Mol Endocrinol 1998 Aug 01;128:1086-98.

A novel insulin receptor substrate protein, xIRS-u, potentiates insulin signaling: functional importance of its pleckstrin homology domain.

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A novel Xenopus insulin receptor substrate cDNA was isolated by hybridization screening using the rat insulin receptor substrate-1 (IRS-1) cDNA as a probe. The xIRS-u cDNA encodes an open reading frame of 1003 amino acids including a putative amino-terminal pleckstrin homology (PH) domain and phosphotyrosine-binding (PTB) domain. The carboxy terminus of xIRS-u contains several potential Src homology 2 (SH2)-binding sites, five of which are in the context of YM/LXM (presumptive binding sites for phosphatidylinositol 3-kinase). It also contains a putative binding site for Grb2 (YINID). Pair-wise amino acid sequence comparisons with the previously identified xIRS-1 and the four members of the mammalian IRS family (1 through 4) indicated that xIRS-u has similar overall sequence homology (33-45% identity) to all mammalian IRS proteins. In contrast, the previously isolated xIRS-1 is particularly similar (67% identical) to IRS-1 and considerably less similar (31-46%) to the other IRS family members (2 through 4). xIRS-u is also distinct from xIRS-1, having an overall sequence identity of 47%. These sequence analyses suggest that xIRS-u is a novel member of the IRS family rather than a Xenopus homolog of an existing member. Microinjection of mRNA encoding a Myc-tagged xIRS-u into Xenopus oocytes resulted in the expression of a 120-kDa protein (including 5 copies of the 13-amino acid Myc tag). The injection of xIRS-u mRNA accelerated insulin-induced MAP kinase activation with a concomitant acceleration of insulin-induced oocyte maturation. An aminoterminal deletion of the PH domain (xIRS-u deltaPH) significantly reduced the ability of xIRS-u to potentiate insulin signaling. In contrast to the full-length protein, injection of xIRS-u (1-299), which encoded the PH and PTB domain, or xIRS-u (1-170), which encoded only the PH domain, blocked insulin signaling in Xenopus oocytes. Finally, xIRS-u (119-299), which had a truncated PH domain and an intact PTB domain, had no effect on insulin signaling. This is the first report that the PH domain of an IRS protein can function in a dominant negative manner to inhibit insulin signaling.

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Species referenced: Xenopus laevis
Genes referenced: grb2 ins insr irs1 mapk1 myc ptbp1