The calcium-sensing-receptor (CaSR) in adipocytes contributes to sex-differences in the susceptibility to high fat diet induced obesity and atherosclerosis.

IF 9.7 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL EBioMedicine Pub Date : 2024-09-01 Epub Date: 2024-08-14 DOI:10.1016/j.ebiom.2024.105293

Svenja Adam, Sanne L Maas, Rosanna Huchzermeier, Leonida Rakateli, Kathrin Abschlag, Mathias Hohl, Liangliang Liao, Matthias Bartneck, Margee Teunissen, Kristiaan Wouters, Donato Santovito, Joachim Jankowski, Erik A L Biessen, Emiel P C van der Vorst

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Abstract

Background: Female mice are more resistant to obesogenic effects of a high-fat diet (HFD), compared to male mice. Although the underlying mechanisms are poorly understood, sex hormones seem to play an important role. Interestingly, the activity of the oestrogen receptor-α (ERα) is affected by the calcium-sensing-receptor (CaSR). Therefore, we investigated sex-differences upon diet-induced obesity and the role of adipocyte-specific CaSR herein.

Methods: Adipocyte-specific Casr deficient mice (AdipoqCre⁺Casr^flox) and control mice (Casr^flox) were injected with AAV8-PCSK9 to make them prone to develop atherosclerosis and fed an obesity-inducing diet for 12 weeks.

Findings: Female mice have lower visceral white adipose tissue (vWAT) mass compared to male mice, while this sex-difference is abolished upon adipocyte-specific Casr deficiency. Furthermore, while females showed elevated levels of inflammatory cytokines and CD3⁺CD8⁺ T cell accumulation in vWAT, compared to males, adipocyte-specific Casr deficiency abrogated this sex-phenotype and demonstrated an inhibition of inflammatory signalling pathways. The expression of Erα, as well as associated genes involved in adipocyte differentiation, was increased in female mice in a mostly adipocyte-specific Casr dependent manner. Interestingly, circulating lipid levels were reduced in female compared to male mice, which correlated with decreased atherosclerotic plaque formation. These systemic effects were abrogated upon adipocyte-specific Casr deficiency.

Interpretation: Our findings indicate that female mice show a more pronounced vWAT dysfunction compared to males upon obesity. This sex effect is abolished upon adipocyte-specific Casr deficiency. In contrast, females show diminished atherosclerotic plaque formation compared to males, an effect that was abrogated by adipocyte-specific Casr deficiency.

Funding: This work was supported by a grant from the Interdisciplinary Center for Clinical Research within the faculty of Medicine at the RWTH Aachen University, by the Corona Foundation, by the Deutsche Forschungsgemeinschaft (DFG), the BMBF and Free State of Bavaria and the DZHK.

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脂肪细胞中的钙传感受体（CaSR）是造成高脂饮食诱发肥胖和动脉粥样硬化的性别差异的原因之一。

背景：与雄性小鼠相比，雌性小鼠更能抵抗高脂饮食（HFD）的致肥效应。尽管对其潜在机制还不甚了解，但性激素似乎在其中发挥了重要作用。有趣的是，雌激素受体-α（ERα）的活性受到钙感应受体（CaSR）的影响。因此，我们在此研究了饮食诱导肥胖的性别差异以及脂肪细胞特异性 CaSR 的作用：方法：给脂肪细胞特异性Casr缺陷小鼠（AdipoqCre+Casrflox）和对照组小鼠（Casrflox）注射AAV8-PCSK9，使其容易发生动脉粥样硬化，并喂食肥胖诱导饮食12周：研究结果：与雄性小鼠相比，雌性小鼠的内脏白色脂肪组织（vWAT）质量较低，而这种性别差异在脂肪细胞特异性Casr缺乏后消失。此外，与雄性小鼠相比，雌性小鼠内脏白色脂肪组织中的炎症细胞因子水平和CD3+CD8+ T细胞聚集水平升高，而脂肪细胞特异性Casr缺乏症可消除这种性别表型，并显示出对炎症信号通路的抑制作用。雌性小鼠的 Erα 以及参与脂肪细胞分化的相关基因的表达增加，主要是依赖于脂肪细胞特异性 Casr。有趣的是，与雄性小鼠相比，雌性小鼠的循环血脂水平降低了，这与动脉粥样硬化斑块形成的减少有关。当脂肪细胞特异性 Casr 缺乏时，这些系统性效应就会减弱：我们的研究结果表明，与雄性小鼠相比，雌性小鼠在肥胖时表现出更明显的vWAT功能障碍。这种性别效应在脂肪细胞特异性 Casr 缺乏时消失。与此相反，雌性小鼠的动脉粥样硬化斑块形成比雄性小鼠更少，这种效应在脂肪细胞特异性 Casr 缺乏时被消除：本研究得到了亚琛工业大学医学系临床研究跨学科中心、Corona 基金会、德国研究基金会、德国联邦医学基金会、巴伐利亚自由州和德国医学博士协会的资助。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EBioMedicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

17.70

自引率

0.90%

发文量

579

审稿时长

5 weeks

期刊介绍： eBioMedicine is a comprehensive biomedical research journal that covers a wide range of studies that are relevant to human health. Our focus is on original research that explores the fundamental factors influencing human health and disease, including the discovery of new therapeutic targets and treatments, the identification of biomarkers and diagnostic tools, and the investigation and modification of disease pathways and mechanisms. We welcome studies from any biomedical discipline that contribute to our understanding of disease and aim to improve human health.