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Sperm head binding to epithelium of the oviduct isthmus is not an essential preliminary to mammalian fertilization - review

  • R. H. F. Hunter (a1)
Summary

In endeavouring to understand the nature of sperm–oviduct interactions in mammals, attention was focused on experimental models in which fertilization can occur without a preliminary phase of sperm head binding to the isthmus epithelium. The ovarian endocrine milieu imposed on the oviduct tissues plays an important role in the binding phenomenon, although less so after the time of ovulation. Nonetheless, a sperm suspension introduced into the peritoneal cavity or surgical insemination directly into the oviduct ampulla before ovulation can result in fertilization, as can a surgical model in which the isthmus has been resected and the remaining portions of the duct reanastomosed. Mating or artificial insemination after ovulation in pigs permits rapid sperm transport to the site of fertilization, and the frequency of polyspermic penetration increases with the post-ovulatory age of eggs.

Strategies underlying sperm binding were considered, especially in terms of preovulatory sperm storage and suppression of full membranous maturation. These, in turn, raised the problem of how sperm binding in vitro to oviduct cells from prepuberal animals or to cells harvested during the luteal phase of the estrous cycle, or to cells from the ampulla or even the tracheal epithelium, can act to regulate sperm storage and maturation with precision. In an evolutionary perspective, preovulatory binding of diverse populations of cells to the endosalpinx may have developed as a form of fine tuning to assist in sperm selection, to synchronize completion of capacitation with the events of ovulation, and to promote monospermic fertilization by a controlled release of competent gametes.

