Abstract
Akt/protein kinase B is a major cell survival pathway through phosphorylation of proapoptotic proteins Bad and Bax and of additional apoptotic pathways linked to Forkhead proteins glycogen synthase kinase-3beta and ASK1. To further explore the mechanism by which Akt regulates cell survival, we identified an Akt interaction protein by yeast two-hybrid screening. It is highly homologous to ARG-binding protein 2 (ArgBP2) with splicing exon 8 of the coding region of the ArgBP2. As two splicing isoforms (ArgBP2alpha and -beta) of ArgBP2 have been identified (Wang, B., Golemis, E. A., and Kruh, G. D. (1997) J. Biol. Chem. 272, 17542-17550), it was named ArgBP2gamma. ArgBP2gamma contains four Akt phosphorylation consensus sites, a SoHo motif, and three Src homology (SH) 3 domains and binds to C-terminal proline-rich motifs of Akt through its first and second SH3 domains. It also interacts with p21-activated protein kinase (PAK1) via its first and third SH3 domains, indicating the SH3 domains of ArgBP2gamma as docking sites for Akt and PAK1. Akt phosphorylates ArgBP2gamma in vitro and in vivo. Expression of ArgBP2gamma induces PAK1 activity and overrides apoptosis induced by ectopic expression of Bad or DNA damage. Nonphosphorylatable ArgBP2gamma-4A and SH3 domain-truncated mutant ArgBP2gamma inhibit Akt-induced PAK1 activation and reduce Akt and PAK1 phosphorylation of Bad and antiapoptotic function. These data indicate that ArgBP2gamma is a physiological substrate of Akt, functions as an adaptor for Akt and PAK1, and plays a role in Akt/PAK1 cell survival pathway.
Highlights
Akt/protein kinase B is a major cell survival pathway dependent manner (8 –13)
SoHr 3DdNoAmdaainm-raterguuen.scNeaotonefpdhimmousaptaghneotrsAydlragotBaebPsl2en␥AoinrtghaBibfPfi2te␥Ac-k4tAtt-heminoamvkeeamaravmlelarlycso,stwnroocnrlmgucssa,isoaennfdosrfoltihefset.shePiphsrooswtpehoinorrskybl.aeitniogndoirfeFctotrakrhgeeatds induced PAK1 activation and reduce Akt and PAK1 phosphorylation of Bad and antiapoptotic function. These data indicate that ARG-binding protein 2 (ArgBP2)␥ is a physiological substrate of Akt, functions as an adaptor for Akt and PAK1, and plays a role in Akt/PAK1 cell survival pathway
We identified an Akt interaction protein, ArgBP2␥, that functions as an adaptor protein that binds to Akt and PAK1
Summary
SoHr 3DdNoAmdaainm-raterguuen.scNeaotonefpdhimmousaptaghneotrsAydlragotBaebPsl2en␥AoinrtghaBibfPfi2te␥Ac-k4tAtt-heminoamvkeeamaravmlelarlycso,stwnroocnrlmgucssa,isoaennfdosrfoltihefset.shePiphsrooswtpehoinorrskybl.aeitniogndoirfeFctotrakrhgeeatds induced PAK1 activation and reduce Akt and PAK1 phosphorylation of Bad and antiapoptotic function. These data indicate that ArgBP2␥ is a physiological substrate of Akt, functions as an adaptor for Akt and PAK1, and plays a role in Akt/PAK1 cell survival pathway. In addition to acting as a kinase toward many substrates involved in its function, Akt forms complexes with other proteins that are not substrates but rather act as modulators of Akt activity and function. Several such Akt interaction proteins have been identified, including TCL1, CTMP, APPL, and TRB3. ArgBP2␥ activates PAK1 by direct interaction with PAK1 and mediates Akt-induced PAK1 activation and Akt/PAK1 phosphorylation of Bad
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