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Literature DB >> 34208776

Ion Channel Gene Mutations Causing Skeletal Muscle Disorders: Pathomechanisms and Opportunities for Therapy.

Lorenzo Maggi¹, Silvia Bonanno¹, Concetta Altamura², Jean-François Desaphy².

Abstract

Skeletal muscle ion channelopathies (SMICs) are a large heterogeneous group of rare genetic disorders caused by mutations in genes encoding ion channel subunits in the skeletal muscle mainly characterized by myotonia or periodic paralysis, potentially resulting in long-term disabilities. However, with the development of new molecular technologies, new genes and new phenotypes, including progressive myopathies, have been recently discovered, markedly increasing the complexity in the field. In this regard, new advances in SMICs show a less conventional role of ion channels in muscle cell division, proliferation, differentiation, and survival. Hence, SMICs represent an expanding and exciting field. Here, we review current knowledge of SMICs, with a description of their clinical phenotypes, cellular and molecular pathomechanisms, and available treatments.

Entities: Chemical Disease Gene Mutation Species

Keywords: CACNA1S; CLCN1; KCNJ2; SCN4A; ion channels; myopathies; myotonia; periodic paralysis

Year: 2021 PMID： 34208776 DOI： 10.3390/cells10061521

Source DB: PubMed Journal: Cells ISSN： 2073-4409 Impact factor: 6.600

7 in total

1. Identification of Potentially Pathogenic Variants Associated with Recurrence in Medication-Related Osteonecrosis of the Jaw (MRONJ) Patients Using Whole-Exome Sequencing.

Authors: Songmi Kim; Seyoung Mun; Wonseok Shin; Kyudong Han; Moon-Young Kim
Journal: J Clin Med Date: 2022-04-12 Impact factor: 4.964

2. Mutations associated with hypokalemic periodic paralysis: from hotspot regions to complete analysis of CACNA1S and SCN4A genes.

Authors: Raffaella Brugnoni; Eleonora Canioni; Massimiliano Filosto; Antonella Pini; Paola Tonin; Tommaso Rossi; Carlotta Canavese; Marica Eoli; Gabriele Siciliano; Giuseppe Lauria; Renato Mantegazza; Lorenzo Maggi
Journal: Neurogenetics Date: 2021-10-05 Impact factor: 2.660

3. Kinetic Alterations in Resurgent Sodium Currents of Mutant Na_v1.4 Channel in Two Patients Affected by Paramyotonia Congenita.

Authors: Ming-Jen Lee; Pi-Chen Lin; Ming-Hong Lin; Hsin-Ying Clair Chiou; Kai Wang; Chiung-Wei Huang
Journal: Biology (Basel) Date: 2022-04-18

Review 7. Bio-Mimicking, Electrical Excitability Phenomena Associated With Synthetic Macromolecular Systems: A Brief Review With Connections to the Cytoskeleton and Membraneless Organelles.

Authors: Gary E Wnek; Alberto C S Costa; Susan K Kozawa
Journal: Front Mol Neurosci Date: 2022-03-07 Impact factor: 5.639

7 in total

Ion Channel Gene Mutations Causing Skeletal Muscle Disorders: Pathomechanisms and Opportunities for Therapy.

1. Identification of Potentially Pathogenic Variants Associated with Recurrence in Medication-Related Osteonecrosis of the Jaw (MRONJ) Patients Using Whole-Exome Sequencing.

2. Mutations associated with hypokalemic periodic paralysis: from hotspot regions to complete analysis of CACNA1S and SCN4A genes.

3. Kinetic Alterations in Resurgent Sodium Currents of Mutant Na_v1.4 Channel in Two Patients Affected by Paramyotonia Congenita.

4. Andersen-Tawil Syndrome With Novel Mutation in KCNJ2: Case Report.

Review 5. Mutations in proteins involved in E-C coupling and SOCE and congenital myopathies.

6. Chaperone activity of niflumic acid on ClC-1 chloride channel mutants causing myotonia congenita.

Review 7. Bio-Mimicking, Electrical Excitability Phenomena Associated With Synthetic Macromolecular Systems: A Brief Review With Connections to the Cytoskeleton and Membraneless Organelles.

Ion Channel Gene Mutations Causing Skeletal Muscle Disorders: Pathomechanisms and Opportunities for Therapy.

1. Identification of Potentially Pathogenic Variants Associated with Recurrence in Medication-Related Osteonecrosis of the Jaw (MRONJ) Patients Using Whole-Exome Sequencing.

2. Mutations associated with hypokalemic periodic paralysis: from hotspot regions to complete analysis of CACNA1S and SCN4A genes.

3. Kinetic Alterations in Resurgent Sodium Currents of Mutant Nav1.4 Channel in Two Patients Affected by Paramyotonia Congenita.

4. Andersen-Tawil Syndrome With Novel Mutation in KCNJ2: Case Report.

Review 5. Mutations in proteins involved in E-C coupling and SOCE and congenital myopathies.

6. Chaperone activity of niflumic acid on ClC-1 chloride channel mutants causing myotonia congenita.

Review 7. Bio-Mimicking, Electrical Excitability Phenomena Associated With Synthetic Macromolecular Systems: A Brief Review With Connections to the Cytoskeleton and Membraneless Organelles.

3. Kinetic Alterations in Resurgent Sodium Currents of Mutant Na_v1.4 Channel in Two Patients Affected by Paramyotonia Congenita.