Abstract
The role of FSH in spermatogenesis is unclear as testosterone alone has been reported to be sufficient in the gonadotropin-deficient rat. This study examined the effects of recombinant FSH on the restoration of spermatogenesis after gonadotropin withdrawal by GnRH immunization. Adult Sprague-Dawley rats received GnRH immunogen (100 micrograms, sc, every 4 weeks) to induce gonadotropin deficiency, with severe spermatogenic regression occurring by 12 weeks. Recombinant human FSH was then given (10 or 50 IU/kg, sc, daily) for 7, 14, and 21 days, with data from both dosages combined in the analyses. Testes were perfusion fixed, and germ cell numbers were quantified by the optical disector technique. After 7 days of FSH, testis weight significantly increased by 43% (P < 0.01), with no further increases at 14 and 21 days. GnRH immunization severely reduced germ cell numbers, which were then significantly (P < 0.05) restored in all cell types, except elongated spermatids, by 7 days of FSH; type A spermatogonia (45%-->61% of control), type B spermatogonia/preleptotene spermatocytes (46%-->65%), leptotene/zygotene spermatocytes (39%-->55%), pachytene spermatocytes in stages I-VIII (11%-->30% control) and IX-XIV (4.3%-->22% control), and round spermatids in stages I-VIII (1.4%-->4.4% control). Prolonged FSH treatment did not further increase type A spermatogonial or pachytene spermatocyte number, whereas round spermatids increased to a peak of 12.8% of the control value. At no stage did FSH increase elongated spermatid numbers above 1% of the control level. The incorporation of bromode-oxyuridine into spermatogonial and early spermatocyte nuclei did not change after GnRH immunization or FSH treatment. Sertoli cell number was not altered by any treatment; however, Sertoli cell nuclear volume was significantly decreased from the control value by GnRH immunization (142 +/- 9 vs. 455 +/- 22 microns 3; P < 0.01) and increased after 7 and 14 days of FSH treatment to 212 +/- 10 and 259 +/- 24 microns 3, respectively. FSH treatment restored serum inhibin levels to normal, but did not increase serum or testicular androgen levels. We conclude that recombinant FSH partially restores spermatogenesis in the gonadotropin-deficient rat by increasing the number of spermatogonia and promoting subsequent maturational steps up to the round spermatid stage. Spermatid elongation was not restored by FSH, indicating the need for an additional factor(s), most likely testosterone.
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