@article{wang2022metabolic,
author = {Wang, Wenmin and Wang, Jizheng and Yao, Ke and Wang, Shuiyun and Nie, Meng and Zhao, Yizi and Wang, Bohong and Pang, Huanhuan and Xu, Jingjing and Wu, Guixin and Lu, Minjie and Tang, Nan and Qi, Chunmei and Pei, Hengzhi and Luo, Xufang and Li, Dongsheng and Yang, Tianshu and Sun, Qing and Wei, Xiang and Li, Yan and Jiang, ingsheng and Li, Peng and Song, Lei and Hu, Zeping},
title = {Metabolic characterization of hypertrophic cardiomyopathy in human heart},
year = {2022},
month = {May},
abstract = {Hypertrophic cardiomyopathy (HCM) is a common inherited cardiovascular disease with heterogeneous clinical presentations, governed by multiple molecular mechanisms. Metabolic perturbations underlie most cardiovascular diseases; however, the metabolic alterations and their function in HCM are unknown. Here, we describe the metabolome and lipidome of heart and plasma samples from individuals with and without HCM. Correlation analyses showed strong association between metabolic alterations and cardiac function and prognosis of patients with HCM. Using machine learning we identified metabolite panels as potential HCM diagnostic markers or predictors of survival. Clustering based on metabolome and lipidome of heart enabled stratification of patients with HCM into three subgroups with distinct cardiac function and survival. Integration of metabolomics and proteomics data identified metabolic pathways significantly altered in patients with HCM, with the pentose phosphate pathway and oxidative stress being particularly upregulated. Thus, targeting the pentose phosphate pathway and oxidative stress may serve as potential therapeutic strategies for HCM.},
url = {http://approjects.co.za/?big=en-us/research/publication/metabolic-characterization-of-hypertrophic-cardiomyopathy-in-human-heart/},
pages = {445-461},
journal = {Nature Cardiovascular Research},
volume = {1},
}