Cardiac leiomodin2 binds to the sides of actin filaments and regulates the ATPase activity of myosin

Autor: László Grama, Dávid Szatmári, Miklós Nyitrai, Zoltan Ujfalusi, Réka Dudás, Beáta Bugyi
Jazyk: angličtina
Rok vydání: 2017
Předmět:
0301 basic medicine
Luminescence
Muscle Proteins
Arp2/3 complex
lcsh:Medicine
Actin Filaments
Microfilament
Biochemistry
Fluorophotometry
Polymerization
Myosin head
Contractile Proteins
Spectrum Analysis Techniques
Aromatic Amino Acids
Sequence Analysis
Protein
Myosin
Fluorescence Resonance Energy Transfer
Amino Acids
lcsh:Science
Adenosine Triphosphatases
Multidisciplinary
biology
Organic Compounds
Chemistry
Physics
Electromagnetic Radiation
Microfilament Proteins
Chemical Reactions
Tryptophan
Actin Cytoskeleton
Cell Motility
Cell Processes
Spectrophotometry
Physical Sciences
Tropomodulin
Research Article
Motor Proteins
Actin Motors
macromolecular substances
Myosins
Research and Analysis Methods
Fluorescence
03 medical and health sciences
Molecular Motors
Animals
Actin
Organic Chemistry
lcsh:R
Chemical Compounds
Biology and Life Sciences
Proteins
Actin remodeling
Cell Biology
Polymer Chemistry
Actin cytoskeleton
Actins
Protein Structure
Tertiary
Rats
Cytoskeletal Proteins
030104 developmental biology
biology.protein
Biophysics
lcsh:Q
Actin Polymerization
Zdroj: PLoS ONE, Vol 12, Iss 10, p e0186288 (2017)
PLoS ONE
ISSN: 1932-6203
Popis: Leiomodin proteins are vertebrate homologues of tropomodulin, having a role in the assembly and maintenance of muscle thin filaments. Leiomodin2 contains an N-terminal tropomodulin homolog fragment including tropomyosin-, and actin-binding sites, and a C-terminal Wiskott-Aldrich syndrome homology 2 actin-binding domain. The cardiac leiomodin2 isoform associates to the pointed end of actin filaments, where it supports the lengthening of thin filaments and competes with tropomodulin. It was recently found that cardiac leiomodin2 can localise also along the length of sarcomeric actin filaments. While the activities of leiomodin2 related to pointed end binding are relatively well described, the potential side binding activity and its functional consequences are less well understood. To better understand the biological functions of leiomodin2, in the present work we analysed the structural features and the activities of Rattus norvegicus cardiac leiomodin2 in actin dynamics by spectroscopic and high-speed sedimentation approaches. By monitoring the fluorescence parameters of leiomodin2 tryptophan residues we found that it possesses flexible, intrinsically disordered regions. Leiomodin2 accelerates the polymerisation of actin in an ionic strength dependent manner, which relies on its N-terminal regions. Importantly, we demonstrate that leiomodin2 binds to the sides of actin filaments and induces structural alterations in actin filaments. Upon its interaction with the filaments leiomodin2 decreases the actin-activated Mg2+-ATPase activity of skeletal muscle myosin. These observations suggest that through its binding to side of actin filaments and its effect on myosin activity leiomodin2 has more functions in muscle cells than it was indicated in previous studies.
Databáze: OpenAIRE
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