离体灌注大鼠肾脏的底物限制性功能与代谢：乳酸和葡萄糖的影响

Substrate-limited function and metabolism of the isolated perfused rat kidney: effects of lactate and glucose.

作者信息

Cohen J J, Kook Y J, Little J R

出版信息

J Physiol. 1977 Mar;266(1):103-21. doi: 10.1113/jphysiol.1977.sp011758.

DOI:10.1113/jphysiol.1977.sp011758

PMID:856994

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1283555/

Abstract

The objective of this study was to determine the separate contributions of exogenous substrate and of kidney tissue to the support of function and metabolism in the isolated perfused rat kidney. The effects of the addition of L(+) [U-14C]lactate or D[U-14C]glucose either to a specially prepared substrate-free albumin (SFA) or to Fr. V bovine serum albumin (Fr. V-BSA) were compared. The Fr. V-BSA has significant quantities of lactate, citrate and free fatty acids associated with it. 2. Perfusion of the rat kidney with the Krebs-Ringer bicarbonate solution containing SFA, without addition of exogenous substrate, resulted in a lower % Na+ reabsorption (approximately 43%) than when the perfusions contained Fr. V-BSA (approximately 80%). Thus, kidney tissue can support at most 45% of Na+ reabsorption, while the substrates associated with the Fr. V-BSA can support approximately 30% of Na+ reabsorption. When the initial concentration of L(+)lactate in the perfusate containing SFA was progressively raised from 0 to 10 mM, % Na+ reabsorption increased to between 85 and 90%. 3. The apparent Km (0-59 mM) and the Vmax (0-67 micronmole g-1. min-1) for lactate oxidation in the presence of SFA were both significantly lower than when Fr. V-BSA was present (Km = 2-0 mM; Vmax = 1-1 micronmole g-1. min-1). The lower Km is interpreted as being due to the removal of substances from the Fr. V-BSA which competitively inhibit either the uptake or oxidation of lactate; the lower Vmax is considered to be related to the lower rate of Na+ reabsorption when SFA is present. 4. Addition of glucose enhanced gomerular filtration rate in the presence of both types of albumin. The resulting increase in the filtered load of Na+ in the presence of glucose was associated with either no change (Fr. V-BSA) or an increase (SFA) in fractional Na+ reabsorption. Although absolute Na+ reabsorptive rate was greater in the presence of glucose than in the presence of lactate, the oxidation rate of glucose, on a carbon-atom basis, was less than 50% of the oxidation rate of lactate. 5. The metabolism of glucose may regulate the permeability characteristics of the glomerulus and the tubular epithelium: by contrast, the high oxidation rate of lactate suggests it can provide direct support for a major fraction of the Na+ actively absorbed.

摘要

本研究的目的是确定外源性底物和肾组织对离体灌注大鼠肾脏功能和代谢支持的各自贡献。比较了向特制的无底物白蛋白（SFA）或V组分牛血清白蛋白（V组分 - BSA）中添加L(+) [U - 14C]乳酸或D[U - 14C]葡萄糖的效果。V组分 - BSA含有大量与之相关的乳酸、柠檬酸和游离脂肪酸。2. 用含SFA的 Krebs - Ringer碳酸氢盐溶液灌注大鼠肾脏，不添加外源性底物时，Na+重吸收百分比（约43%）低于灌注液含V组分 - BSA时（约80%）。因此，肾组织最多可支持45%的Na+重吸收，而与V组分 - BSA相关的底物可支持约30%的Na+重吸收。当含SFA的灌注液中L(+)乳酸的初始浓度从0逐渐提高到10 mM时，Na+重吸收百分比增加到85%至90%之间。3. 在存在SFA的情况下，乳酸氧化的表观Km（0 - 59 mM）和Vmax（0 - 67微摩尔·g-1·min-1）均显著低于存在V组分 - BSA时（Km = 2 - 0 mM；Vmax = 1 - 1微摩尔·g-1·min-1）。较低的Km被解释为是由于从V组分 - BSA中去除了竞争性抑制乳酸摄取或氧化的物质；较低的Vmax被认为与存在SFA时较低的Na+重吸收速率有关。4. 在两种白蛋白存在的情况下，添加葡萄糖均可提高肾小球滤过率。在葡萄糖存在下，Na+滤过负荷的增加与Na+重吸收分数不变（V组分 - BSA）或增加（SFA）相关。尽管在葡萄糖存在下绝对Na+重吸收速率大于在乳酸存在下，但以碳原子为基础，葡萄糖的氧化速率不到乳酸氧化速率的50%。5. 葡萄糖的代谢可能调节肾小球和肾小管上皮的通透性特征：相比之下，乳酸的高氧化速率表明它可为大部分主动重吸收的Na+提供直接支持。