Aging reveals a sex-dependent susceptibility of sarcospan-deficient mice to cardiometabolic disease.

IF 4.1 2区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS American journal of physiology. Heart and circulatory physiology Pub Date : 2024-10-01 Epub Date: 2024-08-09 DOI:10.1152/ajpheart.00702.2023
Aida Rahimi Kahmini, Isela C Valera, Rhiannon Q Crawford, Luaye Samarah, Gisienne Reis, Salma Elsheikh, Rosemeire M Kanashiro-Takeuchi, Nazanin Mohammadipoor, Bolade S Olateju, Aaron R Matthews, Michelle S Parvatiyar
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Abstract

Numerous genes including sarcospan (SSPN) have been designated as obesity-susceptibility genes by human genome-wide association studies. Variants in the SSPN locus have been linked with sex-dependent obesity-associated traits; however, this association has not been investigated in vivo. To delineate the role SSPN plays in regulating metabolism with potential to impact cardiac function, we subjected young and aged global SSPN-deficient (SSPN-/-) male and female mice to obesogenic conditions (60% fat diet). We hypothesized that loss of SSPN combined with metabolic stress would increase susceptibility of mice to cardiometabolic disease. Baseline and end-point assessments of several anthropometric parameters were performed including weight, glucose tolerance, and fat distribution of mice fed control (CD) and high-fat (HFD) diet. Doppler echocardiography was used to monitor cardiac function. White adipose and cardiac tissues were assessed for inflammation by histological, gene expression, and cytokine analysis. Overall, SSPN deficiency protected both sexes and ages from diet-induced obesity, with a greater effect in females. SSPN-/- HFD mice gained less weight than wild-type (WT) cohorts, while SSPN-/- CD groups increased weight. Furthermore, aged SSPN-/- mice developed glucose intolerance regardless of diet. Echocardiography showed preserved systolic function for all groups; however, aged SSPN-/- males exhibited significant increases in left ventricular mass (CD) and signs of diastolic dysfunction (HFD). Cytokine analysis revealed significantly increased IL-1α and IL-17Α in white adipose tissue from young SSPN-/- male mice, which may be protective from diet-induced obesity. Overall, these studies suggest that several sex-dependent mechanisms influence the role SSPN plays in metabolic responses that become evident with age.NEW & NOTEWORTHY Young and aged sarcospan (SSPN)-deficient mice were examined to assess the role of SSPN in obesity and cardiometabolic disease. Both sexes displayed a "leaner" phenotype in response to high-fat diet (HFD). Notably, several sex differences were identified in aged SSPN-deficient mice: 1) females developed glucose intolerance (control and HFD) and 2) males exhibited increased left ventricular mass (control) and diastolic dysfunction (HFD). Therefore, we conclude that SSPN exerts a sex-dependent influence on obesity-associated diseases.

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衰老揭示 Sarcospan 基因缺陷小鼠对心脏代谢疾病的易感性与性别有关
在人类全基因组关联研究中,包括sarcospan(SSPN)在内的许多基因被指定为肥胖易感基因。SSPN 基因座上的变异与性别依赖性肥胖相关特征有关联,但这种关联尚未在体内进行调查。为了明确 SSPN 在调节新陈代谢中的作用,以及其对心脏功能的潜在影响,我们让幼年和老年的全基因 SSPN 缺失(SSPN-/-)雄性和雌性小鼠接受肥胖条件(60% 脂肪饮食)。我们假设 SSPN 的缺失加上代谢压力会增加小鼠对心脏代谢疾病的易感性。我们对对照组(CD)和高脂饮食组(HFD)小鼠的体重、糖耐量和脂肪分布等多项人体测量参数进行了基线和终点评估。多普勒超声心动图用于监测心脏功能。利用组织学、基因表达和细胞因子分析评估白脂肪组织和心脏组织的炎症情况。总体而言,SSPN的缺乏可保护不同性别和年龄的人免受饮食引起的肥胖,而对女性的影响更大。虽然 SSPN-/- HFD 小鼠的体重增加少于 WT 组,但 SSPN-/- CD 组的体重增加了。此外,无论饮食如何,老年 SSPN-/- 小鼠都会出现葡萄糖不耐症。超声心动图显示,所有组的收缩功能都得到了保留,但老年 SSPN-/- 雄性(CD)表现出左心室质量显著增加和(HFD)舒张功能障碍的迹象。细胞因子分析显示,年轻的SSPN-/-雄性小鼠白色脂肪组织中的IL-1α和IL-17A明显增加,这可能对饮食引起的肥胖具有保护作用。总之,这些研究表明,SSPN 在代谢反应中所起的作用会随着年龄的增长而变得明显,而这些作用受多种性别相关机制的影响。
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来源期刊
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.
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