尿素合成对离体灌注大鼠肝脏细胞外pH的影响。

The effect of urea synthesis on extracellular pH in isolated perfused rat liver.

作者信息

Häussinger D, Gerok W, Sies H

出版信息

Biochem J. 1986 May 15;236(1):261-5. doi: 10.1042/bj2360261.

DOI:10.1042/bj2360261

PMID:3790075

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1146814/

Abstract

In a non-recirculating system of isolated liver perfusion, stimulation of urea synthesis by NH4Cl is followed by a decrease of effluent pH by up to 0.2 pH unit. This effect is not observed when urea synthesis is inhibited by amino-oxyacetate or norvaline. When the urea formed by the liver is immediately hydrolysed with urease before the effluent perfusate reaches the pH electrode, the urea-synthesis-induced acidification is no longer observed. This indicates that accompanying alterations in hepatic metabolism after stimulation of urea synthesis, such as increased energy provision and consumption, are not responsible for the extracellular acidification, but that the effect is due to the formation of urea itself. The acidification of the extracellular space after stimulation of urea synthesis by NH4Cl is quantitatively explained by the consumption of 2 mol of HCO3-/mol of urea formed: 1 mol being incorporated into urea, the other being protonated to yield CO2 and H2O. The data match the theoretically predicted HCO3- consumption during ureogenesis and underline the role of hepatic urea synthesis for disposal of HCO3- by converting it into the excretable products CO2 and urea.

摘要

在离体肝脏灌注的非循环系统中，氯化铵刺激尿素合成后，流出液的pH值会下降多达0.2个pH单位。当氨基氧乙酸或正缬氨酸抑制尿素合成时，不会观察到这种效应。当肝脏形成的尿素在流出的灌注液到达pH电极之前立即用脲酶水解时，不再观察到尿素合成诱导的酸化现象。这表明，刺激尿素合成后肝脏代谢的伴随变化，如能量供应和消耗增加，并非细胞外酸化的原因，而是这种效应是由于尿素本身的形成。氯化铵刺激尿素合成后细胞外空间的酸化可以通过每摩尔形成的尿素消耗2摩尔HCO₃⁻来定量解释：1摩尔被纳入尿素，另1摩尔被质子化生成CO₂和H₂O。这些数据与尿素生成过程中理论预测的HCO₃⁻消耗相匹配，并强调了肝脏尿素合成通过将HCO₃⁻转化为可排泄产物CO₂和尿素来处理HCO₃⁻的作用。

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