Abstract
Cardiac contractility is enhanced by phosphorylation of myosin light chain 2 (MLC2) by cardiac-specific MLC kinase (cMLCK), located at the neck region of myosin heavy chain. In normal mouse and human hearts, the level of phosphorylation is maintained relatively constant, at around 30–40% of total MLC2, likely by well-balanced phosphorylation and phosphatase-dependent dephosphorylation. Overexpression of cMLCK promotes sarcomere organization, while the loss of cMLCK leads to cardiac atrophy in vitro and in vivo. In this study, we showed that cMLCK is predominantly expressed at the Z-disc with additional diffuse cytosolic expression in normal adult mouse and human hearts. cMLCK interacts with the Z-disc protein, α-actinin2, with a high-affinity kinetic value of 13.4 ± 0.1 nM through the N-terminus region of cMLCK unique to cardiac-isoform. cMLCK mutant deficient for interacting with α-actinin2 did not promote sarcomeric organization and reduced cardiomyocyte cell size. In contrast, a cMLCK kinase-deficient mutant showed effects similar to wild-type cMLCK on sarcomeric organization and cardiomyocyte cell size. Our results suggest that cMLCK plays a role in sarcomere organization, likely distinct from its role in phosphorylating MLC2, both of which will contribute to the enhancement of cardiac contractility.
Highlights
Actin-myosin cross-bridge formation is fundamental for cardiac contraction
Results cardiac-specific MLC kinase (cMLCK) is predominantly expressed at the Z-disc, not overlapping with its substrate MLC2v in mouse and human hearts. cMLCK is the predominant kinase to phosphorylate myosin light chain 2 (MLC2) in vivo demonstrated in loss of function cMLCK mutant mice[7,8,9,10]
We previously showed that cMLCK is diffusely expressed in the cytoplasm, but it occasionally forms striation without overlapping with MLC26
Summary
Actin-myosin cross-bridge formation is fundamental for cardiac contraction. During this process, phosphorylation of myosin light chain 2 (MLC2) located at the neck region of myosin heavy chain potentiates the force and rate of cross-bridge recruitment[1,2]. CMLCK proteins are composed of roughly 3 different domains; the amino terminal domain unique to the cardiac isoform without homologies to other MLCKs, such as smooth muscle or skeletal types, followed by the conserved catalytic and regulatory domains[6,12]. CMLCK is diffusely localized in the cytoplasm; in some areas, striated staining is observed. In these areas, unexpectedly, cMLCK does not colocalize with its substrate MLC26. Actinins are dimeric proteins, composed of the actin binding domain, spectrin-like repeats, and two pairs of EF-hand motifs[16,17,18,19,20]. In addition to binding to actin, it serves as a scaffold of many other Z-disc components, and may be involved in mechanical strain sensing and signaling through interacting proteins[18,21,22,23,24]; yet how α-actinin[2] enhances F-actin bundling is not fully understood[18,20]
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