Research Department, Sidra Medicine, Doha, 26999, Qatar.
College of Health and Life Sciences, Hamad Bin Khalifa University, Doha, 34110, Qatar.
Sci Rep. 2024 Sep 19;14(1):21902. doi: 10.1038/s41598-024-72863-5.
To elucidate the lipidomic and metabolomic alterations associated with hypertrophic cardiomyopathy (HCM) pathogenesis, we utilized cmybpc3-/- zebrafish model. Fatty acid profiling revealed variability of 10 fatty acids profiles, with heterozygous (HT) and homozygous (HM) groups exhibiting distinct patterns. Hierarchical cluster analysis and multivariate analyses demonstrated a clear separation of HM from HT and control (CO) groups related to cardiac remodeling. Lipidomic profiling identified 257 annotated lipids, with two significantly dysregulated between CO and HT, and 59 between HM and CO. Acylcarnitines and phosphatidylcholines were identified as key contributors to group differentiation, suggesting a shift in energy source. Untargeted metabolomics revealed 110 and 53 significantly dysregulated metabolites. Pathway enrichment analysis highlighted perturbations in multiple metabolic pathways in the HM group, including nicotinate, nicotinamide, purine, glyoxylate, dicarboxylate, glycerophospholipid, pyrimidine, and amino acid metabolism. Our study provides comprehensive insights into the lipidomic and metabolomic unique signatures associated with cmybpc3-/- induced HCM in zebrafish. The identified biomarkers and dysregulated pathways shed light on the metabolic perturbations underlying HCM pathology, offering potential targets for further investigation and potential new therapeutic interventions.
为了阐明与肥厚型心肌病(HCM)发病机制相关的脂质组学和代谢组学变化,我们利用了 cmybpc3-/- 斑马鱼模型。脂肪酸分析显示,10 种脂肪酸谱存在差异,杂合子(HT)和纯合子(HM)组表现出不同的模式。层次聚类分析和多元分析表明,HM 与 HT 和对照(CO)组在心脏重构方面有明显的分离。脂质组学分析鉴定出 257 种注释脂质,其中 CO 和 HT 之间有两种显著失调,HM 和 CO 之间有 59 种失调。酰基肉碱和磷脂被确定为组分化的关键贡献者,表明能量来源发生了变化。非靶向代谢组学揭示了 110 种和 53 种明显失调的代谢物。通路富集分析强调了 HM 组中多个代谢通路的扰动,包括烟酸、烟酰胺、嘌呤、乙醛酸、二羧酸、甘油磷脂、嘧啶和氨基酸代谢。我们的研究提供了全面的见解,阐明了与 cmybpc3-/- 诱导的斑马鱼 HCM 相关的脂质组学和代谢组学独特特征。所鉴定的生物标志物和失调通路揭示了 HCM 病理学下的代谢扰动,为进一步研究和潜在的新治疗干预提供了潜在靶点。
