Metabolic abnormalities and reprogramming in cats with naturally occurring hypertrophic cardiomyopathy.

IF 3.2 2区 医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS ESC Heart Failure Pub Date : 2024-11-05 DOI:10.1002/ehf2.15135
Qinghong Li, Max Homilius, Erin Achilles, Laura K Massey, Victoria Convey, Åsa Ohlsson, Ingrid Ljungvall, Jens Häggström, Brittany Vester Boler, Pascal Steiner, Sharlene Day, Calum A MacRae, Mark A Oyama
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Abstract

Background and aims: The heart is a metabolic organ rich in mitochondria. The failing heart reprograms to utilize different energy substrates, which increase its oxygen consumption. These adaptive changes contribute to increased oxidative stress. Hypertrophic cardiomyopathy (HCM) is a common heart condition, affecting approximately 15% of the general cat population. Feline HCM shares phenotypical and genotypical similarities with human HCM, but the disease mechanisms for both species are incompletely understood. Our goal was to characterize global changes in metabolome between healthy control cats and cats with different stages of HCM.

Methods: Serum samples from 83 cats, the majority (70/83) of which were domestic shorthair and included 23 healthy control cats, 31 and 12 preclinical cats with American College of Veterinary Internal Medicine (ACVIM) stages B1 and B2, respectively, and 17 cats with history of clinical heart failure or arterial thromboembolism (ACVIM stage C), were collected for untargeted metabolomic analysis. Multiple linear regression adjusted for age, sex and body weight was applied to compare between control and across HCM groups.

Results: Our study identified 1253 metabolites, of which 983 metabolites had known identities. Statistical analysis identified 167 metabolites that were significantly different among groups (adjusted P < 0.1). About half of the differentially identified metabolites were lipids, including glycerophospholipids, sphingolipids and cholesterol. Serum concentrations of free fatty acids, 3-hydroxy fatty acids and acylcarnitines were increased in HCM groups compared with control group. The levels of creatine phosphate and multiple Krebs cycle intermediates, including succinate, aconitate and α-ketoglutarate, also accumulated in the circulation of HCM cats. In addition, serum levels of nicotinamide and tryptophan, precursors for de novo NAD+ biosynthesis, were reduced in HCM groups versus control group. Glutathione metabolism was altered. Serum levels of cystine, the oxidized form of cysteine and cysteine-glutathione disulfide, were elevated in the HCM groups, indicative of heightened oxidative stress. Further, the level of ophthalmate, an endogenous glutathione analog and competitive inhibitor, was increased by more than twofold in HCM groups versus control group. Finally, several uremic toxins, including guanidino compounds and protein bound putrescine, accumulated in the circulation of HCM cats.

Conclusions: Our study provided evidence of deranged energy metabolism, altered glutathione homeostasis and impaired renal uremic toxin excretion. Altered lipid metabolism suggested perturbed structure and function of cardiac sarcolemma membrane and lipid signalling.

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自然发生的肥厚型心肌病猫的代谢异常和重编程。
背景和目的:心脏是一个富含线粒体的代谢器官。衰竭的心脏会重新编程以利用不同的能量底物,从而增加耗氧量。这些适应性变化导致氧化应激增加。肥厚性心肌病(HCM)是一种常见的心脏疾病,约占猫科动物总数的 15%。猫肥厚性心肌病与人类肥厚性心肌病在表型和基因型上有相似之处,但对这两种疾病的发病机制尚不完全清楚。我们的目标是描述健康对照组猫和不同阶段 HCM 猫之间代谢组的整体变化:我们收集了 83 只猫的血清样本进行非靶向代谢组学分析,其中大多数(70/83)是家短毛猫,包括 23 只健康对照组猫、31 只和 12 只分别处于美国兽医内科学院(ACVIM)B1 和 B2 阶段的临床前猫,以及 17 只有临床心力衰竭或动脉血栓栓塞病史(ACVIM C 阶段)的猫。在对对照组和各 HCM 组进行比较时,采用了经年龄、性别和体重调整的多元线性回归方法:结果:我们的研究确定了 1253 种代谢物,其中 983 种代谢物有已知的特征。统计分析表明,167 种代谢物在各组间存在显著差异(调整后的 P 结论):我们的研究提供了能量代谢紊乱、谷胱甘肽平衡改变和肾脏尿毒症毒素排泄受损的证据。脂质代谢的改变表明,心脏肌浆膜和脂质信号的结构和功能受到了干扰。
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来源期刊
ESC Heart Failure
ESC Heart Failure Medicine-Cardiology and Cardiovascular Medicine
CiteScore
7.00
自引率
7.90%
发文量
461
审稿时长
12 weeks
期刊介绍: ESC Heart Failure is the open access journal of the Heart Failure Association of the European Society of Cardiology dedicated to the advancement of knowledge in the field of heart failure. The journal aims to improve the understanding, prevention, investigation and treatment of heart failure. Molecular and cellular biology, pathology, physiology, electrophysiology, pharmacology, as well as the clinical, social and population sciences all form part of the discipline that is heart failure. Accordingly, submission of manuscripts on basic, translational, clinical and population sciences is invited. Original contributions on nursing, care of the elderly, primary care, health economics and other specialist fields related to heart failure are also welcome, as are case reports that highlight interesting aspects of heart failure care and treatment.
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