人造血系统中的dna修复酶尿嘧啶- dna糖基化酶

Juhani A. Vilpo
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引用次数: 13

摘要

DNA碱基切除-修复酶尿嘧啶-DNA糖基化酶在人造血系统中的表达遵循严格调控的模式:在增殖的骨髓祖细胞和外周血T细胞和b细胞中记录到高酶活性,这两组细胞都需要其遗传信息的完整性才能正常发挥功能。血液静止的免疫活性细胞保留了它们的dna -尿嘧啶排斥能力,即使在最老的年龄组中也是如此。外周血成熟终末细胞、粒细胞、血小板和红细胞几乎没有活性,这与这些细胞是无核细胞或短命细胞的事实相一致,因此它们的DNA不需要模板引物功能。尿嘧啶- dna糖基酶在所有类型的人类白血病中表达高,为白血病细胞的存活提供了选择性优势。总体结果表明,这种DNA碱基切除修复途径的缺乏不太可能是形成非随机或其他染色体异常或白血病本身的致病因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The DNA-repair enzyme uracil-DNA glycosylase in the human hematopoietic system

The expression of the DNA base-excision-repair enzyme uracil-DNA glycosylase in the human hematopoietic system followed a tightly regulated pattern: high enzyme activities were recorded in proliferating bone marrow progenitor cells and in peripheral blood T- and B-cells, both groups of cells requiring the integrity of their genetic information for their proper function. The blood quiescent immunocompetent cells retained their DNA-uracil exclusion capacity, even in the oldest age groups. Peripheral blood mature end cells, granulocytes, platelets and red cells had little activity, consistent with the fact that these cells are anuclear or short-lived, so that no template-primer functions of their DNA are required. Uracil-DNA glycosylase expression is high in all types of human leukemia, providing a selective advantage for survival of leukemic cells. Overall results show that a deficiency of this DNA base-excision-repair pathway is not likely to be an etiopathogenetic factor in the formation of non-random or other chromosomal abnormalities or in the leukemogenesis itself.

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