Si Ming Pang scite author profile

Si Ming Pang

2Publications

57Citation Statements Received

185Citation Statements Given

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166

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National University of Singapore

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Mechanical stability of αT-catenin and its activation by force for vinculin binding

Pang

Kwiatkowski

et al. 2019

MBoC

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αT (Testes)-catenin, a critical factor regulating cell–cell adhesion in the heart, directly couples the cadherin-catenin complex to the actin cytoskeleton at the intercalated disk (ICD), a unique cell–cell junction that couples cardiomyocytes. Loss of αT-catenin in mice reduces plakophilin2 and connexin 43 recruitment to the ICD. Since αT-catenin is subjected to mechanical stretch during actomyosin contraction in cardiomyocytes, its activity could be regulated by mechanical force. To provide insight in how force regulates αT-catenin function, we investigated the mechanical stability of the putative, force-sensing middle (M) domain of αT-catenin and determined how force impacts vinculin binding to αT-catenin. We show that 1) physiological levels of force, <15 pN, are sufficient to unfold the three M domains; 2) the M1 domain that harbors the vinculin-binding site is unfolded at ∼6 pN; and 3) unfolding of the M1 domain is necessary for high-affinity vinculin binding. In addition, we quantified the binding kinetics and affinity of vinculin to the mechanically exposed binding site in M1 and observed that αT-catenin binds vinculin with low nanomolar affinity. These results provide important new insights into the mechanosensing properties of αT-catenin and how αT-catenin regulates cell–cell adhesion at the cardiomyocyte ICD.

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Mechanical responses of the mechanosensitive unstructured domains in cardiac titin

Pang

Yan

2017

Biology of the Cell

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Si Ming Pang

Mechanical stability of αT-catenin and its activation by force for vinculin binding

Mechanical responses of the mechanosensitive unstructured domains in cardiac titin

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