The tumour-suppressor protein ASPP1 is nuclear in human germ cells and can modulate ratios of CD44 exon V5 spliced isoforms in vivo.

The ASPP1 (Apoptosis Stimulating Protein of p53) protein is an important tumour-suppressor. We have detected a novel protein interaction between the human ASPP1 (hASPP1) protein and the predominantly nuclear adaptor protein SAM68. In the human testis, full-length endogenous hASPP1 protein is located in the nucleus like SAM68, predominantly within meiotic and postmeiotic cells. Mouse ASPP1 (mASPP1) protein is mainly expressed in the brain and testis. The interaction with nuclear SAM68 is likely to be restricted to human germ cells, since endogenous mASPP1 protein is exclusively cytoplasmic. The C-terminal region of hASPP1 efficiently targeted a fused GFP molecule to the nucleus, whereas the N-terminus of hASPP1 targeted GFP to the cytoplasm. In the context of the full-length molecule this cytoplasmic targeting sequence is dominant in HEK293 and Saos-2 cells, since full-length hASPP1-GFP is almost exclusively cytoplasmic. Despite its predominantly cytoplasmic location, we show that ASPP1-GFP expression in HEK293 cells can regulate the ratio of alternative spliced isoforms derived from a pre-mRNA regulated downstream of cytoplasmic signalling pathways, and our data suggest that ASPP1 may operate in this case downstream or parallel to RAS signalling pathways

A Y-encoded subunit of the translation initiation factor Eif2 is essential for mouse spermatogenesis.

In mouse and man, deletions of specific regions of the Y chromosome have been linked to early failure of spermatogenesis and consequent sterility; the Y chromosomal gene(s) with this essential early role in spermatogenesis have not been identified. The partial deletion of the mouse Y short arm (the Sxrb deletion) that occurred when Tp(Y)1CtSxr-b (hereafter Sxrb) arose from Tp(Y)1CTSxr-b (hereafter Sxra) defines Spy, a Y chromosomal factor essential for normal spermatogonial proliferation. Molecular analysis has identified six genes that lie within the deletion: Ube1y1 (refs. 4,5), Smcy, Uty, Usp9y (also known as Dffry), Eif2s3y (also known as Eif-2gammay) and Dby10; all have closely similar X-encoded homologs. Of the Y-encoded genes, Ube1y1 and Dby have been considered strong candidates for mouse Spy function, whereas Smcy has been effectively ruled out as a candidate. There is no Ube1y1 homolog in man, and DBY, either alone or in conjunction with USP9Y, is the favored candidate for an early spermatogenic role. Here we show that introduction of Ube1y1 and Dby as transgenes into Sxrb-deletion mice fails to overcome the spermatogenic block. However, the introduction of Eif2s3y restores normal spermatogonial proliferation and progression through meiotic prophase. Therefore, Eif2s3y, which encodes a subunit of the eukaryotic translation initiation factor Eif2, is Spy