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Literature DB >> 26760312

Mechanoprotection by skeletal muscle caveolae.

Harriet P Lo¹, Thomas E Hall¹, Robert G Parton^1,2.

Abstract

Caveolae, small bulb-like pits, are the most abundant surface feature of many vertebrate cell types. The relationship of the structure of caveolae to their function has been a subject of considerable scientific interest in view of the association of caveolar dysfunction with human disease. In a recent study Lo et al. (1) investigated the organization and function of caveolae in skeletal muscle. Using quantitative 3D electron microscopy caveolae were shown to be predominantly organized into multilobed structures which provide a large reservoir of surface-connected membrane underlying the sarcolemma. These structures were preferentially disassembled in response to changes in membrane tension. Perturbation or loss of caveolae in mouse and zebrafish models suggested that caveolae can protect the muscle sarcolemma against damage in response to excessive membrane activity. Flattening of caveolae to release membrane into the bulk plasma membrane in response to increased membrane tension can allow cell shape changes and prevent membrane rupture. In addition, disassembly of caveolae can have widespread effects on lipid-based plasma membrane organization. These findings suggest that the ability of the caveolar membrane system to respond to mechanical forces is a crucial evolutionarily-conserved process which is compromised in disease conditions associated with mutations in key caveolar components.

Entities: Chemical Disease Species

Keywords: T-tubule; caveolae; mechanoprotection; skeletal muscle

Mesh：

Substances：

Year: 2016 PMID： 26760312 PMCID： PMC4914031 DOI： 10.1080/19490992.2015.1131891

Source DB: PubMed Journal: Bioarchitecture ISSN： 1949-0992

30 in total

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Journal: J Biol Chem Date: 1998-03-06 Impact factor: 5.157

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Journal: J Cell Sci Date: 2015-04-01 Impact factor: 5.285

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Journal: Dev Cell Date: 2012-07-17 Impact factor: 12.270

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Journal: Science Date: 2015-08-21 Impact factor: 47.728

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Authors: Babak Razani; Terry P Combs; Xiao Bo Wang; Philippe G Frank; David S Park; Robert G Russell; Maomi Li; Baiyu Tang; Linda A Jelicks; Philipp E Scherer; Michael P Lisanti
Journal: J Biol Chem Date: 2001-12-05 Impact factor: 5.157

6. Cells respond to mechanical stress by rapid disassembly of caveolae.

Authors: Bidisha Sinha; Darius Köster; Richard Ruez; Pauline Gonnord; Michele Bastiani; Daniel Abankwa; Radu V Stan; Gillian Butler-Browne; Benoit Vedie; Ludger Johannes; Nobuhiro Morone; Robert G Parton; Graça Raposo; Pierre Sens; Christophe Lamaze; Pierre Nassoy
Journal: Cell Date: 2011-02-04 Impact factor: 41.582

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Authors: Jun Yu; Sonia Bergaya; Takahisa Murata; Ilkay F Alp; Michael P Bauer; Michelle I Lin; Marek Drab; Teymuras V Kurzchalia; Radu V Stan; William C Sessa
Journal: J Clin Invest Date: 2006-05 Impact factor: 14.808

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Journal: Trends Cell Biol Date: 2004-04 Impact factor: 20.808

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Authors: Harriet P Lo; Susan J Nixon; Thomas E Hall; Belinda S Cowling; Charles Ferguson; Garry P Morgan; Nicole L Schieber; Manuel A Fernandez-Rojo; Michele Bastiani; Matthias Floetenmeyer; Nick Martel; Jocelyn Laporte; Paul F Pilch; Robert G Parton
Journal: J Cell Biol Date: 2015-08-31 Impact factor: 10.539

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Authors: Yann Gambin; Nicholas Ariotti; Kerrie-Ann McMahon; Michele Bastiani; Emma Sierecki; Oleksiy Kovtun; Mark E Polinkovsky; Astrid Magenau; Wooram Jung; Satomi Okano; Yong Zhou; Natalya Leneva; Sergey Mureev; Wayne Johnston; Katharina Gaus; John F Hancock; Brett M Collins; Kirill Alexandrov; Robert G Parton
Journal: Elife Date: 2013-01-01 Impact factor: 8.140

7 in total

1. Sheath Cell Invasion and Trans-differentiation Repair Mechanical Damage Caused by Loss of Caveolae in the Zebrafish Notochord.

Authors: Jamie Garcia; Jennifer Bagwell; Brian Njaine; James Norman; Daniel S Levic; Susan Wopat; Sara E Miller; Xiaojing Liu; Jason W Locasale; Didier Y R Stainier; Michel Bagnat
Journal: Curr Biol Date: 2017-06-22 Impact factor: 10.834

Review 2. Interplay between mechanics and signalling in regulating cell fate.

Authors: Henry De Belly; Ewa K Paluch; Kevin J Chalut
Journal: Nat Rev Mol Cell Biol Date: 2022-04-01 Impact factor: 113.915

3. Differential targeting and signalling of voltage-gated T-type Ca_v 3.2 and L-type Ca_v 1.2 channels to ryanodine receptors in mesenteric arteries.

Authors: Gang Fan; Mario Kaßmann; Ahmed M Hashad; Donald G Welsh; Maik Gollasch
Journal: J Physiol Date: 2018-09-15 Impact factor: 5.182

4. Rapid adaptation of endocytosis, exocytosis, and eisosomes after an acute increase in membrane tension in yeast cells.

Authors: Joël Lemière; Yuan Ren; Julien Berro
Journal: Elife Date: 2021-05-13 Impact factor: 8.713