Purine synthesis de novo and salvage in hypoxanthine phosphoribosyltransferase-deficient mice.

Enzyme Pub Date : 1990-01-01 DOI:10.1159/000468723
J Allsop, R W Watts
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引用次数: 9

Abstract

Extreme degrees of hypoxanthine phosphoribosyltransferase (HPRT) deficiency in man are associated with gross sex-linked neurological dysfunction, gout and urinary stones (the Lesch-Nyhan or 'complete HPRT-deficiency' syndrome). The less severe degrees of enzyme deficiency (sex-linked recessive gout and/or urolithiasis or the 'partial HPRT-deficiency' syndrome) may be associated with minor neurological manifestations. Whole body purine synthesis de novo is accelerated in both these groups of patients. A strain of mice with an experimentally produced mutation at the HPRT locus showed some residual 'apparent HPRT activity' in brain, liver, testicular, splenic, kidney and ovarian tissues but not in erythrocyte haemolysates. The mutation removes exons 1 and 2 of the coding region of the gene together with the promotor and about 10 kb of upstream sequence from the gene. It is therefore possible that the observed 'apparent HPRT activity' in these mice is due to the operation of an alternative metabolic pathway. Purine synthesis de novo was markedly accelerated in their brain, testicular, splenic and kidney tissues. It was not accelerated in the liver tissue of male mice hemizygous for the mutation and the degree of acceleration in the female homozygotes only just reached statistical significance at the p = 0.02 level. This observation casts doubt on the importance of modulations in the rate of hepatic purine synthesis de novo as a mechanism for maintaining a steady supply of purines for translocation to other organs.

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次黄嘌呤磷酸核糖转移酶缺陷小鼠嘌呤的新生合成和回收。
男性次黄嘌呤磷酸基转移酶(HPRT)极度缺乏与严重的性相关神经功能障碍、痛风和尿路结石(Lesch-Nyhan或“完全性HPRT缺乏”综合征)有关。较轻程度的酶缺乏症(性连锁隐性痛风和/或尿石症或“部分hprt缺乏症”综合征)可能与轻微的神经系统症状相关。这两组患者的全身嘌呤从头合成都加快了。在实验中产生HPRT位点突变的小鼠品系在脑、肝、睾丸、脾、肾和卵巢组织中显示出一些残余的“明显HPRT活性”,但在红细胞溶血液中没有。该突变将该基因编码区的外显子1和2连同启动子以及该基因上游约10kb的序列一起移除。因此,在这些小鼠中观察到的“明显HPRT活性”可能是由于另一种代谢途径的运作。脑、睾丸、脾和肾组织中嘌呤的新生合成明显加快。在半合子雄性小鼠的肝组织中没有加速突变,在纯合子雌性小鼠的加速程度仅达到p = 0.02水平的统计学意义。这一观察结果对肝脏嘌呤从头合成速率的调节作为维持嘌呤转运到其他器官的稳定供应的机制的重要性提出了怀疑。
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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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