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单细胞转录组学和染色质可及性分析阐明了盐皮质激素受体拮抗剂的肾脏保护机制。

Single-cell transcriptomics and chromatin accessibility profiling elucidate the kidney-protective mechanism of mineralocorticoid receptor antagonists.

机构信息

Renal, Electrolyte, and Hypertension Division, Department of Medicine.

Institute for Diabetes, Obesity, and Metabolism, and.

出版信息

J Clin Invest. 2024 Jan 2;134(1):e157165. doi: 10.1172/JCI157165.

DOI:10.1172/JCI157165
PMID:37906287
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10760974/
Abstract

Mineralocorticoid excess commonly leads to hypertension (HTN) and kidney disease. In our study, we used single-cell expression and chromatin accessibility tools to characterize the mineralocorticoid target genes and cell types. We demonstrated that mineralocorticoid effects were established through open chromatin and target gene expression, primarily in principal and connecting tubule cells and, to a lesser extent, in segments of the distal convoluted tubule cells. We examined the kidney-protective effects of steroidal and nonsteroidal mineralocorticoid antagonists (MRAs), as well as of amiloride, an epithelial sodium channel inhibitor, in a rat model of deoxycorticosterone acetate, unilateral nephrectomy, and high-salt consumption-induced HTN and cardiorenal damage. All antihypertensive therapies protected against cardiorenal damage. However, finerenone was particularly effective in reducing albuminuria and improving gene expression changes in podocytes and proximal tubule cells, even with an equivalent reduction in blood pressure. We noted a strong correlation between the accumulation of injured/profibrotic tubule cells expressing secreted posphoprotein 1 (Spp1), Il34, and platelet-derived growth factor subunit b (Pdgfb) and the degree of fibrosis in rat kidneys. This gene signature also showed a potential for classifying human kidney samples. Our multiomics approach provides fresh insights into the possible mechanisms underlying HTN-associated kidney disease, the target cell types, the protective effects of steroidal and nonsteroidal MRAs, and amiloride.

摘要

醛固酮过多症通常会导致高血压 (HTN) 和肾脏疾病。在我们的研究中,我们使用单细胞表达和染色质可及性工具来描述醛固酮的靶基因和细胞类型。我们表明,醛固酮的作用是通过开放染色质和靶基因表达建立的,主要在主细胞和连接小管细胞中,在一定程度上也在远端卷曲小管细胞的段中。我们在去氧皮质酮醋酸盐、单侧肾切除术和高盐摄入诱导的 HTN 和心脏肾脏损伤的大鼠模型中检查了甾体和非甾体醛固酮拮抗剂 (MRAs) 以及上皮钠通道抑制剂阿米洛利的肾脏保护作用。所有降压治疗均能预防心脏肾脏损伤。然而,非奈利酮在降低蛋白尿和改善足细胞和近端小管细胞基因表达变化方面特别有效,即使血压降低程度相当。我们注意到,表达分泌磷酸蛋白 1 (Spp1)、Il34 和血小板衍生生长因子亚基 b (Pdgfb) 的受损/纤维化小管细胞的积累与大鼠肾脏纤维化的程度之间存在很强的相关性。该基因特征也显示出对人类肾脏样本进行分类的潜力。我们的多组学方法为 HTN 相关肾脏疾病的可能机制、靶细胞类型、甾体和非甾体 MRA 以及阿米洛利的保护作用提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fe0a/10760974/99d8aee1209d/jci-134-157165-g008.jpg
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