Jacobs Amy, Sen Jayita, Rong Lijun, Caffrey Michael
Department of Biochemistry and Molecular Genetics, University of Illinois, Chicago, Illinois 60607, USA.
J Biol Chem. 2005 Jul 22;280(29):27284-8. doi: 10.1074/jbc.M414411200. Epub 2005 May 24.
Based on mutagenesis and structural studies of human immunodeficiency virus (HIV) envelope proteins, the loop region of gp41 is thought to directly interact with gp120. The importance of the HIV gp41 loop region to envelope function has been systematically examined by alanine scanning of all gp41 loop residues and the subsequent characterization of the mutagenic effects on viral entry, envelope expression, envelope processing, and gp120 association with gp41. With respect to the wild-type gp41, mutational effects on viral entry fall into four classes as follows: 1) little or no effect (G594A, S599A, G600A, K601A, N611A, S615A, N616A, and L619A); 2) significantly reduced entry (I595A, L602A, I603A, V608A, and K617A); 3) abolished entry (L593A, W596A, G597A, T606A, W610A, W614A, S618A, and I622A); and 4) enhanced entry (T605A, P609A, S613A, E620A, and Q621A). The reduced functionality of many mutants was apparently due to either disruption of envelope processing (L593A and T606A), viral incorporation of the envelope (W610A, W614A, and I662A), or increased dissociation of gp120 (W596A, G597A, and S618A). The extreme sensitivity of the gp120-gp41 interaction to alanine substitutions (e.g. the G597A and S618A mutants are relatively conservative substitutions) suggests that this association is an attractive and novel target for future drug discovery efforts.
基于对人类免疫缺陷病毒(HIV)包膜蛋白的诱变和结构研究,gp41的环区被认为可直接与gp120相互作用。通过对所有gp41环区残基进行丙氨酸扫描,并随后对诱变对病毒进入、包膜表达、包膜加工以及gp120与gp41结合的影响进行表征,系统地研究了HIV gp41环区对包膜功能的重要性。就野生型gp41而言,对病毒进入的诱变效应分为以下四类:1)几乎没有影响(G594A、S599A、G600A、K601A、N611A、S615A、N616A和L619A);2)进入显著减少(I595A、L602A、I603A、V608A和K617A);3)进入被消除(L593A、W596A、G597A、T606A、W610A、W614A、S618A和I622A);4)进入增强(T605A、P609A、S613A、E620A和Q621A)。许多突变体功能的降低显然是由于包膜加工的破坏(L593A和T606A)、包膜的病毒掺入(W610A、W614A和I662A)或gp120解离增加(W596A、G597A和S618A)。gp120 - gp41相互作用对丙氨酸取代的极端敏感性(例如G597A和S618A突变体是相对保守的取代)表明这种结合是未来药物研发工作中一个有吸引力的新靶点。
