Wang Yun-Ting, Moura Alexandra K, Zuo Rui, Roudbari Kiana, Hu Jenny Z, Khan Saher A, Wang Zhengchao, Shentu Yangping, Wang Mi, Li Pin-Lan, Hao Jiukuan, Zhang Yang, Li Xiang
Department of Pharmacological and Pharmaceutical Sciences, College of Pharmacy, University of Houston, Houston, TX, 77204 - 5056, USA.
Provincial Key Laboratory for Developmental Biology and Neurosciences, College of Life Sciences, Fujian Normal University, Fuzhou, China.
J Mol Med (Berl). 2025 May;103(5):599-617. doi: 10.1007/s00109-025-02542-z. Epub 2025 Apr 15.
Niemann-Pick Disease (NPD) is a rare autosomal recessive lysosomal storage disorder (LSD) caused by the deficiency of acid sphingomyelinase (ASMD), which is encoded by the Smpd1 gene. ASMD impacts multiple organ systems in the body, including the cardiovascular system. This study is the first to characterize cardiac pathological changes in ASMD mice under baseline conditions, offering novel insights into the cardiac implications of NPD. Using histological analysis, biochemical assays, and echocardiography, we assessed cardiac pathological changes and function in Smpd1 mice compared to Smpd1 littermate controls. Immunofluorescence and biochemical assays demonstrated that ASMD induced lysosomal dysfunction, as evidenced by the accumulation of lysosomal-associated membrane proteins, lysosomal protease, and autophagosomes in pericytes and cardiomyocytes. This lysosomal dysfunction was accompanied by pericytes and cardiomyocytes inflammation, characterized by increased expression of caspase1 and inflammatory cytokines, and infiltration of inflammatory cells in the cardiac tissues of Smpd1 mice. In addition, histological analysis revealed increased lipid deposition and cardiac steatosis, along with pericyte-to-myofibroblast transition (PMT) and interstitial fibrosis in Smpd1 mice. Moreover, echocardiography further demonstrated that Smpd1 mice developed coronary microvascular dysfunction (CMD), as evidenced by decreased coronary blood flow velocity and increased coronary arteriolar wall thickness. Additionally, these mice exhibited significant impairments in systolic and diastolic cardiac function, as shown by a reduced ejection fraction and prolonged left ventricular relaxation time constant (Tau value). These findings suggest that ASMD induces profound pathological changes and vascular dysfunction in the myocardium, potentially driven by mechanisms involving lysosomal dysfunction as well as both pericytes and cardiac inflammation. KEY MESSAGES: Lysosomal dysfunction in ASMD leads to impaired autophagic flux in cardiac pericytes ASMD causes cardiac inflammation with leukocyte and M2 macrophage infiltration Lipid buildup in the pericytes, fibroblasts and myocardium lead to cardiac steatosis Enhanced cardiac fibrosis in ASMD links to pericyte-to-myofibroblast transition ASMD results in coronary microvascular and diastolic and systolic cardiac dysfunction.
尼曼-匹克病(NPD)是一种罕见的常染色体隐性溶酶体贮积症(LSD),由酸性鞘磷脂酶(ASMD)缺乏引起,该酶由Smpd1基因编码。ASMD影响身体的多个器官系统,包括心血管系统。本研究首次描述了ASMD小鼠在基线条件下的心脏病理变化,为NPD的心脏影响提供了新的见解。通过组织学分析、生化测定和超声心动图,我们评估了Smpd1小鼠与Smpd1同窝对照相比的心脏病理变化和功能。免疫荧光和生化测定表明,ASMD诱导溶酶体功能障碍,溶酶体相关膜蛋白、溶酶体蛋白酶和自噬体在周细胞和心肌细胞中的积累证明了这一点。这种溶酶体功能障碍伴随着周细胞和心肌细胞炎症,其特征是caspase1和炎性细胞因子表达增加,以及Smpd1小鼠心脏组织中炎性细胞浸润。此外,组织学分析显示Smpd1小鼠脂质沉积增加和心脏脂肪变性,同时伴有周细胞向肌成纤维细胞转变(PMT)和间质纤维化。此外,超声心动图进一步证明Smpd1小鼠出现冠状动脉微血管功能障碍(CMD),冠状动脉血流速度降低和冠状动脉小动脉壁厚度增加证明了这一点。此外,这些小鼠在心脏收缩和舒张功能方面表现出显著损害,射血分数降低和左心室舒张时间常数延长(Tau值)表明了这一点。这些发现表明,ASMD诱导心肌中深刻的病理变化和血管功能障碍,可能由涉及溶酶体功能障碍以及周细胞和心脏炎症的机制驱动。关键信息:ASMD中的溶酶体功能障碍导致心脏周细胞自噬通量受损;ASMD导致心脏炎症,伴有白细胞和M2巨噬细胞浸润;周细胞、成纤维细胞和心肌中的脂质堆积导致心脏脂肪变性;ASMD中增强的心脏纤维化与周细胞向肌成纤维细胞转变有关;ASMD导致冠状动脉微血管以及心脏收缩和舒张功能障碍。
