Effect of cardiomyocyte-specific lipid phosphate phosphatase 3 overexpression on high-fat diet-induced cardiometabolic dysfunction in mice.

IF 4.1 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS American journal of physiology. Heart and circulatory physiology Pub Date : 2025-02-01 Epub Date: 2025-01-13 DOI:10.1152/ajpheart.00518.2024

Anu Jose, Shanmugasundaram Pakkiriswami, Angella Mercer, Yadab Paudel, Esther Yi, Jeffy Fernando, Thomas Pulinilkunnil, Petra C Kienesberger

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Abstract

Lipid phosphate phosphatase 3 (LPP3) is a membrane-bound enzyme that hydrolyzes lipid phosphates including the bioactive lipid, lysophosphatidic acid (LPA). Elevated circulating LPA production and cellular LPA signaling are implicated in obesity-induced metabolic and cardiac dysfunction. Deletion of LPP3 in the cardiomyocyte increases circulating LPA levels and causes heart failure and mitochondrial dysfunction in mice. To examine the influence of LPP3 modulation in the cardiomyocyte on obesity-induced cardiomyopathy, we generated mice with cardiomyocyte-specific LPP3 overexpression (LPP3^OE mice) driven by the α myosin heavy chain promoter. Female and male control (LPP3^FL) and LPP3^OE mice were fed low-fat diet (LFD) or high-fat diet (HFD) for up to 22-23 wk, followed by the analysis of glucose homeostasis, cardiac function, plasma LPA levels, and mitochondrial respiration in cardiac myofibers. On LFD, both female and male LPP3^OE mice had markedly reduced plasma LPA levels and increased pyruvate-linked respiration when compared with LPP3^FL mice while body weight and global insulin sensitivity were similar between genotypes. Following HFD feeding, female LPP3^OE mice were protected from increased plasma LPA levels, excess adiposity, systemic insulin resistance, and systolic and diastolic cardiac dysfunction compared with LPP3^FL mice. Female LPP3^OE mice also maintained elevated cardiac pyruvate-linked mitochondrial respiration following HFD feeding while mitochondrial respiration was similar between genotypes in HFD-fed male mice. This study suggests that cardiomyocyte-specific LPP3 upregulation protects particularly female mice from HFD-induced metabolic dysfunction and cardiomyopathy.NEW & NOTEWORTHY Lipid phosphate phosphatase 3 (LPP3) hydrolyzes bioactive lipids including lysophosphatidic acid (LPA), elevated levels of which are implicated in obesity-induced metabolic and cardiac dysfunction. We show that cardiac-specific overexpression of LPP3 lowers plasma LPA levels, blunts LPA signaling in cardiomyocytes, and increases pyruvate-linked mitochondrial respiration in the heart at baseline in both male and female mice. In female mice, LPP3 overexpression also protects from high-fat diet-induced obesity, insulin resistance, and cardiac dysfunction.

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心肌细胞特异性脂质磷酸酶3过表达对小鼠高脂饮食诱导的心脏代谢功能障碍的影响。

脂质磷酸磷酸酶3 （LPP3）是一种膜结合酶，可水解脂质磷酸，包括生物活性脂质溶血磷脂酸（LPA）。循环LPA生成和细胞LPA信号的升高与肥胖诱导的代谢和心功能障碍有关。心肌细胞中LPP3的缺失会增加循环LPA水平，导致小鼠心力衰竭和线粒体功能障碍。为了研究LPP3在心肌细胞中的调节对肥胖诱导的心肌病的影响，我们用α肌球蛋白重链启动子驱动心肌细胞特异性LPP3过表达小鼠（LPP3OE小鼠）。雌性和雄性对照小鼠（LPP3FL）和LPP3OE小鼠喂食低脂饮食（LFD）或高脂饮食（HFD）长达22-23周，然后分析葡萄糖稳态、心功能、血浆LPA水平和心肌纤维线粒体呼吸。在LFD上，与LPP3FL小鼠相比，雌性和雄性LPP3OE小鼠的血浆LPA水平显著降低，丙酮酸相关呼吸增加，而体重和整体胰岛素敏感性在基因型之间相似。饲喂HFD后，与LPP3FL小鼠相比，雌性LPP3OE小鼠的血浆LPA水平、过度肥胖、全身胰岛素抵抗以及心脏收缩和舒张功能障碍均没有增加。雌性LPP3OE小鼠在喂食HFD后心脏丙酮酸相关的线粒体呼吸也保持升高，而喂食HFD的雄性小鼠的线粒体呼吸在基因型之间相似。该研究表明，心肌细胞特异性LPP3上调可保护雌性小鼠免受hfd诱导的代谢功能障碍和心肌病的影响。

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来源期刊

American journal of physiology. Heart and circulatory physiology 医学-生理学

CiteScore

9.60

自引率

10.40%

发文量

202

审稿时长

2-4 weeks

期刊介绍： The American Journal of Physiology-Heart and Circulatory Physiology publishes original investigations, reviews and perspectives on the physiology of the heart, vasculature, and lymphatics. These articles include experimental and theoretical studies of cardiovascular function at all levels of organization ranging from the intact and integrative animal and organ function to the cellular, subcellular, and molecular levels. The journal embraces new descriptions of these functions and their control systems, as well as their basis in biochemistry, biophysics, genetics, and cell biology. Preference is given to research that provides significant new mechanistic physiological insights that determine the performance of the normal and abnormal heart and circulation.