A βIV-spectrin/CaMKII signaling complex is essential for membrane excitability in mice
Thomas J. Hund, … , Mark E. Anderson, Peter J. Mohler
Thomas J. Hund, … , Mark E. Anderson, Peter J. Mohler
Published September 27, 2010
Citation Information: J Clin Invest. 2010;120(10):3508-3519. https://doi.org/10.1172/JCI43621.
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Research Article

A βIV-spectrin/CaMKII signaling complex is essential for membrane excitability in mice

Abstract

Ion channel function is fundamental to the existence of life. In metazoans, the coordinate activities of voltage-gated Na+ channels underlie cellular excitability and control neuronal communication, cardiac excitation-contraction coupling, and skeletal muscle function. However, despite decades of research and linkage of Na+ channel dysfunction with arrhythmia, epilepsy, and myotonia, little progress has been made toward understanding the fundamental processes that regulate this family of proteins. Here, we have identified βIV-spectrin as a multifunctional regulatory platform for Na+ channels in mice. We found that βIV-spectrin targeted critical structural and regulatory proteins to excitable membranes in the heart and brain. Animal models harboring mutant βIV-spectrin alleles displayed aberrant cellular excitability and whole animal physiology. Moreover, we identified a regulatory mechanism for Na+ channels, via direct phosphorylation by βIV-spectrin–targeted calcium/calmodulin-dependent kinase II (CaMKII). Collectively, our data define an unexpected but indispensable molecular platform that determines membrane excitability in the mouse heart and brain.

Authors

Thomas J. Hund, Olha M. Koval, Jingdong Li, Patrick J. Wright, Lan Qian, Jedidiah S. Snyder, Hjalti Gudmundsson, Crystal F. Kline, Nathan P. Davidson, Natalia Cardona, Matthew N. Rasband, Mark E. Anderson, Peter J. Mohler

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Figure 2

βIV-spectrin is a CaMKII-binding protein in heart.

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βIV-spectrin is a CaMKII-binding protein in heart. (A) βIV-spectrin ...
(A) βIV-spectrin contains an N-terminal actin-binding domain (NTD), 17 spectrin repeats, and specific and C-terminal domains (SD/CTD). The putative CaMKII-binding site is denoted by an asterisk. (B) The putative CaMKII-binding domain in βIV-spectrin was homologous to a CaMKIIδ autoregulatory domain motif and conserved across orthologs. (C) CTP-P bound radiolabeled CaMKIIδ; CTP-C and GST beads alone lacked binding. (D) βIV-spectrin RNA levels in adult rat brain and heart. (E) βIV-spectrin (Σ1 and Σ6) in ventricular lysates from multiple species. βIV-spectrin was expressed approximately 8–10 fold higher in cerebellum than in heart. Cardiac βIV-spectrin migrated approximately 4 kDa larger than did cerebellar βIV-spectrin. (F) CTP-P, but not CTP-C, associated with CaMKIIδ from rat heart. (G) Endogenous CaMKIIδ and βIV-spectrin coimmunoprecipitated from adult heart lysate. (H and I) βIV-spectrin and N-cadherin in rat cardiomyocytes. Nuclei are shown by Topro-3 dye (blue). (J) CaMKIIδ localization in adult rat myocytes. CaMKIIδ localized to the intercalated disc (white arrows) here and to a second population at transverse-tubules (yellow arrows). Ventricular sections stained for (K) βIV-spectrin, (L) N-cadherin, and (M) CaMKIIδ showed coexpression of these proteins at the intercalated disc (white arrows). (N and P) Ankyrin-G and (O and Q) Nav1.5 were also found at the intercalated disc (white arrows) in rat myocytes and tissue sections. (RU) Coimmunoprecipitation studies demonstrate cardiac complex of βIV-spectrin, CaMKIIδ, ankyrin-G (AnkG), and Nav1.5. Scale bars: 10 μm (HQ).