Literature DB >> 30414508

Role of STIM1/ORAI1-mediated store-operated Ca2+ entry in skeletal muscle physiology and disease.

Antonio Michelucci1, Maricela García-Castañeda1, Simona Boncompagni2, Robert T Dirksen3.   

Abstract

Store-operated Ca2+ entry (SOCE) is a Ca2+ entry mechanism activated by depletion of intracellular Ca2+ stores. In skeletal muscle, SOCE is mediated by an interaction between stromal-interacting molecule-1 (STIM1), the Ca2+ sensor of the sarcoplasmic reticulum, and ORAI1, the Ca2+-release-activated-Ca2+ (CRAC) channel located in the transverse tubule membrane. This review focuses on the molecular mechanisms and physiological role of SOCE in skeletal muscle, as well as how alterations in STIM1/ORAI1-mediated SOCE contribute to muscle disease. Recent evidence indicates that SOCE plays an important role in both muscle development/growth and fatigue. The importance of SOCE in muscle is further underscored by the discovery that loss- and gain-of-function mutations in STIM1 and ORAI1 result in an eclectic array of disorders with clinical myopathy as central defining component. Despite differences in clinical phenotype, all STIM1/ORAI1 gain-of-function mutations-linked myopathies are characterized by the abnormal accumulation of intracellular membranes, known as tubular aggregates. Finally, dysfunctional STIM1/ORAI1-mediated SOCE also contributes to the pathogenesis of muscular dystrophy, malignant hyperthermia, and sarcopenia. The picture to emerge is that tight regulation of STIM1/ORAI1-dependent Ca2+ signaling is critical for optimal skeletal muscle development/function such that either aberrant increases or decreases in SOCE activity result in muscle dysfunction.
Copyright © 2018 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Ca(2+) signaling; Ca(2+)-release-activated-Ca(2+) (CRAC); Muscle fatigue; Tubular aggregate myopathy (TAM)

Mesh:

Substances:

Year:  2018        PMID: 30414508      PMCID: PMC6290926          DOI: 10.1016/j.ceca.2018.10.004

Source DB:  PubMed          Journal:  Cell Calcium        ISSN: 0143-4160            Impact factor:   6.817


  167 in total

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Journal:  J Physiol       Date:  1999-03-15       Impact factor: 5.182

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Journal:  Biophys J       Date:  2017-12-05       Impact factor: 4.033

5.  Familial myopathy with tubular aggregates associated with abnormal pupils.

Authors:  Nortina Shahrizaila; James Lowe; Adrian Wills
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6.  Muscle calcium and magnesium content in Duchenne muscular dystrophy.

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7.  STIM1 mutation associated with a syndrome of immunodeficiency and autoimmunity.

Authors:  Capucine Picard; Christie-Ann McCarl; Alexander Papolos; Sara Khalil; Kevin Lüthy; Claire Hivroz; Francoise LeDeist; Frédéric Rieux-Laucat; Gideon Rechavi; Anjana Rao; Alain Fischer; Stefan Feske
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8.  Role of Ca2+, membrane excitability, and Ca2+ stores in failing muscle contraction with aging.

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Journal:  Aging (Albany NY)       Date:  2011-06       Impact factor: 5.682

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Review 2.  Molecular basis of allosteric Orai1 channel activation by STIM1.

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Review 3.  CRAC channels and disease - From human CRAC channelopathies and animal models to novel drugs.

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Journal:  Cell Calcium       Date:  2019-03-11       Impact factor: 6.817

4.  Constitutive assembly of Ca2+ entry units in soleus muscle from calsequestrin knockout mice.

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5.  Case Report: Novel STIM1 Gain-of-Function Mutation in a Patient With TAM/STRMK and Immunological Involvement.

Authors:  Eduardo de la Fuente-Munoz; Ana Van Den Rym; Blanca García-Solis; Juliana Ochoa Grullón; Kissy Guevara-Hoyer; Miguel Fernández-Arquero; Lucía Galán Dávila; Jorge Matías-Guiú; Silvia Sánchez-Ramón; Rebeca Pérez de Diego
Journal:  Front Immunol       Date:  2022-06-24       Impact factor: 8.786

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7.  Differential Regulation of ATP- and UTP-Evoked Prostaglandin E2 and IL-6 Production from Human Airway Epithelial Cells.

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Review 8.  Calsequestrin, a key protein in striated muscle health and disease.

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Review 9.  Improper Remodeling of Organelles Deputed to Ca2+ Handling and Aerobic ATP Production Underlies Muscle Dysfunction in Ageing.

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10.  Calcium entry units (CEUs): perspectives in skeletal muscle function and disease.

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