Thyroid hormone deiodination in target tissues--a regulatory role for the trace element selenium?

J Köhrle
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引用次数: 89

Abstract

The three isozymes catalyzing deiodination of thyroid hormones and iodothyronines derived thereof exert a major role in tissue- and development-specific expression of thyroid hormone action in target tissues by activating the prohormone T4 to thyromimetically active T3 or by inactivating the prohormone T4 or active T3 in non-target tissues at inappropriate time points. These three isozymes, in cooperation with the enzymes responsible for non-deiodinative degradation of iodothyronines, thus act as "guardians of the gate" to nuclear thyroid hormone receptors and other cellular target sites for thyroid hormone action. Strict and distinct hormonal, nutritional and nerval regulation of expression of the deiodinase isozymes warrants a closely coordinated control of thyroid hormone action, which directs growth, differentiation, and basal metabolic functions in the developing and the adult organism both in the periphery and in the central nervous system. The integrative action of this essential homeostatic and dynamic ancient hormone system in higher vertebrates is under the influence of two essential trace elements, iodine and selenium, which both are inadequately available for man and life stock in great parts of the world. As soon as, and only if, iodine supplementation is achieved, attempts to establish adequate selenium supply for thyroid hormone synthesis, activation, metabolism and action should be made, but not the other way around. In this review, the physiological, biochemical and pharmacological properties of the three deiodinase isozymes are discussed in detail, with special attention to the role of selenium in regulation of type I 5'-deiodinase expression. The contribution of each deiodinase izozyme to the activation and inactivation of thyroid hormones in specific tissues is reviewed.

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靶组织甲状腺激素脱碘——微量元素硒的调节作用?
三种催化甲状腺激素去碘化的同工酶及其衍生的碘甲状腺原氨酸在靶组织中发挥着组织特异性和发育特异性的甲状腺激素作用,它们通过在不适当的时间点将激素原T4激活为促甲状腺活性T3或在非靶组织中使激素原T4或活性T3失活,在靶组织中发挥重要作用。这三种同工酶与负责碘甲状腺原氨酸非脱碘降解的酶合作,从而充当通往核甲状腺激素受体和甲状腺激素作用的其他细胞靶点的“大门守护者”。严格而独特的激素、营养和神经调控脱碘酶同工酶的表达,保证了甲状腺激素作用的密切协调控制,甲状腺激素作用指导外周和中枢神经系统发育和成年生物体的生长、分化和基础代谢功能。高等脊椎动物体内这一重要的体内平衡和动态的古老激素系统的综合作用受到两种必需微量元素碘和硒的影响,这两种元素在世界大部分地区的人类和生命中都是不足的。一旦,并且只有在碘补充完成后,才应该尝试为甲状腺激素的合成、激活、代谢和作用建立足够的硒供应,而不是相反。本文综述了三种脱碘酶同工酶的生理、生化和药理学特性,重点介绍了硒在调节I型5′-脱碘酶表达中的作用。综述了各种脱碘酶酶对特定组织中甲状腺激素的激活和失活的贡献。
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