Copyright
COPYRIGHT: © Cambridge University Press 2010
Corresponding author
All correspondence to: R.H.F. Hunter. Institute for Reproductive Medicine, Hannover Veterinary University, Bünteweg 15, D-30559 Hannover, Germany. Tel: +49 0511 953 8519. Fax: +49 0511 953 8504. e-mail: frances521@btinternet.com
References
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Adams, C.E. (1969). Intraperitoneal insemination in the rabbit. J. Reprod. Fert. 18, 333–9.
Beatty, R.A. (1957). Parthenogenesis and Polyploidy in Mammalian Development. Cambridge University Press, Cambridge, UK.
Bedford, J.M. (1982). Fertilisation. In Reproduction in Mammals, Book 1 (eds. Austin, C.R. & Short, R.V.) pp. 128–63. Cambridge: Cambridge University Press.
Bedford, J.M. (1983). Significance of the need for sperm capacitation before fertilisation in eutherian mammals. Biol. Reprod. 28, 108–20.
Bomsel-Helmreich, O. (1965). Heteroploidy and embryonic death. In Preimplantation Stages of Pregnancy. Ciba Foundation Symposium (eds. Wolstenholme, G.E.W. & O'Connor, M.), pp. 246–67. London: Churchill.
Chang, M.C. (1951). Fertilising capacity of spermatozoa deposited into the Fallopian tubes. Nature (London) 168, 697–8.
Corner, G.W. (1923). Cyclic variation in uterine and tubal contraction waves. Amer. J. Anat. 32, 345–51.
Fazeli, A., Duncan, A.E., Watson, P.F., Holt, W.V. (1999). Sperm–oviduct interaction: induction of capacitation and preferential binding of uncapacitated spermatozoa to oviductal cells in porcine species. Biol. Reprod. 60, 879–86.
Gervasi, M.G., Rapanelli, M., Ribeiro, M.L., Farina, M., Billi, S., Franchi, A.M. & Martinez, S.P. (2009). The endocannabinoid system in bull sperm and bovine oviductal epithelium: role of anandamide in sperm–oviduct interaction. Reproduction 137, 403–14.
Green, C.E., Bredl, J., Holt, W.V., Watson, P.F., Fazeli, A. (2001). Carbohydrate mediation of boar sperm binding to oviductal epithelial cells in vitro. Reproduction 122, 305–15.
Gualtieri, R. & Talevi, R. (2003). Selection of highly fertilisation-competent bovine spermatozoa through adhesion to the Fallopian tube epithelium in vitro. Reproduction 125, 251–8.
Gualtieri, R., Boni, R., Tosti, E., Zagami, M. & Talevi, R. (2005). Intracellular calcium and protein tyrosine phosphorylation during the release of bovine sperm adhering to the Fallopian tube epithelium in vitro. Reproduction 129, 5160.
Gualtieri, R., Mollo, V., Duma, G. & Talevi, R. (2009). Redex control of surface protein sulphydrils in bovine spermatozoa reversibly modulates sperm adhesion to the oviductal epithelium and capacitation. Reproduction 138, 3343.
Hadek, R. (1958). Intraperitoneal insemination of rabbit doe. Proc. Soc. Exp. Biol. Med. 99, 3940.
Hunter, R.H.F. (1967). The effects of delayed insemination on fertilisation and early cleavage in the pig. J. Reprod. Fert. 13, 133–47.
Hunter, R.H.F. (1972). Local action of progesterone leading to polyspermic fertilisation in pigs. J. Reprod. Fert. 31, 433–44.
Hunter, R.H.F. (1978). Intraperitoneal insemination, sperm transport and capacitation in the pig. Anim. Reprod. Sci. 1, 167–79.
Hunter, R.H.F. (1984). Pre-ovulatory arrest and peri-ovulatory redistribution of competent spermatozoa in the isthmus of the pig oviduct. J. Reprod. Fert. 72, 203–11.
Hunter, R.H.F. (1993). Sperm:egg ratios and putative molecular signals to modulate gamete interactions in polytocous mammals. Mol. Reprod. Develop. 35, 324–7.
Hunter, R.H.F. (1995). Ovarian endocrine control of sperm progression in the Fallopian tubes. Oxford Rev. Reprod. Biol. 17, 85125.
Hunter, R.H.F. (1996). Ovarian control of very low sperm:egg ratios of the commencement of mammalian fertilisation to avoid polyspermy. Mol. Reprod. Develop. 44, 417–22.
Hunter, R.H.F. (1997). Sperm dynamics in the female genital tract: interactions with Fallopian tube microenvironments. In Microscopy of Reproduction and Development: A Dynamic Approach (ed. Motta, P.M.) pp. 3545. Rome: Antonio Delfino Editore.
Hunter, R.H.F. (2003). Reflections upon sperm-endosalpingeal and sperm-zona pellucida interactions in vivo and in vitro. Reprod. Domestic Anim. 38, 147–54.
Hunter, R.H.F. (2008). Sperm release from oviduct epithelial binding is controlled hormonally by peri-ovulatory Graafian follicles. Mol. Reprod. Develop. 75, 167–74.
Hunter, R.H.F. & Dziuk, P.J. (1968). Sperm penetration of pig eggs in relation to the timing of ovulation and insemination. J. Reprod. Fert. 15, 199208.
Hunter, R.H.F. & Léglise, P.C. (1971a). Polyspermic fertilisation following tubal surgery in pigs, with particular reference to the rôle of the isthmus. J. Reprod. Fert. 24, 233–46.
Hunter, R.H.F. & Léglise, P.C. (1971b). Tubal surgery in the rabbit: fertilisation and polyspermy after resection of the isthmus. Amer. J. Anat. 132, 4552.
Hunter, R.H.F. & Nichol, R. (1983). Transport of spermatozoa in the sheep oviduct: preovulatory sequestering of cells in the caudal isthmus. J. exp. Zool. 228, 121–8.
Hunter, R.H.F. & Nichol, R. (1986). Post-ovulatory progression of viable spermatozoa in the sheep oviduct and the influence of multiple mating on their pre-ovulatory distribution. Brit. Vet. J. 142, 52–8.
Hunter, R.H.F. & Rodriguez-Martinez, H. (2002). Analysing mammalian fertilisation: reservations and potential pitfalls with an in vitro approach. Zygote 10, 11–5.
Hunter, R.H.F., Huang, W.T. & Holtz, W. (1998). Regional influences of the Fallopian tubes on the rate of boar sperm capacitation in surgically inseminated gilts. J. Reprod. Fert. 114, 1723.
Mattner, P.E. (1963). Capacitation of ram spermatozoa and penetration of the ovine egg. Nature (London) 199, 772–3.
Rowlands, I.W. (1958). Insemination by intraperitoneal injection. Proc. Soc. Stud. Fertil. 10, 150–7.
Seckinger, D.L. (1923). Spontaneous contractions of the Fallopian tube of the domestic pig with reference to the oestrous cycle. Bull. Johns Hopkins Hosp. 34, 236–9.
Thibault, C. (1967). Analyse comparée de la fécondation et de ses anomalies chez la brebis, la vache et la lapine. Ann. Biol. Anim. Bioch. Biophys. 7, 523.
Wassarman, P.M. (1987). Early events in mammalian fertilisation. Ann. Rev. Cell. Biol. 3, 109–42.
Wassarman, P.M. (1988). Zona pellucida glycoproteins. Ann. Rev. Biochem. 57, 415–42.
Wislocki, G.B. & Guttmacher, A.F. (1924). Spontaneous peristalsis of the excised whole uterus and Fallopian tubes of the sow with reference to the ovulation cycle. Bull. Johns Hopkins Hosp. 35, 246–52.
Yanagimachi, R. (1994). Mammalian fertilisation. In The Physiology of Reproduction, 2nd edn, (eds. Knobil, E. & Neill, J.), pp. 189317. New York: Raven Press.
Yaniz, J.L., Lopez-Bejar, M., Santolaria, P., Rutlant, J. & Lopez-Gatius, F. (2002). Intraperitoneal insemination in mammals: a review. Reprod. Dom. Anim. 37, 7580.
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Zygote
  • ISSN: 0967-1994
  • EISSN: 1469-8730
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