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β地中海贫血的病理生理学——分子疗法指南

Pathophysiology of beta thalassemia--a guide to molecular therapies.

作者信息

Thein Swee Lay

机构信息

King's College Hospital, Guy's King's & StThomas' School of Medicine, Kings College London, DenmarkHill, London SE5 9PJ, UK.

出版信息

Hematology Am Soc Hematol Educ Program. 2005:31-7. doi: 10.1182/asheducation-2005.1.31.

Abstract

The central mechanism underlying the pathophysiology of the beta thalassemias can be related to the deleterious effects of imbalanced globin chain synthesis on erythroid maturation and survival. An imbalance of the alpha/non-alpha globin chains leads to an excess of unmatched alpha globin which precipitates out, damaging membrane structures leading to accelerated apoptosis and premature destruction of the erythroid precursors in the bone marrow (ineffective erythropoiesis). Close observation of the genotype/phenotype relationships confirms the pathophysiological mechanism and provides clues to molecular therapies, all of which aim to reduce the alpha/non-alpha chain imbalance. They include inheritance of the milder forms of beta thalassemia, co-inheritance of alpha thalassemia, or genetic factors (quantitative trait loci, QTLs) for increasing gamma globin expression. Currently, the most promising molecular therapeutic approaches include increasing beta globin gene expression by stem cell gene therapy and increasing gamma globin expression using pharmacological agents or by transduction of the gamma globin genes.

摘要

β地中海贫血病理生理学的核心机制可能与珠蛋白链合成失衡对红系成熟和存活的有害影响有关。α/非α珠蛋白链的失衡导致过量未匹配的α珠蛋白沉淀出来,破坏膜结构,导致骨髓中红系前体细胞加速凋亡和过早破坏(无效造血)。对基因型/表型关系的密切观察证实了病理生理机制,并为分子治疗提供了线索,所有这些治疗都旨在减少α/非α链失衡。这些措施包括遗传较轻形式的β地中海贫血、共同遗传α地中海贫血,或增加γ珠蛋白表达的遗传因素(数量性状位点,QTL)。目前,最有前景的分子治疗方法包括通过干细胞基因治疗增加β珠蛋白基因表达,以及使用药物或通过γ珠蛋白基因转导增加γ珠蛋白表达。

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