Cycle of the seminiferous epithelium in a marsupial species, the brushtail possum (Trichosurus vulpecula), and estimation of its duration
Minjie Lin A B E , Amanda Harman A and Terry P. Fletcher C DA Cooperative Research Centre for the Conservation and Management of Marsupials, School of Environmental and Life Sciences, The University of Newcastle, NSW 2308, Australia.
B Jiangxi Provincial Key Laboratory for Animal Biotechnology, Jiangxi Agricultural University, Nanchang, Jiangxi 330045, P. R. China.
C Cooperative Research Centre for the Conservation and Management of Marsupials, The Perth Zoo, South Perth, WA 6151, Australia.
D The Manaaki Whenua Landcare Research, Lincoln 8152, New Zealand.
E To whom correspondence should be addressed. email: minjie.lin@newcastle.edu.au
Reproduction, Fertility and Development 16(3) 307-313 https://doi.org/10.1071/RD02059
Submitted: 24 July 2002 Accepted: 19 February 2004 Published: 8 April 2004
Abstract
We investigated the cycle of the seminiferous epithelium in a marsupial, namely the brushtail possum (Trichosurus vulpecula), using semithin sections of seminiferous tubules embedded in Spurr’s resin. Using 14 steps of spermatid development as markers, we were able to class tubular cross-sections into 10 well-defined stages of the seminiferous epithelial cycle. The duration of one cycle was 13.5 days, as determined by injections of [3H]-thymidine and autoradiographic examination of the most advanced sperm cells at 2 h and 17 days after injection. The durations of stages I–X were 21.4, 66.4, 54.1, 47.0, 29.8, 28.5, 25.3, 25.0, 12.0 and 15.9 h, respectively, estimated by the relative percentage of occurrence of each stage. It was estimated that the life spans of the main germ cells were as follows: type B spermatogonia, 5.4 days; primary spermatocytes, 16.7 days; secondary spermatocytes, 0.7 days; and spermatids, 21.4 days. The results suggest that the kinetics of spermatogenesis in marsupials show a similar pattern to that in eutherians.
Extra keywords: spermatogenesis, thymidine labelling.
Acknowledgments
We are grateful to Dr David Kay and Professor John Rodger for their helpful comments on the manuscript. This work was supported by the Australian Government’s Cooperate Research Centres Program.
Benda, C. (1887). Untersuchungen über den Bau des funktionierenden Samendanälchens einiger Säugetiere und Folgerungen für die Spermatogenese dieser Wirbeltieklasse. Arch. Mikr. Anat. 30, 49–110.
Bilaspuri, G. S. , and Guraya, S. S. (1980). Quantitative studies on spermatogenesis in buffalo (Bubalus bubalis). Reprod. Nutr. Dev. 20, 975–982.
| PubMed |
Chowdhury, A. K. , and Steinberger, E. (1976). A study of germ cell morphology and duration of spermatogenic cycle in the baboon, Papio anubis. Anat. Rec. 185, 155–170.
| PubMed |
Clermont, Y. (1963). The cycle of seminiferous epithelium in man. Am. J. Anat. 112, 35–52.
| PubMed |
Clermont, Y. (1972). Kinetics of spermatogenesis in mammals: seminiferous epithelium cycle and spermatogonial renewal. Physiol. Rev. 52, 198–236.
| PubMed |
Clermont, Y. , and Antar, M. (1973). Duration of the cycle of the seminiferous epithelium and the spermatogonial renewal in the monkey Macaca arctoides. Am. J. Anat. 136, 153–166.
| PubMed |
Clermont, Y. , and Harvey, S. C. (1965). Duration of the cycle of the seminiferous epithelium of normal, hypophysectomized and hypophysectomized-hormone treated albino rats. Endocrinology 76, 80–89.
| PubMed |
Courot, M., Hochereau-de Reviers, M. T. and Ortavant, R. (1970). Spermatogenesis. In Vol. I. (Eds. A. D. Johnson, W. R. Gomes and N. L. Vandemark) pp. 339–432. (Academic Press: New York, USA.)
Curtis, G. M. (1918). The morphology of the mammalian seminiferous tubule. Am. J. Anat. 24, 339–394.
De Kretser, D. M. and Kerr, J. B. (1994). The cytology of the testis. In 2nd edn. (Eds. E. Knobil and J. D. O’Neill) pp. 1177–1290. (Raven Press: New York, USA.)
Dym, M. , and Clermont, Y. (1970). Role of spermatogonia in the repair of the seminiferous epithelium following irradiation of the rat testis. Am. J. Anat. 128, 265–282.
| PubMed |
Grocock, C. A. , and Clarke, J. R. (1976). Duration of spermatogenesis in the vole (Microtus agrestis) and band vole (Clethrionomys glareolus). J. Reprod. Fertil. 47, 133–135.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Guraya, S. S. (Ed.) (1987). Seminiferous epithelium. In (Ed S. S. Guraya) pp. 7–50. (Springer-Verlag: Berlin, Germany.)
