Steric regulation of tandem calponin homology domain actin-binding affinity

Andrew R. Harris, Brian Belardi, Pamela Jreij, Kathy Wei, Hengameh Shams, Andreas Bausch, Daniel A. Fletcher

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

Tandem calponin homology (CH1–CH2) domains are common actin-binding domains in proteins that interact with and organize the actin cytoskeleton. Despite regions of high sequence similarity, CH1–CH2 domains can have remarkably different actin-binding properties, with disease-associated point mutants known to increase as well as decrease affinity for F-actin. To investigate features that affect CH1–CH2 affinity for F-actin in cells and in vitro, we perturbed the utrophin actin-binding domain by making point mutations at the CH1–CH2 interface, replacing the linker domain, and adding a polyethylene glycol (PEG) polymer to CH2. Consistent with a previous model describing CH2 as a steric negative regulator of actin binding, we find that utrophin CH1–CH2 affinity is both increased and decreased by modifications that change the effective “openness” of CH1 and CH2 in solution. We also identified interface mutations that caused a large increase in affinity without changing solution “openness,” suggesting additional influences on affinity. Interestingly, we also observe nonuniform subcellular localization of utrophin CH1–CH2 that depends on the N-terminal flanking region but not on bulk affinity. These observations provide new insights into how small sequence changes, such as those found in diseases, can affect CH1–CH2 binding properties.

Original languageEnglish
Pages (from-to)3112-3122
Number of pages11
JournalMolecular Biology of the Cell
Volume30
Issue number26
DOIs
StatePublished - 2019

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