Domain cooperativity in multidomain proteins: what can we learn from molecular alignment in anisotropic media?

The phosphorylation of interdomain A (IA), a linker region between tandem SH2 domains of Syk tyrosine kinase, regulates the binding affinity for association of Syk with doubly-phosphorylated ITAM regions of the B cell receptor. The mechanism of this allosteric regulation has been suggested to be a switch from the high-affinity bifunctional binding, mediated through both SH2 domains binding two phosphotyrosine residues of ITAM, to a substantially lower-affinity binding of only one SH2 domain. IA phosphorylation triggers the switch by inducing disorder in IA and weakening the SH2-SH2 interaction. The postulated switch to a single-SH2-domain binding mode is examined using NMR to monitor site-specific binding to each SH2 domain of Syk variants engineered to have IA regions that differ in conformational flexibility. The combined analysis of titration curves and NMR line-shapes provides sufficient information to determine the energetics of inter-molecular binding at each SH2 site along with an intra-molecular binding or isomerization step. A less favorable isomerization equilibrium associated with the changes in the SH2-SH2 conformational ensemble and IA flexibility accounts for the inhibition of Syk association with membrane ITAM regions when IA is phosphorylated, and refutes the proposed switch to single-SH2-domain binding. Syk localizes in the cell through its SH2 interactions, and this basis for allosteric regulation of ITAM association proposes for the first time a phosphorylation-dependent model to regulate Syk binding to alternate receptors and other signaling proteins that differ either in the number of residues separating ITAM phosphotyrosines or by having only one phosphotyrosine, a half ITAM.

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“…The (GGS) 3 GS(GGS) 3 linker of tSH2 FX was shown to be flexible and enables independent rotation of the connected globular domains. 28 …”

Section: Resultsmentioning

confidence: 99%

Insights into the allosteric regulation of Syk association with receptor ITAM, a multi-state equilibrium

Feng

Post

2016

Phys. Chem. Chem. Phys.

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“…Although detailed structural characterization of the bound-state conformation is often possible, much more difficult is the analysis of the conformations sampled by multidomain proteins before the interaction. However, analysis of the conformational space experienced by the free protein is useful not only to investigate the mechanism of binding, but also to determine the role of the different domains in the identification of substrates or partners, to predict new possible substrates or partners, and to investigate natural and new mechanisms of inhibition (3,22,24,29,35,(57)(58)(59)(60).…”

Section: Discussionmentioning

confidence: 99%

Examination of Matrix Metalloproteinase-1 in Solution

Cerofolini¹,

Fields

Fragai

et al. 2013

Journal of Biological Chemistry

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Background: Matrix metalloproteinase-1 (MMP-1) collagenolysis relies on interdomain flexibility. Results: In all high maximum occurrence conformations, the MMP-1 hemopexin-like domain residues reported responsible for binding to the collagen triple-helix are solvent exposed. Conclusion: MMP-1 in solution is poised to interact with collagen and proceed along the steps of collagenolysis. Significance: The maximum occurrence approach can evaluate the predominant domain conformations for numerous multidomain enzymes.

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“…This requires accurate modeling as has been recently pointed out again. 25 Using residual dipolar couplings from alignment media has recently been shown to deliver biased results on the example of the small biomolecules lactose and chitobiose. In these examples, RDCs derived from measurements in alignment media 26 did not reproduce the ensembles derived from paramagnetic alignment 27,28 which most reliably detects domain motion as described below.…”

Section: ■ Introductionmentioning

confidence: 99%

Interdomain Dynamics Explored by Paramagnetic NMR

et al. 2013

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An ensemble-based approach is presented to explore the conformational space sampled by a multidomain protein showing moderate interdomain dynamics in terms of translational and rotational motions. The strategy was applied on a complex of calmodulin (CaM) with the IQ-recognition motif from the voltage-gated calcium channel Ca v 1.2 (IQ), which adopts three different interdomain orientations in the crystal. The N60D mutant of calmodulin was used to collect pseudocontact shifts and paramagnetically induced residual dipolar couplings for six different lanthanide ions. Then, starting from the crystal structure, pools of conformations were generated by free MD. We found the three crystal conformations in solution, but four additional MD-derived conformations had to be included into the ensemble to fulfill all the paramagnetic data and cross-validate optimally against unused paramagnetic data. Alternative approaches led to similar ensembles. Our "ensemble" approach is a simple and efficient tool to probe and describe the interdomain dynamics and represents a general method that can be used to provide a proper ensemble description of multidomain proteins.

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Domain cooperativity in multidomain proteins: what can we learn from molecular alignment in anisotropic media?

Cited by 18 publications

References 139 publications

Insights into the allosteric regulation of Syk association with receptor ITAM, a multi-state equilibrium

Insights into the allosteric regulation of Syk association with receptor ITAM, a multi-state equilibrium

Examination of Matrix Metalloproteinase-1 in Solution

Interdomain Dynamics Explored by Paramagnetic NMR

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