Alterations of Mitochondrial Respiratory Function in Isolated Nephron Segments of Dahl Salt-Sensitive Rats in Salt-Induced Hypertension

IF 5.3 2区 医学 Q1 PHYSIOLOGY
R. Dash, Chun Yang, S. Shimada, N. Zheleznova, A. Cowley
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引用次数: 0

Abstract

Rationale: Mammalian kidneys actively reabsorb nearly 99% of the glomerular filtrate to maintain body fluid and solute homeostasis which requires a great amount of ATP generation and O2 consumption to meet these demands. A high salt diet increases glomerular filtration of Na+ and places a high metabolic demand on the renal tubules to reabsorb more Na+in order for the organism to maintain Na+ balance. Dahl salt-sensitive (SS) rats which mimic the human condition become hypertensive when fed a high salt diet. They are also known to reabsorb greater amounts of Na+ in the proximal tubules (PT) and medullary thick ascending limbs (mTAL) thereby requiring greater ATP production and O2consumption. We hypothesized that the mitochondrial respiratory function of the PT and mTAL would be altered when SS rats are fed a high salt diet in ways that reduce the ability of the kidney to function efficiency thereby leading to salt-induced hypertension. Method: Agilent Seahorse XF96 Extracellular Flux Analyzer was used to assess mitochondrial respiratory function in freshly bulk isolated PT and mTAL from age-matched SS rats during the development of salt-induced hypertension fed with 0.4% NaCl diet (low salt; LS) or 4.0% NaCl diet (high salt; HS) for 7, 14, and 21 days. The Seahorse “Cell Mito Stress Test Protocol” was slightly modified with a substrate addition step to assess the segment-specific and substrate-dependent tubular O2 consumption rate (OCR) under different perturbations, which was used to determine alterations in different mitochondrial respiratory parameters, including H+ leak and ATP production dependent OCR, in the PT and mTAL during the development of salt-induced hypertension. Results: Renal tubular OCR data show that PT of SS rats preferred to use lactate, glutamine, and palmitate, while mTAL preferred to use glucose, pyruvate, and lactate for ATP production under LS diet condition. HS diet resulted in significantly reduced substrate-induced OCR in PT but increased OCR in mTAL. In addition, HS induced a higher level of OCR in the baseline as well as when oligomycin (an inhibitor of F1F0-ATP synthase) was added to both PT and mTAL suspensions indicating that an increased proton leakage/uncoupling of mitochondria occurs in SS rats during the development of salt-induced hypertension. Conclusion: Our emergent data demonstrated that the mitochondrial respiratory function is differentially altered in the PT and mTAL of SS rats in response to different circulatory substrates during the development of salt-induced hypertension. These changes in metabolism appear to be necessary to meet the increased tubular workloads and need for greater ATP production and O2 utilization in both the PT and mTAL of SS rats. NIH R01-HL151587. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
盐致高血压大鼠离体肾元段线粒体呼吸功能的改变
原理:哺乳动物肾脏主动重新吸收近99%的肾小球滤液,以维持体液和溶质稳态,这需要大量的ATP生成和氧气消耗来满足这些需求。高盐饮食增加了肾小球对Na+的滤过,并对肾小管提出了高代谢要求,以重新吸收更多的Na+,以维持机体的Na+平衡。达尔盐敏感(SS)大鼠,模仿人类的情况,成为高血压时,喂食高盐饮食。它们也被认为在近端小管(PT)和髓质厚升肢(mTAL)中重新吸收更多的Na+,从而需要更多的ATP产生和o2消耗。我们假设,高盐饮食会改变SS大鼠的线粒体呼吸功能,从而降低肾脏的功能效率,从而导致盐性高血压。方法:采用Agilent海马XF96细胞外通量分析仪测定年龄匹配的SS大鼠在0.4% NaCl(低盐;LS)或4.0% NaCl日粮(高盐;7、14和21天。对海马“细胞Mito应激测试方案”进行了轻微修改,增加了底物添加步骤,以评估不同扰动下的节段特异性和底物依赖性管状O2消耗率(OCR),用于确定盐诱导高血压发展过程中PT和tal中不同线粒体呼吸参数的变化,包括H+泄漏和ATP产生依赖性OCR。结果:肾小管OCR数据显示,在LS饮食条件下,SS大鼠的PT更倾向于使用乳酸、谷氨酰胺和棕榈酸酯,而mTAL更倾向于使用葡萄糖、丙酮酸和乳酸酯来产生ATP。HS饮食显著降低了PT中底物诱导的OCR,但增加了tal中的OCR。此外,HS在基线以及在PT和mTAL混悬液中添加寡霉素(F1F0-ATP合成酶抑制剂)时诱导更高水平的OCR,这表明在盐诱导高血压的发展过程中,SS大鼠的质子泄漏/线粒体解偶联增加。结论:我们的最新数据表明,在盐致高血压的发展过程中,不同循环基质对SS大鼠PT和tal线粒体呼吸功能的影响是不同的。代谢的这些变化似乎是必要的,以满足增加的管状负荷和需要更多的ATP生产和氧气利用在PT和tal的SS大鼠。NIH R01-HL151587。这是在2023年美国生理学峰会上发表的完整摘要,仅以HTML格式提供。此摘要没有附加版本或附加内容。生理学没有参与同行评议过程。
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来源期刊
Physiology
Physiology 医学-生理学
CiteScore
14.50
自引率
0.00%
发文量
37
期刊介绍: Physiology journal features meticulously crafted review articles penned by esteemed leaders in their respective fields. These articles undergo rigorous peer review and showcase the forefront of cutting-edge advances across various domains of physiology. Our Editorial Board, comprised of distinguished leaders in the broad spectrum of physiology, convenes annually to deliberate and recommend pioneering topics for review articles, as well as select the most suitable scientists to author these articles. Join us in exploring the forefront of physiological research and innovation.
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