g蛋白偶联受体的去孤儿化。

M Parmentier, M Detheux
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引用次数: 14

摘要

g蛋白偶联受体是药物靶点的主要家族之一。孤儿受体,其配体和功能仍然未知,是目前未满足的医疗需求的一组有吸引力的未来目标。筛选策略已经发展了多年,以确定这些受体的天然配体。通常使用天然或嵌合g蛋白,它们可以将受体的自然偶联转向细胞内钙释放。潜在的问题包括表达不良或运输到细胞表面,受体的组成活性,或用于功能表达的细胞类型中存在内源性受体,导致非特异性反应。在过去的10年里,许多孤儿受体被发现与以前已知的生物活性分子有关。然而,新的和不可预测的生物介质也从复杂的生物来源纯化。一些旧的和最近的例子,包括痛觉啡、趋化素和F2L肽。对剩余孤儿受体的功能表征的未来挑战包括对质量控制所需的特定蛋白质的潜在需求,特定受体的运输或偶联,专性异二聚体的可能形成,以及一些构成活性受体可能缺乏配体或仅对逆激动剂有反应的可能性。需要适应的表达和筛选策略来处理这些问题。
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Deorphanization of G-protein-coupled receptors.

G-protein-coupled receptors constitute one of the major families of drug targets. Orphan receptors, for which the ligands and function are still unknown, are an attractive set of future targets for presently unmet medical needs. Screening strategies have been developed over the years in order to identify the natural ligands of these receptors. Natural or chimeric G-proteins that can redirect the natural coupling of receptors toward intracellular calcium release are frequently used. Potential problems include poor expression or trafficking to the cell surface, constitutive activity of the receptors, or the presence of endogenous receptors in the cell types used for functional expression, leading to nonspecific responses. Many orphan receptors characterized over the last 10 years have been associated with previously known bioactive molecules. However, new and unpredicted biological mediators have also been purified from complex biological sources. A few old and recent examples, including nociceptin, chemerin, and the F2L peptide are illustrated. Future challenges for the functional characterization of the remaining orphan receptors include the potential requirement of specific proteins necessary for quality control, trafficking or coupling of specific receptors, the possible formation of obligate heterodimers, and the possibility that some constitutively active receptors may lack ligands or respond only to inverse agonists. Adapted expression and screening strategies will be needed to deal with these issues.

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