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Literature DB >> 32016773

Deficiency of T-type voltage-gated calcium channels results in attenuated weight gain and improved endothelium-dependent dilatation of resistance vessels induced by a high-fat diet in mice.

Kristoffer Rosenstand¹, Kenneth Andersen¹, Rasmus Terp¹, Peter Gennemark², Ditte Gry Ellman³, Anna Reznichenko², Kate Lykke Lambertsen^3,4,5, Paul M Vanhoutte⁶, Pernille B L Hansen^1,2, Per Svenningsen⁷.

Abstract

The deletion of T-type Cav3.1 channels may reduce high-fat diet (HFD)-induced weight gain, which correlates positively with obesity and endothelial dysfunction. Therefore, experiments were designed to study the involvement of T-type Cav3.1 channels in HFD-induced endothelial dysfunction in mice. Wildtype (WT) and Cav3.1-/- mice were fed either a normal diet (ND) or an HFD for 8 weeks. Body composition was assessed, and thoracic aortae and mesenteric arteries were harvested for myography to assess endothelium-dependent responses. Changes in intracellular calcium were measured by fluorescence imaging, and behavior was assessed with the open-field test. Cav3.1-/- mice had attenuated HFD-induced weight gain and lower total fat mass compared with WT mice. Cav3.1-/- mice on an HFD had reduced plasma cholesterol levels compared with WT mice on the same diet. Increased feeding efficiency, independent of food intake, was observed in WT mice on an HFD compared with an ND, but no difference in feeding efficiency between diets was observed for Cav3.1-/- mice. Nitric oxide-dependent dilatation was increased in mesenteric arteries of Cav3.1-/- mice compared with WT mice on an HFD, with no difference observed in aortae. No differences in mouse locomotor activity were observed between the experimental groups. Mice on an HFD lacking T-type channels have reduced weight gain, lower total cholesterol levels, and increased dilatation of resistance vessels compared with WT mice on an HFD, suggesting that Cav3.1 deletion protects against endothelial dysfunction in resistance vessels but not in large conduit vessels.

Entities: Chemical Disease Species

Keywords: Calcium; Endothelium; Ion channels; Obesity

Mesh：

Substances：

Year: 2020 PMID： 32016773 DOI： 10.1007/s13105-020-00728-2

Source DB: PubMed Journal: J Physiol Biochem ISSN： 1138-7548 Impact factor: 4.158

38 in total

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