Promiscuous Binding Nature of Sh3 Domains to their Target Proteins

Agrawal, Vishal; Kishan, K. V. Radha

doi:10.2174/0929866023408760

Cited by 37 publications

(33 citation statements)

References 2 publications

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“…Several protein domains have been described in both eukaryotic and prokaryotic systems that are involved in protein-protein interactions in these complexes (Pawson et al, 2002;Ponting, 1997;Sheng & Sala, 2001;Agrawal & Kishan, 2002).…”

Section: Discussionmentioning

confidence: 99%

VimA is part of the maturation pathway for the major gingipains of Porphyromonas gingivalis W83

et al. 2006

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The authors have shown previously that the vimA gene, which is part of the bcp-recA-vimA operon, plays an important role in protease activation in Porphyromonas gingivalis. The gingipain RgpB proenzyme is secreted in the vimA-defective mutant P. gingivalis FLL92. An important question that is raised is whether the vimA gene product could directly interact with the proteases for their activation or regulate a pathway responsible for protease activation. To further study the mechanism(s) of VimA-dependent protease activation, the vimA gene product was further characterized. A 39 kDa protein consistent with the size of the predicted VimA protein was purified. In protein–protein interaction studies, the VimA protein was shown to interact with gingipains RgpA, RgpB and Kgp. Immune sera from mice immunized with P. gingivalis immunoreacted with the purified VimA protein. Taken together, these data suggest an interaction of VimA with the gingipains and further confirm the role of this protein in their regulation or maturation.

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Section: Discussionmentioning

confidence: 99%

VimA is part of the maturation pathway for the major gingipains of Porphyromonas gingivalis W83

et al. 2006

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“…If all family members do function as RasGAP effectors in vivo they may mediate similar, opposing or completely different effects. SH3 domains are relatively promiscuous and subtle differences in the domains and their ligands can alter binding specificity (Agrawal and Kishan, 2002). The contextual differences between the PxxP motifs in the G3BPs could therefore be functionally relevant.…”

Section: G3bps Interact With Rasgapmentioning

confidence: 99%

“…In vitro binding assays with G3BP1 and G3BP2 suggested that the NTF2-like domain of these proteins was responsible for RasGAP binding (Kennedy et al, 2001). It is rare, but not unprecedented, for non-proline motifs to bind SH3 domains (Agrawal and Kishan, 2002).…”

Section: Introductionmentioning

confidence: 99%

Rasputin, more promiscuous than ever: a review of G3BP

Irvine¹,

Stirling²,

Hume³

et al. 2004

Int. J. Dev. Biol.

140

138

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“…SH3 domains often bind peptides with modest affinities (5-100 M (5)), and many SH3 domains appear to possess low specificity, binding to various PXXP-containing peptides with similar affinities (6 -10). These observations have led to the establishment of a "promiscuous model," which postulates that the signaling specificity of pathways depends primarily on factors other than the intrinsic binding properties of isolated SH3 domains (11), and that short peptide targets are likely sufficient for SH3 domain function. Arguing against this model, it has been shown that some SH3 domains require an extended target peptide (12-30 residues) to achieve maximal binding affinity (12)(13)(14)(15).…”

mentioning

confidence: 99%

Structural, Functional, and Bioinformatic Studies Demonstrate the Crucial Role of an Extended Peptide Binding Site for the SH3 Domain of Yeast Abp1p

Stollar

Garcı́a

Chong

et al. 2009

Journal of Biological Chemistry

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SH3 domains, which are among the most frequently occurring protein interaction modules in nature, bind to peptide targets ranging in length from 7 to more than 25 residues. Although the bulk of studies on the peptide binding properties of SH3 domains have focused on interactions with relatively short peptides (less than 10 residues), a number of domains have been recently shown to require much longer sequences for optimal binding affinity. To gain greater insight into the binding mechanism and biological importance of interactions between an SH3 domain and extended peptide sequences, we have investigated interactions of the yeast Abp1p SH3 domain (AbpSH3) with several physiologically relevant 17-residue target peptide sequences. To obtain a molecular model for AbpSH3 interactions, we solved the structure of the AbpSH3 bound to a target peptide from the yeast actin patch kinase, Ark1p. Peptide target complexes from binding partners Scp1p and Sjl2p were also characterized, revealing that the AbpSH3 uses a common extended interface for interaction with these peptides, despite K d values for these peptides ranging from 0.3 to 6 M. Mutagenesis studies demonstrated that residues across the whole 17-residue binding site are important both for maximal in vitro binding affinity and for in vivo function. Sequence conservation analysis revealed that both the AbpSH3 and its extended target sequences are highly conserved across diverse fungal species as well as higher eukaryotes. Our data imply that the AbpSH3 must bind extended target sites to function efficiently inside the cell.Many protein interactions within signaling pathways are mediated by small modular domains, which are found within larger proteins (1). SH3 domains are one of the most frequently occurring of these protein-protein interaction modules in eukaryotic cells. These domains are ϳ60-residue ␤-sheet proteins that have been generally observed to bind to short proline-rich peptides containing the core consensus sequences ϩXXPXXP (class I) or PXXPXϩ (class II), where X can be a variety of residues, and ϩ is a Lys or Arg residue (2-4). SH3 domains often bind peptides with modest affinities (5-100 M (5)), and many SH3 domains appear to possess low specificity, binding to various PXXP-containing peptides with similar affinities (6 -10). These observations have led to the establishment of a "promiscuous model," which postulates that the signaling specificity of pathways depends primarily on factors other than the intrinsic binding properties of isolated SH3 domains (11), and that short peptide targets are likely sufficient for SH3 domain function. Arguing against this model, it has been shown that some SH3 domains require an extended target peptide (12-30 residues) to achieve maximal binding affinity (12-15). These results imply that the intrinsic specificity of SH3 domains may indeed play a significant role. The growing realization of the importance of interactions between SH3 domains and extended peptides provides the motivation for further studies to investigat...

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Promiscuous Binding Nature of Sh3 Domains to their Target Proteins

Cited by 37 publications

References 2 publications

VimA is part of the maturation pathway for the major gingipains of Porphyromonas gingivalis W83

VimA is part of the maturation pathway for the major gingipains of Porphyromonas gingivalis W83

Rasputin, more promiscuous than ever: a review of G3BP

Structural, Functional, and Bioinformatic Studies Demonstrate the Crucial Role of an Extended Peptide Binding Site for the SH3 Domain of Yeast Abp1p

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