Testicular changes during infantile 'quiescence' in the marmoset and their gonadotrophin dependence: a model for investigating susceptibility of the prepubertal human testis to cancer therapy?

doi:10.1093/humrep/17.5.1367

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Human Reproduction, Vol. 17, No. 5, 1367-1378, May 2002
© 2002 European Society of Human Reproduction and Embryology

Testicular changes during infantile ‘quiescence’ in the marmoset and their gonadotrophin dependence: a model for investigating susceptibility of the prepubertal human testis to cancer therapy?

C.J.H. Kelnar², C. McKinnell¹, M. Walker¹, K.D. Morris¹, W.H.B. Wallace², P.T.K. Saunders¹, H.M. Fraser¹ and R.M. Sharpe¹^,3

¹ MRC Human Reproductive Sciences Unit, Centre for Reproductive Biology, 37 Chalmers Street, Edinburgh EH3 9ET and ² Section of Child Life and Health, Department of Reproductive and Developmental Sciences, University of Edinburgh, Edinburgh EH9 1UW, UK

BACKGROUND: Inexplicably, boys treated with some therapies forcancer at age 2–10 years, a time of supposed `testicularquiescence', are at risk of low sperm counts/infertility inadulthood. Our aims were to use the marmoset as a surrogatefor man to establish testicular cell function/activity during`quiescence' between the neonatal period and puberty, and totest if any cell activity could be suppressed by prior treatmentwith a GnRH antagonist. METHODS AND RESULTS: Based on immunoexpressionstudies, functional development of Sertoli cells (SGP-2, androgenreceptor) and Leydig cells (3ß-hydroxysteroid dehydrogenase)was detectable at an age (35 weeks) when the testis is consideredto be quiescent, and in advance of the pubertal rise in bloodtestosterone levels (50–60 weeks). Other changes at 35weeks were the appearance of focal seminiferous tubule lumensand proliferating germ cells [indicated by immunoexpressionof proliferating cell nuclear antigen (PCNA)]. Treatment from25 to 35 weeks with GnRH antagonist largely (>85%) preventedthese changes. However, the PCNA-labelling index of spermatogoniain GnRH antagonist-treated animals did not differ from controls(41.3 versus 43.6%) though total spermatogonia volume per testiswas reduced by 41%. Some protein markers (inhibin- ${alpha}$ , estrogenreceptor-ß) showed little change with age or treatment.Beyond 35 weeks, GnRH antagonist-treated animals showed a delayin the pubertal rise in plasma testosterone levels. CONCLUSIONS:These findings reinforce the view that the `childhood' testisis not quiescent. This may explain the damaging effects of somecancer therapies on subsequent fertility of boys and raisesthe issue of protective intervention. The present studies suggestthat GnRH antagonist-based intervention might be only partiallysuccessful. Identification of the factors regulating spermatogonialdevelopment in the infant marmoset may aid in the design ofsuch strategies.

Key words: germ cells/GnRH antagonist/Leydig cell/Sertoli cell/spermatogonia

³ To whom correspondence should be addressed. E-mail: r.sharpe{at}hrsu.mrc.ac.uk

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