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High integrin ?V?6 affinity reached by hybrid domain deletion slows ligand-binding on-rate.


ABSTRACT: The role of the hybrid domain in integrin affinity regulation is unknown, as is whether the kinetics of ligand binding is modulated by integrin affinity state. Here, we compare cell surface and soluble integrin ?V?6 truncation mutants for ligand-binding affinity, kinetics, and thermodynamics. Removal of the integrin transmembrane/cytoplasmic domains or lower legs has little effect on ?V?6 affinity, in contrast to ?1 integrins. In integrin opening, rearrangement at the interface between the ?I and hybrid domains is linked to remodeling at the ligand-binding site at the opposite end of the ?I domain, which greatly increases in affinity in the open conformation. The larger size of the ?I-hybrid interface in the closed state suggests that the hybrid domain stabilizes closing. In agreement, deletion of the hybrid domain raised affinity by 50-fold. Surface plasmon resonance and isothermal titration calorimetry gave similar results and the latter revealed tradeoffs between enthalpy and entropy not apparent from affinity. At extremely high affinity reached in Mn2+ with hybrid domain truncation, ?V?6 on-rate for both pro-TGF-?1 and fibronectin declined. The results suggest that the open conformation of ?V?6 has lower on-rate than the closed conformation, correlate with constriction of the ligand-binding pocket in open ?V?6 structures, and suggest that the extended-closed conformation is kinetically selected for ligand binding. Subsequent transition to the extended-open conformation is stabilized by its much higher affinity for ligand and would also be stabilized by force exerted across ligand-bound integrins by the actin cytoskeleton.

SUBMITTER: Dong X 

PROVIDER: S-EPMC5816193 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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High integrin α<sub>V</sub>β<sub>6</sub> affinity reached by hybrid domain deletion slows ligand-binding on-rate.

Dong Xianchi X   Zhao Bo B   Lin Fu-Yang FY   Lu Chafen C   Rogers Bruce N BN   Springer Timothy A TA  

Proceedings of the National Academy of Sciences of the United States of America 20180129 7


The role of the hybrid domain in integrin affinity regulation is unknown, as is whether the kinetics of ligand binding is modulated by integrin affinity state. Here, we compare cell surface and soluble integrin α<sub>V</sub>β<sub>6</sub> truncation mutants for ligand-binding affinity, kinetics, and thermodynamics. Removal of the integrin transmembrane/cytoplasmic domains or lower legs has little effect on α<sub>V</sub>β<sub>6</sub> affinity, in contrast to β<sub>1</sub> integrins. In integrin op  ...[more]

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