Zhengwei Y, Wreford N G, Schlatt S, Weinbauer G F, Nieschlag E, McLachlan R I
Prince Henry's Institute of Medical Research, Monash Medical Centre, Melbourne, Australia.
J Reprod Fertil. 1998 Jan;112(1):139-47. doi: 10.1530/jrf.0.1120139.
This study examined the effect of GnRH-antagonist (GnRH-A)-induced gonadotrophin withdrawal on numbers of germ cells in adult cynomolgus monkeys and aimed to identify the site of the earliest spermatogenic lesion(s) produced. Animals received either GnRH-A (Cetrorelix; 450 micrograms kg-1 day-1 s.c.; n = 5) or vehicle (control, n = 4) for 25 days. One testis was removed on day 16 and the other testis on day 25. The optical disector stereological method was used to estimate germ and Sertoli cell numbers per testis. After GnRH-A treatment for 16 days, the number of type A spermatogonia was unchanged; however, type B spermatogonia (15% of control), preleptotene + leptotene + zygotene (15% control) and pachytene (55% control) spermatocytes were all reduced (P < 0.05). By day 25, these cells were further reduced together with step 1-6 spermatids (38% control; P < 0.05). More mature germ cells were unaffected. The proportion of type A pale spermatogonia at stages VII-XII was reduced (P < 0.05) in GnRH-A-treated groups (52% on day 16, 43% on day 25) compared with control (67%). After 25 days of GnRH-A treatment, the number of Sertoli cells was unaltered but nuclear volume was reduced (66% control, P < 0.05). Tubule length was unchanged but volume (50% control), diameter (62% control) and epithelial thickness (59% control) were reduced (P < 0.05). GnRH-A treatment suppressed serum testosterone concentrations into the castrate range, and testicular testosterone concentrations to 21-36% of control values. Serum inhibin (as an index of FSH action) was suppressed in GnRH-A-treated animals by day 16, declining to 38% of control concentrations at day 25. Therefore, the primary lesion produced by GnRH-A induced gonadotrophin withdrawal is the rapid and profound reduction in the number of type B spermatogonia. The time course of germ cell loss suggests the inhibition of type A pale spermatogonial mitosis as the primary mechanism. Later germ cell maturation, specifically meiosis and spermiogenesis, appears to proceed unaffected. The decline in late spermatocytes and spermatids by 25 days of GnRH-A treatment is attributed to a 'depletional wave' from the spermatogonial lesion. The fact that such marked spermatogenic disruption occurs in the face of substantial testicular testosterone concentrations implies a significant role for FSH in spermatogonial development.
本研究检测了促性腺激素释放激素拮抗剂(GnRH-A)诱导的促性腺激素撤退对成年食蟹猴生殖细胞数量的影响,旨在确定最早产生的生精损伤部位。动物连续25天接受GnRH-A(西曲瑞克;450微克/千克/天,皮下注射;n = 5)或赋形剂(对照组,n = 4)。在第16天切除一侧睾丸,第25天切除另一侧睾丸。采用光学分割体视学方法估计每个睾丸中的生殖细胞和支持细胞数量。GnRH-A治疗16天后,A型精原细胞数量未变;然而,B型精原细胞(对照组的15%)、前细线期+细线期+偶线期(对照组的15%)和粗线期(对照组的55%)精母细胞均减少(P < 0.05)。到第25天,这些细胞以及1-6步的精子细胞(对照组的38%;P < 0.05)进一步减少。更成熟的生殖细胞未受影响。与对照组(67%)相比,GnRH-A治疗组在VII-XII期A型淡染精原细胞的比例降低(P < 0.05)(第16天为52%,第25天为43%)。GnRH-A治疗25天后,支持细胞数量未变,但核体积减小(对照组的66%,P < 0.05)。曲细精管长度未变,但体积(对照组的50%)、直径(对照组的62%)和上皮厚度(对照组的59%)减小(P < 0.05)。GnRH-A治疗使血清睾酮浓度降至去势范围,并使睾丸睾酮浓度降至对照值的21-36%。在GnRH-A治疗的动物中,血清抑制素(作为FSH作用的指标)在第16天时被抑制,在第25天时降至对照浓度的38%。因此,GnRH-A诱导的促性腺激素撤退产生的主要损伤是B型精原细胞数量迅速且显著减少。生殖细胞丢失的时间进程表明,A型淡染精原细胞有丝分裂的抑制是主要机制。后期生殖细胞的成熟,特别是减数分裂和精子形成,似乎未受影响。GnRH-A治疗25天时晚期精母细胞和精子细胞的减少归因于精原细胞损伤导致的“耗竭波”。在睾丸睾酮浓度仍相当高的情况下发生如此明显的生精破坏,这一事实表明FSH在精原细胞发育中起重要作用。
