Institute of Pharmacy, Nirma University, S. G. Highway, Chharodi, Ahmedabad-382 481. India.
Mini Rev Med Chem. 2010 Dec;10(14):1293-308. doi: 10.2174/138955710793564124.
HIstamine is a biomolecular compound located in various parts of body. It participated in various important cellular activities associated with allergy and asthma. This magic bio-molecule is directly and indirectly involved in various biochemical reactions through G-protein couple receptors. Various histamine receptors and their unexplored biochemical activities attracted many biologists in last few decades. A surprising discovery of histamine H(4) receptor was done when scientist worked on histamine H(3) receptor in brain cells. The binding pocket of histamine H(4) differs by transmembrane domains (TM3, TM5 and TM6) from histamine H(3)-sub type. In this review, we enlightened various functions of histamine H(4) and use of histamine H(4) receptor antagonists in autoimmune diseases, allergic responses, inflammatory responses, and in superoxide generation which are helpful to establish H(4) receptor antagonists as newer anti histamines.
组胺是一种位于身体各个部位的生物分子化合物。它参与了与过敏和哮喘相关的各种重要细胞活动。这种神奇的生物分子通过 G 蛋白偶联受体直接和间接参与各种生化反应。各种组胺受体及其未被探索的生化活性在过去几十年吸引了许多生物学家。当科学家们在脑细胞中研究组胺 H3 受体时,组胺 H4 受体的惊人发现被完成。组胺 H4 的结合口袋通过跨膜域(TM3、TM5 和 TM6)与组胺 H3 亚型不同。在这篇综述中,我们阐述了组胺 H4 的各种功能以及组胺 H4 受体拮抗剂在自身免疫性疾病、过敏反应、炎症反应和超氧化物生成中的应用,这有助于将 H4 受体拮抗剂确立为新型抗组胺药。