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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

246. Developmental switches in male sex determination and spermiogenesis; importin-chromatin remodeling factor interaction

D. A. Jans A C , J. Ly-Huynh A C , G. Kaur A C , A. Efthymiadis A C and K. L. Loveland B C
+ Author Affiliations
- Author Affiliations

A DBMB, Monash Uni, Monash, Vic., Australia.

B MIMR, Monash Uni, Clayton, Vic., Australia.

C ARC Centre of Excellence for Biotechnology & Development, Australia.

Reproduction, Fertility and Development 20(9) 46-46 https://doi.org/10.1071/SRB08Abs246
Published: 28 August 2008

Abstract

Spermatogenesis, the complex process of generating haploid sperm capable of fertilising the female gamete, requires precisely scheduled transport into the nucleus of transcription factors and chromatin remodelling factors to implement changes in nuclear gene expression, as well as genome compaction during sperm formation (spermiogenesis). This transport is mediated by members of the importin (IMP) superfamily, which display distinct expression patterns in the rodent testis, consistent with the idea that they may carry specific cargo(es) at discrete stages of testis development. A key cargo during fetal testis development is the sex determining chromatin remodelling factor SRY, whose role in the nucleus in modulating the expression of male-specific genes such as SOX9 is critically dependent on the efficiency of its nuclear import by the specific transporter IMPbeta1; specific mutations in SRY that reduce binding by IMPbeta1 result in XY female Swyer syndrome individuals. A second cargo of significance is Cdyl (Chromodomain Y chromosome-like), involved in the histone H4 hyperacetylation which precedes the replacement of histones with protamines during spermiogenesis. We recently identified IMPalpha2, together with IMPbeta1, as Cdyl’s specific nuclear transporter. Using site-directed mutagenesis to perturb Cdyl recognition by IMPalpha2, IMP/Cdyl cotransfection approaches and quantitative confocal laser miscroscopic analysis, we established that the efficiency of Cdyl nuclear import is critical to its function in facilitating histone H4 acetylation, supporting the idea that one of the specific roles of IMPalpha2 is to localise Cdyl in the nucleus of elongating spermatids. Our findings are consistent with precisely scheduled, efficient IMP-mediated nuclear import of key chromatin remodelling factors being critical to testis development, reflecting an emerging paradigm for developmental processes in general.