequent blood sampling (every 15 min for 12 h) during follicular and mid-luteal phases of the oestrous cycle revealed no significant differences between treatment groups in mean plasma concentrations of FSH. In addition, neither mean concentrations of LH nor the frequency and amplitude of LH episodes differed between immunized and control ewes. However, the mean response of LH to a 2 micrograms bolus of gonadotrophin-releasing hormone, given during the luteal phase, was significantly (P less than 0.05) less in immunized than in control ewes. These findings indicate that active immunization of Romney ewes against a synthetic fragment of inhibin can promote a controlled increase in ovulation rate, but this response cannot be unequivocally related to an increase in plasma levels of FSH.(ABSTRACT TRUNCATED AT 400 WORDS)
Chronically ovariectomized prepubertal heifers were used for a comparison of the effects of highly purified bovine inhibin (Mr 32,000) and steroid-free bovine follicular fluid (bFF) on the secretion of FSH and LH. In view of the limited availability of highly purified inhibin, an initial study was undertaken to establish the optimal method for administration of bFF inhibin activity. In comparison with the FSH response to a single large i.v. bolus injection of bFF (50 ml; 3250 mg protein), a far more effective suppression of plasma FSH concentrations was achieved when considerably less bFF (6.3 ml; 410 mg protein) was administered gradually over an extended time-period (2 days) either as a continuous i.v. infusion or as a series of 2-hourly i.v. injections. Following a single i.v. bolus injection of bFF, immunoreactive inhibin was cleared rapidly from the circulation (half-life 51 +/- 8 (S.E.M.) min, n = 5), presumably accounting for its limited ability to suppress FSH secretion when administered in this manner. In a second experiment, treatment of ovariectomized heifers (three per group) with highly purified Mr 32,000 bovine inhibin at a dose rate of 15 micrograms/2 h for 2 days significantly (P less than 0.05) suppressed plasma FSH concentrations, which reached their minimum values (40% suppression) during day 2 of treatment. At a lower dose rate (5 micrograms/2 h), inhibin did not significantly affect plasma FSH levels. Administration of bFF was also associated with a dose-dependent suppression of FSH secretion. For each of three dose rates tested (three heifers per group), plasma FSH concentrations were maximally suppressed during day 2 of treatment (65 mg/2 h, 86% suppression, P less than 0.001; 21.7 mg/2 h, 66% suppression, P less than 0.001; 7.2 mg/2 h, 15% suppression, P greater than 0.05). Neither highly purified inhibin nor bFF significantly affected mean plasma LH concentrations, LH pulse frequency or LH pulse amplitude. Thus we have shown for the first time that highly purified Mr 32,000 bovine inhibin does possess in-vivo biological activity in cattle, promoting a selective suppression of plasma FSH concentrations qualitatively similar to that evoked by steroid-free bFF.(ABSTRACT TRUNCATED AT 250 WORDS)
A two-site (liquid-phase) immunoradiometric assay (IRMA) for dimeric inhibin has been developed using antibodies raised against synthetic peptide sequences corresponding to the N-terminus (1-32) of the alpha subunit and the C-terminal region (82-114) of the beta A subunit of Mr approximately 30,000 human inhibin. Highly-purified Mr 32,000 bovine inhibin (standard) gave a dilution curve parallel to those for bovine follicular fluid (bFF), human (h)FF and rat ovary extract. Whilst the assay detected both Mr 56,000 and 32,000 inhibin forms in bFF, little reaction with higher Mr forms was evident. Cross-reaction of 'free' inhibin subunit (Mr 25,000 form) and recombinant human activin A in the IRMA were minimal (less than 0.1 and less than 2% respectively). Although the detection limit of the IRMA (approximately 50 pg/tube) was similar to that of several reported radioimmunoassays (RIA), the IRMA was unable to detect dimeric inhibin in jugular or utero-ovarian vein plasma of heifers. Similarly, when assayed by IRMA, bFF, hFF and rat ovary extract contained 8-58 times less inhibin than was indicated by RIA. These observations are consistent with earlier evidence that the ovary secretes a substantial excess of 'free' inhibin alpha subunit and that this material reaches the peripheral circulation. Surprisingly, however, the inhibin contents of bFF, hFF and rat ovary extract determined by in vitro bioassay were 8-23 times greater than the corresponding IRMA values, being similar to those derived by RIA.(ABSTRACT TRUNCATED AT 250 WORDS)
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