慢性肾病和左心室舒张功能障碍(ckd-lvdd)改变了猪线粒体相关基因在心脏中的表达

IF 6.4 2区 医学 Q1 MEDICAL LABORATORY TECHNOLOGY Translational Research Pub Date : 2024-01-22 DOI:10.1016/j.trsl.2023.12.004
Alejandro R. Chade , Rhys Sitz , Taylor J. Kelty , Elizabeth McCarthy , Darla L. Tharp , R. Scott Rector , Alfonso Eirin
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引用次数: 0

摘要

慢性肾脏病(CKD)患者的心血管疾病和心力衰竭会成倍增加,但其根本机制仍不清楚。线粒体是维持细胞呼吸和调节心肌细胞功能的核心。我们利用新型猪慢性肾脏病和左心室舒张功能障碍(CKD-LVDD)模型来研究线粒体相关基因的表达及其潜在的调控机制。对 CKD-LVDD 和正常对照组猪(n=6/组,3 男/3 女)进行了为期 14 周的研究。分别通过多载体 CT、超声心动图和压力-容积循环研究对肾脏和心脏血液动力学进行量化。线粒体形态(电子显微镜)和功能(Oroboros)在体外进行了评估。在随机挑选的猪(n=3/组)中,进行了心脏 mRNA、MeDIP 和 miRNA 测序(seq),以确定线粒体相关基因并研究其转录前和转录后调控。CKD-LVDD表现出心脏线粒体结构异常和线粒体H2O2发射升高,但线粒体功能保持不变。心脏mRNA-seq鉴定出862个线粒体相关基因,其中69个基因上调,33个基因下调(折合变化≥2,假发现率≤0.05)。功能分析显示,上调基因主要参与氧化应激相关过程,而下调基因主要参与呼吸作用和 ATP 合成。mRNA/miRNA/MeDIP-seq综合分析表明,上调基因主要受miRNA调控,而下调基因则受miRNA和表观遗传机制调控。CKD-LVDD改变了心脏线粒体相关基因的表达,与线粒体结构损伤有关,但呼吸功能得以保留,这可能反映了内在的代偿机制。我们的研究结果可指导在心功能不全阶段制定早期干预措施,从而预防线粒体损伤,并改善 LVDD 的发展。
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Chronic kidney disease and left ventricular diastolic dysfunction (CKD-LVDD) alter cardiac expression of mitochondria-related genes in swine

Cardiovascular disease and heart failure doubles in patients with chronic kidney disease (CKD), but the underlying mechanisms remain obscure. Mitochondria are central to maintaining cellular respiration and modulating cardiomyocyte function. We took advantage of our novel swine model of CKD and left ventricular diastolic dysfunction (CKD-LVDD) to investigate the expression of mitochondria-related genes and potential mechanisms regulating their expression. CKD-LVDD and normal control pigs (n=6/group, 3 males/3 females) were studied for 14 weeks. Renal and cardiac hemodynamics were quantified by multidetector-CT, echocardiography, and pressure-volume loop studies, respectively. Mitochondrial morphology (electron microscopy) and function (Oroboros) were assessed ex vivo. In randomly selected pigs (n=3/group), cardiac mRNA-, MeDIP-, and miRNA-sequencing (seq) were performed to identify mitochondria-related genes and study their pre- and post -transcriptional regulation. CKD-LVDD exhibited cardiac mitochondrial structural abnormalities and elevated mitochondrial H2O2 emission but preserved mitochondrial function. Cardiac mRNA-seq identified 862 mitochondria-related genes, of which 69 were upregulated and 33 downregulated (fold-change ≥2, false discovery rate≤0.05). Functional analysis showed that upregulated genes were primarily implicated in processes associated with oxidative stress, whereas those downregulated mainly participated in respiration and ATP synthesis. Integrated mRNA/miRNA/MeDIP-seq analysis showed that upregulated genes were modulated predominantly by miRNAs, whereas those downregulated were by miRNA and epigenetic mechanisms. CKD-LVDD alters cardiac expression of mitochondria-related genes, associated with mitochondrial structural damage but preserved respiratory function, possibly reflecting intrinsic compensatory mechanisms. Our findings may guide the development of early interventions at stages of cardiac dysfunction in which mitochondrial injury could be prevented, and the development of LVDD ameliorated.

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来源期刊
Translational Research
Translational Research 医学-医学:内科
CiteScore
15.70
自引率
0.00%
发文量
195
审稿时长
14 days
期刊介绍: Translational Research (formerly The Journal of Laboratory and Clinical Medicine) delivers original investigations in the broad fields of laboratory, clinical, and public health research. Published monthly since 1915, it keeps readers up-to-date on significant biomedical research from all subspecialties of medicine.
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Contents Contents Masthead Lympho-myeloid aggregate-infiltrating CD20+ B cells display a double-negative phenotype and correlate with poor prognosis in esophageal squamous cell carcinoma Editorial Advisory Board
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