Heller, C. G. , and Clermont, Y. (1964). Kinetics of the germinal epithelium in man. Rec. Prog. Horm. Res 20, 545–571.
| PubMed |
Hess, R. (1990). Quantitative and qualitative characteristics of the stages and transitions in the cycle of the rat seminiferous epithelium: light microscopic observations of perfusion-fixed and plastic-embedded testes. Biol. Reprod. 43, 525–542.
| PubMed |
Jolly, S. E. (1993). Carbon dioxide as an anaesthetic agent for use on the brushtail possum Trichosurus vulpecula in captivity. N.Z. J. Zool. 16, 67–68.
Kaipia, A. , Toppari, J. , Mali, P. , Kangasniemi, M. , Alcivar, A. A. , Hecht, N. B. , and Parvinen, M. (1990). Stage- and cell-specific expression of the ornithine decarboxylase gene during rat and mouse spermatogenesis. Mol. Cell. Endocrinol. 73, 45–52.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Leblond, C. P. , and Clermont, Y. (1952). Spermatogenesis of rat, mouse, hamster and guinea pig as revealed by the periodic acid–fuchsin sulfurous acid technique. Am. J. Anat. 90, 167–215.
| PubMed |
Lin, M. , and Jones, R. C. (1990). Spatial arrangement of the stages of the cycle of the seminiferous epithelium in the Japanese quail, Coturnix coturnix japonica. J. Reprod. Fertil. 90, 361–367.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Lin, M. , and Jones, R. C. (1992). Renewal and proliferation of spermatogonia during spermatogenesis in the Japanese quail, Corturnix corturnix japonica. Cell Tissue Res. 267, 591–601.
| PubMed |
Lin, M. , Jones, R. C. , and Blackshaw, A. W. (1990). The cycle of the seminiferous epithelium in the Japanese quail (Coturnix coturnix japonica). J. Reprod. Fertil. 88, 481–490.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Lin, M. , Harman, A. , and Rodger, J. C. (1997). Spermiogenesis and spermiation in a marsupial, the tammar wallaby (Macropus eugenii). J. Anat. 190, 377–395.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Ortavant, R. (1954). Etude des generations spermatogoniales chez le bélier. C. R. Séanc. Soc. Biol. 148, 1958–1961.
Perey, B. , Clermont, Y. , and Leblond, C. P. (1961). The wave of the seminiferous epithelium in the rat. Am. J. Anat. 108, 47–77.
Regaud, C. (1901). Études sur la structure des tubes séminifères et sur la spermatogénèse chez les mammifères. Arch. Anat. Microscop. Morphol. Exptl 4, 101–155.
Roosen-Runge, E. C. (1977). Vertebrata. In (Eds. M. Abercrombie, D. R. Newth and J. G. Torrey) pp. 102–135. (Cambridge University Press: Cambridge, UK.)
Roosen-Runge, E. C. (1977). Spermatogonia and kinetics of spermatogenesis. In (Eds. M. Abercrombie, D. R. Newth and J. G. Torrey) pp. 135–144. (Cambridge University Press: Cambridge, UK.)
Roosen-Runge, E. C. , and Giesel, L. O. (1950). Quantitative studies on spermatogenesis in the albino rat. Am. J. Anat. 87, 1–23.
| PubMed |
Setchell, B. P. (1982). Spermatogenesis and spermatozoa. In (Eds. C. R. Austin and R. V. Short) pp. 63–101. (Cambridge University Press: Cambridge, UK.)
Setchell, B. P. , and Carrick, F. N. (1973). Spermatogenesis in some Australian marsupials. Aust. J. Zool. 21, 491–499.
| PubMed |
Swierstra, E. E. (1968). Cytology and duration of the cycle of the seminiferous epithelium of the boar: duration of spermatozoan transit through the epididymis. Anat. Rec. 161, 171–185.
| PubMed |
Swierstra, E. E. , Gebauer, M. R. , and Pickett, B. W. (1974). Reproductive physiology of the stallion. I. Spermatogenesis and testis composition. J. Reprod. Fertil. 40, 113–123.
| PubMed |
Tyndale-Biscoe, H. and Renfree, M. (1987). Male anatomy and spermatogenesis. In (Eds. H. Tyndale-Biscoe and M. Renfree) pp. 124–171. (Cambridge University Press: Cambridge, UK.)
von Ebner, H. (1871). Untersuchunge über den bau de samekanälchen und die entwicklung der spermatozoiden bei den säugethieren ind beim menschen. Untersuch. Inst. Physiol. Histol. Graz. 2, 200–236.