Spermiogenesis and DNA Repair: a Possible Etiology of Human Infertility and Genetic Disorders

Overview

Journal Syst Biol Reprod Med

Publisher Informa Healthcare

Specialties Biology
Reproductive Medicine

Date 2008 Jun 12

PMID 18543861

Citations 32

Authors

Frederic Leduc

Genevieve Bikond Nkoma

Guylain Boissonneault

Affiliations

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Abstract

This paper reviews the possible origin of sperm DNA fragmentation and focuses on the nuclear events associated with spermiogenesis as a potential source of genetic instability and reduced fertilizing potential of the mature male gamete. Recent findings suggest a programmed DNA fragmentation and DNA damage response during the chromatin remodeling steps in spermatids. We also discuss the spermatid DNA repair mechanisms and the possible involvement of condensing proteins, such as transition proteins and protamines, in the process, as this DNA fragmentation is normally not found in late spermatids. We propose that alterations in the chromatin remodeling steps or DNA repair in elongating spermatids may lead to persistent DNA breaks. This vulnerable step of spermiogenesis may provide a clue to the etiology of sperm DNA fragmentation associated with infertility in humans. This vulnerability is further emphasized given the haploid character of spermatids that must resolve programmed double-stranded breaks by an error-prone DNA repair mechanism. Therefore, spermiogenesis has probably been overlooked as an important source of genetic instability.

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