辣椒素受体的药理学研究,瞬时受体电位香草素1型离子通道。

Istvan Nagy, Dominic Friston, Jojo Sousa Valente, Jose Vicente Torres Perez, Anna P Andreou
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引用次数: 63

摘要

辣椒素受体,瞬时受体电位1型香草酸离子通道(TRPV1),是一种多模态换能器分子,位于初级感觉神经元亚组上,对各种刺激作出反应,包括有害的热(> -42摄氏度)、质子和香草酸,如辣椒素,辣椒的辛辣成分。随后,TRPV1被发现分别是与周围组织和内脏炎症相关的烧灼性疼痛和反射性亢进的发展所不可或缺的。因此,TRPV1被认为是开发新型药物来控制炎症条件下的疼痛和内脏高反射的主要靶点。由于TRPV1在各种组织中的表达比预期的更广泛,以及TRPV1复杂的药理学,意想不到的副作用阻碍了将作用于TRPV1的药物引入临床的初步努力。然而,人们相信,更好地了解TRPV1的药理学特性和对组织的特异性靶向可能最终导致临床有用的药物的开发。为了更好地理解TRPV1的药理学,我们在这里对TRPV1的激活和失活机制以及结构-功能关系进行了全面的阐述。
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Pharmacology of the capsaicin receptor, transient receptor potential vanilloid type-1 ion channel.

The capsaicin receptor, transient receptor potential vanilloid type 1 ion channel (TRPV1), has been identified as a polymodal transducer molecule on a sub-set of primary sensory neurons which responds to various stimuli including noxious heat (> -42 degrees C), protons and vanilloids such as capsaicin, the hot ingredient of chilli peppers. Subsequently, TRPV1 has been found indispensable for the development of burning pain and reflex hyperactivity associated with inflammation of peripheral tissues and viscera, respectively. Therefore, TRPV1 is regarded as a major target for the development of novel agents for the control of pain and visceral hyperreflexia in inflammatory conditions. Initial efforts to introduce agents acting on TRPV1 into clinics have been hampered by unexpected side-effects due to wider than expected expression in various tissues, as well as by the complex pharmacology, of TRPV1. However, it is believed that better understanding of the pharmacological properties of TRPV1 and specific targeting of tissues may eventually lead to the development of clinically useful agents. In order to assist better understanding of TRPV1 pharmacology, here we are giving a comprehensive account on the activation and inactivation mechanisms and the structure-function relationship of TRPV1.

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