氨基乙酰丙酸脱水酶:是否有肾皮质独有的形式?

Enzyme Pub Date : 1990-01-01 DOI:10.1159/000468701
K S Roth, P D Spencer, L C Moses, B E Carter
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引用次数: 4

摘要

琥珀酰丙酮(SA)被认为是肝脏中delta-氨基乙酰丙酸脱水酶(ALAD)的有效抑制剂。我们研究了SA对大鼠肾皮质酶的影响,我们的观察表明,SA治疗后肾脏和肝脏ALAD的行为非常不同。虽然两种组织中ALAD的温度反应相似,但添加4 mmol/l SA在37和55℃时抑制肝脏ALAD,并在每个温度下增强肾脏ALAD活性2- 3倍。随着SA浓度从1到10 mmol/l,肾脏ALAD呈进行性升高。肝脏和肾脏ALAD的pH滴定曲线显示,肝酶有一个最优pH值,而肾酶有两个最优pH值,每个都与肝脏不同。在50倍ALA浓度范围内,添加和不添加4 mmol/l SA的动力学研究表明,在两种最佳pH值下,SA诱导肾脏ALAD在整个范围内增强。使用14c标记的ALA,我们已经证实了基于酶产物PBG比色测定的这些观察结果。我们得出结论,肾脏ALAD可能是与肝酶不同的分子种类。进一步的研究可能会阐明这些观察结果对肾血红素合成的意义。
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delta-Aminolevulinic acid dehydratase: is there a form unique to renal cortex?

Succinylacetone (SA) is known to be a potent inhibitor of delta-aminolevulinic acid dehydratase (ALAD) in the liver. We have examined the effects of SA on the rat renal cortical enzyme, our observations indicating very different behaviour of renal versus hepatic ALAD with SA treatment. While the temperature response of ALAD in both tissues was similar, addition of 4 mmol/l SA inhibited liver ALAD at 37 and 55 degrees C and enhanced renal ALAD activity 2- to 3-fold at each temperature. This increase in renal ALAD was progressive with SA concentrations form 1 to 10 mmol/l. A pH titration curve for both liver and kidney ALAD showed the hepatic enzyme to have a single pH optimum, while the renal enzyme had two, each of which was distinct from that in liver. Kinetic studies with and without 4 mmol/l SA over a 50-fold ALA concentration range indicated SA-induced enhancement of renal ALAD over the entire range at both pH optima. Using 14C-labelled ALA, we have confirmed these observations made on the basis of a colorimetric assay for PBG, the enzyme product. We conclude that renal ALAD may be a different molecular species from the liver enzyme. Further studies may clarify the significance of these observations to renal heme synthesis.

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Functional hepatocellular heterogeneity for the production of plasma proteins. Liver cell heterogeneity: functions of non-parenchymal cells. Hepatocyte heterogeneity in the metabolism of carbohydrates. Zonal liver cell heterogeneity. Hepatocyte heterogeneity in the metabolism of amino acids and ammonia.
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