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Autoinhibition of GEF activity in Intersectin 1 is mediated by the short SH3-DH domain linker.


ABSTRACT: Intersectin 1L (ITSN1L) acts as a specific guanine nucleotide exchange factor (GEF) for the small guanine nucleotide binding protein Cdc42 via its C-terminal DH domain. Interestingly, constructs of ITSN1L that comprise additional domains, for instance the five SH3 domains amino-terminal of the DH domain, were shown to be inhibited in their exchange factor activity. Here, we investigate the inhibitory mechanism of ITSN1L in detail and identify a novel short amino acid motif which mediates autoinhibition. We found this motif to be located in the linker region between the SH3 domains and the DH domain, and we show that within this motif W1221 acts as key residue in establishing the inhibitory interaction. This assigns ITSN1L to a growing class of GEFs that are regulated by a short amino acid motif inhibiting GEF activity by an intramolecular interaction. Moreover, we quantify the interaction between the ITSN1L SH3 domains and the Cdc42 effector N-WASP using fluorescence anisotropy binding experiments. As the SH3 domains are not involved in autoinhibition, binding of N-WASP does not release inhibition of nucleotide exchange activity in kinetic experiments, in contrast to earlier observations.

SUBMITTER: Kintscher C 

PROVIDER: S-EPMC3005787 | biostudies-literature | 2010 Nov

REPOSITORIES: biostudies-literature

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Autoinhibition of GEF activity in Intersectin 1 is mediated by the short SH3-DH domain linker.

Kintscher Carsten C   Wuertenberger Silvia S   Eylenstein Roy R   Uhlendorf Theresia T   Groemping Yvonne Y  

Protein science : a publication of the Protein Society 20101101 11


Intersectin 1L (ITSN1L) acts as a specific guanine nucleotide exchange factor (GEF) for the small guanine nucleotide binding protein Cdc42 via its C-terminal DH domain. Interestingly, constructs of ITSN1L that comprise additional domains, for instance the five SH3 domains amino-terminal of the DH domain, were shown to be inhibited in their exchange factor activity. Here, we investigate the inhibitory mechanism of ITSN1L in detail and identify a novel short amino acid motif which mediates autoinh  ...[more]

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