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<jats:p>The well-known, muscle-specific smooth muscle myosin light chain kinase (MLCK) (smMLCK) and skeletal muscle MLCK (skMLCK) are dedicated protein kinases regulated by an autoregulatory segment C terminus of the catalytic core that blocks myosin regulatory light chain (RLC) binding and phosphorylation in the absence of Ca<jats:sup>2+</jats:sup>/calmodulin (CaM). Although it is known that a more recently discovered cardiac MLCK (cMLCK) is necessary for normal RLC phosphorylation in vivo and physiological cardiac performance, information on cMLCK biochemical properties are limited. We find that a fourth uncharacterized MLCK, MLCK4, is also expressed in cardiac muscle with high catalytic domain sequence similarity with other MLCKs but lacking an autoinhibitory segment. Its crystal structure shows the catalytic domain in its active conformation with a short C-terminal “pseudoregulatory helix” that cannot inhibit catalysis as a result of missing linker regions. MLCK4 has only Ca<jats:sup>2+</jats:sup>/CaM-independent activity with comparable <jats:italic>V</jats:italic><jats:sub>max</jats:sub> and <jats:italic>K</jats:italic><jats:sub>m</jats:sub> values for different RLCs. In contrast, the <jats:italic>V</jats:italic><jats:sub>max</jats:sub> value of cMLCK is orders of magnitude lower than those of the other three MLCK family members, whereas its <jats:italic>K</jats:italic><jats:sub>m</jats:sub> (RLC and ATP) and <jats:italic>K</jats:italic><jats:sub>CaM</jats:sub> values are similar. In contrast to smMLCK and skMLCK, which lack activity in the absence of Ca<jats:sup>2+</jats:sup>/CaM, cMLCK has constitutive activity that is stimulated by Ca<jats:sup>2+</jats:sup>/CaM. Potential contributions of autoregulatory segment to cMLCK activity were analyzed with chimeras of skMLCK and cMLCK. The constitutive, low activity of cMLCK appears to be intrinsic to its catalytic core structure rather than an autoinhibitory segment. Thus, RLC phosphorylation in cardiac muscle may be regulated by two different protein kinases with distinct biochemical regulatory properties.</jats:p>

Original publication

DOI

10.1073/pnas.1600633113

Type

Journal article

Journal

Proceedings of the National Academy of Sciences

Publisher

Proceedings of the National Academy of Sciences

Publication Date

05/07/2016

Volume

113

Pages

E3824 - E3833