M line–deficient titin causes cardiac lethality through impaired maturation of the sarcomere
Copyright policy )M line–deficient titin causes cardiac lethality through impaired maturation of the sarcomere
Titin, the largest protein known to date, has been linked to sarcomere assembly and function through its elastic adaptor and signaling domains. Titin's M-line region contains a unique kinase domain that has been proposed to regulate sarcomere assembly via its substrate titin cap (T-cap). In this study, we use a titin M line–deficient mouse to show that the initial assembly of the sarcomere does not depend on titin's M-line region or the phosphorylation of T-cap by the titin kinase. Rather, titin's M-line region is required to form a continuous titin filament and to provide mechanical stability of the embryonic sarcomere. Even without titin integrating into the M band, sarcomeres show proper spacing and alignment of Z discs and M bands but fail to grow laterally and ultimately disassemble. The comparison of disassembly in the developing and mature knockout sarcomere suggests diverse functions for titin's M line in embryonic development and the adult heart that not only involve the differential expression of titin isoforms but also of titin-binding proteins.
- Washington State University United States
- Radboud University Nijmegen Netherlands
- Max Delbrück Center for Molecular Medicine Germany
- Helmholtz Association of German Research Centres Germany
Heart Defects, Congenital, Male, Sarcomeres, Muscle Proteins, IGMD 1: Functional imaging, Mice, Microscopy, Electron, Transmission, Animals, Connectin, Myocytes, Cardiac, Phosphorylation, Research Articles, Mice, Knockout, Myocardium, Gene Expression Regulation, Developmental, Heart, Protein Structure, Tertiary, Cardiovascular and Metabolic Diseases, Mutation, UMCN 4.1: Microbial pathogenesis and host defense, Female, Genes, Lethal, Technology Platforms, Protein Kinases, Protein Binding
Heart Defects, Congenital, Male, Sarcomeres, Muscle Proteins, IGMD 1: Functional imaging, Mice, Microscopy, Electron, Transmission, Animals, Connectin, Myocytes, Cardiac, Phosphorylation, Research Articles, Mice, Knockout, Myocardium, Gene Expression Regulation, Developmental, Heart, Protein Structure, Tertiary, Cardiovascular and Metabolic Diseases, Mutation, UMCN 4.1: Microbial pathogenesis and host defense, Female, Genes, Lethal, Technology Platforms, Protein Kinases, Protein Binding
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