HIV-1抑制肽T20与gp41 N-HR卷曲螺旋的相互作用
Interactions of HIV-1 inhibitory peptide T20 with the gp41 N-HR coiled coil.
作者信息
Champagne Kelly, Shishido Akira, Root Michael J
机构信息
Department of Biochemistry and Molecular Biology, Thomas Jefferson University, Philadelphia, Pennsylvania 19107, USA.
出版信息
J Biol Chem. 2009 Feb 6;284(6):3619-27. doi: 10.1074/jbc.M809269200. Epub 2008 Dec 10.
Cellular entry of human immunodeficiency virus type 1 (HIV-1) involves fusion of viral and cellular membranes and is mediated by structural transitions in viral glycoprotein gp41. The antiviral C-peptide T20 targets the gp41 N-terminal heptad repeat region (N-HR), blocking gp41 conformational changes essential for the entry process. To probe the T20 structure-activity relationship, we engineered a molecular mimic of the entire gp41 N-HR coiled coil using the 5-Helix design strategy. T20 bound this artificial protein (denoted 5H-ex) with nanomolar affinity (K(D) = 30 nm), close to its IC50 concentration (approximately 3 nm) but much weaker than the affinity of a related inhibitory C-peptide C37 (K(D) = 0.0007 nm). T20/C37 competitive binding assays confirmed that T20 interacts with the hydrophobic groove on the surface of the N-HR coiled coil outside of a deep pocket region crucial for C37 binding. We used 5H-ex to investigate how the T20 N and C termini contributed to the inhibitor binding activity. Mutating three aromatic residues at the T20 C terminus (WNWF --> ANAA) had no effect on affinity, suggesting that these amino acids do not participate in T20 binding to the gp41 N-HR. The results support recent evidence pointing to a different role for these residues in T20 inhibition (Peisajovich, S. G., Gallo, S. A., Blumenthal, R., and Shai, Y. (2003) J. Biol. Chem. 278, 21012-21017; Liu, S., Jing, W., Cheung, B., Lu, H., Sun, J., Yan, X., Niu, J., Farmar, J., Wu, S., and Jiang, S. (2007) J. Biol. Chem. 282, 9612-9620). By contrast, mutations near the T20 N terminus substantially influenced inhibitor binding strength. When Ile was substituted for Thr in the second T20 position, a 40-fold increase in binding affinity was measured (K(D) = 0.75 nm). The effect of this affinity enhancement on T20 inhibitory potency varied among different viral strains. The original T20 and the higher affinity T20 variant had similar potency against wild type HIV-1. However, the higher affinity T20 variant was significantly more potent against T20-resistant virus. The findings suggest that other factors in addition to binding affinity play a role in limiting T20 potency. As a mimetic of the complete gp41 N-HR coiled coil region, 5H-ex will be a useful tool to further elucidate mechanistic profiles of C-peptide inhibitors.
1型人类免疫缺陷病毒(HIV-1)进入细胞涉及病毒膜与细胞膜的融合,且由病毒糖蛋白gp41的结构转变介导。抗病毒C肽T20靶向gp41 N端七肽重复区域(N-HR),阻断进入过程所必需的gp41构象变化。为探究T20的构效关系,我们采用5-螺旋设计策略构建了整个gp41 N-HR卷曲螺旋的分子模拟物。T20以纳摩尔亲和力(K(D)=30 nM)结合这种人工蛋白(称为5H-ex),接近其IC50浓度(约3 nM),但远低于相关抑制性C肽C37的亲和力(K(D)=0.0007 nM)。T20/C37竞争性结合试验证实,T在对C37结合至关重要的深口袋区域之外,20与N-HR卷曲螺旋表面的疏水凹槽相互作用。我们利用5H-ex研究T20的N端和C端如何对抑制剂结合活性产生影响。将T20 C端的三个芳香族残基(WNWF→ANAA)突变对亲和力无影响,表明这些氨基酸不参与T20与gp41 N-HR的结合。这些结果支持了最近的证据,即这些残基在T20抑制中发挥不同作用(Peisajovich,S.G.,Gallo,S.A.,Blumenthal,R.,和Shai,Y.(2003)J.Biol.Chem.278,21012-21017;Liu,S.,Jing,W.,Cheung,B.,Lu,H.,Sun,J.,Yan,X.,Niu.J.,Farmar,J.,Wu,S.,和Jiang,S.(2007)J.Biol.Chem.282,9612-9620)。相比之下,T20 N端附近的突变显著影响抑制剂结合强度。当在T20的第二个位置用异亮氨酸取代苏氨酸时,测得结合亲和力增加了40倍(K(D)=0.75 nM)。这种亲和力增强对T20抑制效力的影响在不同病毒株间有所不同。原始T20和高亲和力T20变体对野生型HIV-1的效力相似。然而,高亲和力T20变体对T20耐药病毒的效力显著更高。这些发现表明,除结合亲和力外的其他因素在限制T20效力方面发挥作用。作为完整gp41 N-HR卷曲螺旋区域的模拟物,5H-ex将成为进一步阐明C肽抑制剂作用机制的有用工具。
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