Literature DB >> 28055302

T-type Ca2+ channels and autoregulation of local blood flow.

Lars Jørn Jensen1, Morten Schak Nielsen2, Max Salomonsson2, Charlotte Mehlin Sørensen2.   

Abstract

L-type voltage gated Ca2+ channels are considered to be the primary source of calcium influx during the myogenic response. However, many vascular beds also express T-type voltage gated Ca2+ channels. Recent studies suggest that these channels may also play a role in autoregulation. At low pressures (40-80 mmHg) T-type channels affect myogenic responses in cerebral and mesenteric vascular beds. T-type channels also seem to be involved in skeletal muscle autoregulation. This review discusses the expression and role of T-type voltage gated Ca2+ channels in the autoregulation of several different vascular beds. Lack of specific pharmacological inhibitors has been a huge challenge in the field. Now the research has been strengthened by genetically modified models such as mice lacking expression of T-type voltage gated Ca2+ channels (CaV3.1 and CaV3.2). Hopefully, these new tools will help further elucidate the role of voltage gated T-type Ca2+ channels in autoregulation and vascular function.

Entities:  

Keywords:  T-type channel; autoregulation; blood flow; calcium

Mesh:

Substances:

Year:  2017        PMID: 28055302      PMCID: PMC5463881          DOI: 10.1080/19336950.2016.1273997

Source DB:  PubMed          Journal:  Channels (Austin)        ISSN: 1933-6950            Impact factor:   2.581


  114 in total

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Journal:  J Hypertens       Date:  2010-06       Impact factor: 4.844

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Journal:  J Physiol       Date:  1997-07-15       Impact factor: 5.182

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Journal:  Circ Res       Date:  1987-11       Impact factor: 17.367

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Authors:  Jin Zhang; Roberto Berra-Romani; Martina J Sinnegger-Brauns; Jõrg Striessnig; Mordecai P Blaustein; Donald R Matteson
Journal:  Am J Physiol Heart Circ Physiol       Date:  2006-09-15       Impact factor: 4.733
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  6 in total

1.  miR-137 and its target T-type CaV 3.1 channel modulate dedifferentiation and proliferation of cerebrovascular smooth muscle cells in simulated microgravity rats by regulating calcineurin/NFAT pathway.

Authors:  Bin Zhang; Li Chen; Yun-Gang Bai; Ji-Bo Song; Jiu-Hua Cheng; Hong-Zhe Ma; Jin Ma; Man-Jiang Xie
Journal:  Cell Prolif       Date:  2020-02-08       Impact factor: 6.831

Review 2.  Genetic T-type calcium channelopathies.

Authors:  Norbert Weiss; Gerald W Zamponi
Journal:  J Med Genet       Date:  2019-06-19       Impact factor: 6.318

Review 3.  Mechanobiology of Microvascular Function and Structure in Health and Disease: Focus on the Coronary Circulation.

Authors:  Maarten M Brandt; Caroline Cheng; Daphne Merkus; Dirk J Duncker; Oana Sorop
Journal:  Front Physiol       Date:  2021-12-23       Impact factor: 4.566

Review 4.  Aging, calcium channel signaling and vascular tone.

Authors:  Osama F Harraz; Lars Jørn Jensen
Journal:  Mech Ageing Dev       Date:  2020-09-09       Impact factor: 5.432

5.  Myogenic vasoconstriction requires G12/G13 and LARG to maintain local and systemic vascular resistance.

Authors:  Ramesh Chennupati; Angela Wirth; Julie Favre; Rui Li; Rémy Bonnavion; Young-June Jin; Astrid Wietelmann; Frank Schweda; Nina Wettschureck; Daniel Henrion; Stefan Offermanns
Journal:  Elife       Date:  2019-09-24       Impact factor: 8.140

6.  Elementary calcium signaling in arterial smooth muscle.

Authors:  Gang Fan; Yingqiu Cui; Maik Gollasch; Mario Kassmann
Journal:  Channels (Austin)       Date:  2019-12       Impact factor: 2.581
  6 in total

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