Sato Motohiko, Blumer Joe B, Simon Violaine, Lanier Stephen M
Department of Pharmacology and Experimental Therapeutics, Louisiana State University Health Sciences Center, New Orleans, LA 70112, USA.
Annu Rev Pharmacol Toxicol. 2006;46:151-87. doi: 10.1146/annurev.pharmtox.46.120604.141115.
Accessory proteins involved in signal processing through heterotrimeric G proteins are generally defined as proteins distinct from G protein-coupled receptor (GPCR), G protein, or classical effectors that regulate the strength/efficiency/specificity of signal transfer upon receptor activation or position these entities in the right microenvironment, contributing to the formation of a functional signal transduction complex. A flurry of recent studies have implicated an additional class of accessory proteins for this system that provide signal input to heterotrimeric G proteins in the absence of a cell surface receptor, serve as alternative binding partners for G protein subunits, provide unexpected modes of G protein regulation, and have introduced additional functional roles for G proteins. This group of accessory proteins includes the recently discovered Activators of G protein Signaling (AGS) proteins identified in a functional screen for receptor-independent activators of G protein signaling as well as several proteins identified in protein interaction screens and genetic screens in model organisms. These accessory proteins may influence GDP dissociation and nucleotide exchange at the G(alpha) subunit, alter subunit interactions within heterotrimeric G(alphabetagamma) independent of nucleotide exchange, or form complexes with G(alpha) or G(betagamma) independent of the typical G(alphabetagamma) heterotrimer. AGS and related accessory proteins reveal unexpected diversity in G protein subunits as signal transducers within the cell.
通过异源三聚体G蛋白参与信号处理的辅助蛋白通常被定义为不同于G蛋白偶联受体(GPCR)、G蛋白或经典效应器的蛋白质,这些效应器在受体激活时调节信号传递的强度/效率/特异性,或将这些实体定位在合适的微环境中,有助于形成功能性信号转导复合物。最近的一系列研究表明,该系统还存在另一类辅助蛋白,它们在没有细胞表面受体的情况下为异源三聚体G蛋白提供信号输入,作为G蛋白亚基的替代结合伙伴,提供意想不到的G蛋白调节模式,并为G蛋白引入了额外的功能作用。这组辅助蛋白包括最近在G蛋白信号的受体非依赖性激活因子功能筛选中发现的G蛋白信号激活因子(AGS)蛋白,以及在模式生物的蛋白质相互作用筛选和基因筛选中鉴定的几种蛋白质。这些辅助蛋白可能影响G(α)亚基上的GDP解离和核苷酸交换,改变异源三聚体G(αβγ)内的亚基相互作用而不依赖于核苷酸交换,或与G(α)或G(βγ)形成复合物而不依赖于典型的G(αβγ)异源三聚体。AGS和相关辅助蛋白揭示了细胞内作为信号转导器的G蛋白亚基中意想不到的多样性。
