酶替代疗法对其他具有潜在治疗应用的酶的适应性。

Journal of applied biochemistry Pub Date : 1985-08-01
P Sato, D Lindemann
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引用次数: 0

摘要

进行了研究,以评估将大鼠肝脏古洛内酯氧化酶开发的酶给药程序应用于其他治疗感兴趣的酶的前景。该酶作为戊二醛反应的免疫沉淀物腹腔内给药。另一种来源鸡肾的古洛内酯氧化酶也显示出给药后的催化能力。这一发现表明,通过这一过程修饰的其他酶也可能在体内起作用。5种酶(天冬酰胺酶、血清胆碱酯酶、大鼠酶和鸡古洛内酯氧化酶)中有4种酶在修饰后具有显著的催化活性,对底物的亲和力变化相对较小,只有1种酶(组氨酸酶)被修饰失活。用十二烷基硫酸钠-聚丙烯酰胺凝胶电泳对这些酶的免疫沉淀物进行分析表明,它们主要由酶和免疫球蛋白g组成。所有这五种修饰酶即使反复给药也没有毒性,而未经修饰的天冬酰胺酶对大多数试验豚鼠是过敏的。所描述的修饰非常简单和快速,因此是制备用于治疗给药的某些酶的实用手段。
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Adaptability of an enzyme replacement therapy to other enzymes with potential therapeutic applications.

Studies were carried out to assess the prospects of adapting an enzyme administration procedure developed with rat liver gulonolactone oxidase to other enzymes of therapeutic interest. The enzyme is administered intraperitoneally as the glutaraldehyde-reacted immunoprecipitate. A gulonolactone oxidase from a different source, chicken kidney, also shows catalytic capability following administration. This finding suggests that other enzymes modified by this procedure might also act in vivo. Four out of five enzymes tested (asparaginase, serum cholinesterase, rat and chicken gulonolactone oxidases) have significant catalytic activity and relatively minor changes in affinity for substrate after the modification, and only one (histidase) is inactivated by the modification. Analysis of immunoprecipitates by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of these enzymes indicates that they consist largely of enzyme and immunoglobulin G. All five of these modified enzymes are not toxic even with repetitive administrations whereas unmodified asparaginase is allergenic to a majority of guinea pigs tested. The modification described is very simple and rapid and is, therefore, a practical means of preparing certain enzymes for therapeutic administration.

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