Kinase Domain of Titin Controls Muscle Gene Expression and Protein Turnover

Kinase Domain of Titin Controls Muscle Gene Expression and Protein Turnover

The giant sarcomeric protein titin contains a protein kinase domain (TK) ideally positioned to sense mechanical load. We identified a signaling complex where TK interacts with the zinc-finger protein nbr1 through a mechanically inducible conformation. Nbr1 targets the ubiquitin-associated p62/SQSTM1...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2005-06, Vol.308 (5728), p.1599-1603
Hauptverfasser: Lange, Stephan, Xiang, Fengqing, Yakovenko, Andrey, Vihola, Anna, Hackman, Peter, Rostkova, Elena, Kristensen, Jakob, Brandmeier, Birgit, Franzen, Gereon, Hedberg, Birgitta, Gunnarsson, Lars Gunnar, Hughes, Simon M, Marchand, Sylvie, Sejersen, Thomas, Richard, Isabelle, Edström, Lars, Ehler, Elisabeth, Udd, Bjarne, Gautel, Mathias
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Sequence
Amino Acid Substitution
Animals
Biological and medical sciences
Catalytic Domain
Cell Line
Cell lines
Cell Nucleus - metabolism
Connectin
Disease
Gene expression
Gene Expression Regulation
General aspects
Genes
Genetic mutation
Heat-Shock Proteins - metabolism
Humans
Individualized Instruction
Interaction Process Analysis
Intracellular Signaling Peptides and Proteins
Ligands
Medical sciences
Mice
Mice, Inbred C3H
Molecular Sequence Data
Muscle Proteins - chemistry
Muscle Proteins - genetics
Muscle Proteins - metabolism
Muscle, Skeletal - metabolism
Muscles
Muscular diseases
Muscular Diseases - genetics
Muscular system
Mutation
Myocytes, Cardiac - metabolism
Protein Binding
Protein Conformation
Protein Kinases - chemistry
Protein Kinases - genetics
Protein Kinases - metabolism
Protein Structure, Tertiary
Proteins
Proteins - metabolism
Rats
Research Article
Respiratory Insufficiency - genetics
Respiratory Insufficiency - metabolism
Sarcomeres
Sarcomeres - metabolism
Screening Tests
Sequestosome-1 Protein
Serum Response Factor - metabolism
Signal Transduction
Skeletal muscle
Two-Hybrid System Techniques
Ubiquitin-Protein Ligases - metabolism
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Beschreibung
Zusammenfassung:The giant sarcomeric protein titin contains a protein kinase domain (TK) ideally positioned to sense mechanical load. We identified a signaling complex where TK interacts with the zinc-finger protein nbr1 through a mechanically inducible conformation. Nbr1 targets the ubiquitin-associated p62/SQSTM1 to sarcomeres, and p62 in turn interacts with MuRF2, a muscle-specific RING-B-box E3 ligase and ligand of the transactivation domain of the serum response transcription factor (SRF). Nuclear translocation of MuRF2 was induced by mechanical inactivity and caused reduction of nuclear SRF and repression of transcription. A human mutation in the titin protein kinase domain causes hereditary muscle disease by disrupting this pathway.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1110463