NCI-Frederick, Bldg. 535, Rm. 134, Frederick, MD 21702-1201, USA.
J Virol. 2010 Jul;84(14):6995-7004. doi: 10.1128/JVI.01853-09. Epub 2010 May 12.
Human T-lymphotropic virus type 1 (HTLV-1) envelope (Env) glycoprotein mediates binding of the virus to its receptor on the surface of target cells and subsequent fusion of virus and cell membranes. To better understand the mechanisms that control HTLV-1 Env trafficking and activity, we have examined two protein-protein interaction motifs in the cytoplasmic domain of Env. One is the sequence YSLI, which matches the consensus YXXPhi motifs that are known to interact with various adaptor protein complexes; the other is the sequence ESSL at the C terminus of Env, which matches the consensus PDZ-binding motif. We show here that mutations that destroy the YXXPhi motif increased Env expression on the cell surface and increased cell-cell fusion activity. In contrast, mutation of the PDZ-binding motif greatly diminished Env expression in cells, which could be restored to wild-type levels either by mutating the YXXPhi motif or by silencing AP2 and AP3, suggesting that interactions with PDZ proteins oppose an Env degradation pathway mediated by AP2 and AP3. Silencing of the PDZ protein hDlg1 did not affect Env expression, suggesting that hDlg1 is not a binding partner for Env. Substitution of the YSLI sequence in HTLV-1 Env with YXXPhi elements from other cell or virus membrane-spanning proteins resulted in alterations in Env accumulation in cells, incorporation into virions, and virion infectivity. Env variants containing YXXPhi motifs that are predicted to have high-affinity interaction with AP2 accumulated to lower steady-state levels. Interestingly, mutations that destroy the YXXPhi motif resulted in viruses that were not infectious by cell-free or cell-associated routes of infection. Unlike YXXPhi, the function of the PDZ-binding motif manifests itself only in the producer cells; AP2 silencing restored the incorporation of PDZ-deficient Env into virus-like particles (VLPs) and the infectivity of these VLPs to wild-type levels.
人类 T 淋巴细胞嗜病毒 1(HTLV-1)包膜(Env)糖蛋白介导病毒与靶细胞表面受体的结合,以及随后病毒和细胞膜的融合。为了更好地理解控制 HTLV-1Env 运输和活性的机制,我们检查了 Env 细胞质域中的两个蛋白质-蛋白质相互作用基序。一个是 YSLI 序列,它与已知与各种衔接蛋白复合物相互作用的 YXXPhi 基序一致;另一个是 Env 羧基末端的 ESSL 序列,它与 PDZ 结合基序一致。我们在这里表明,破坏 YXXPhi 基序的突变增加了细胞表面的 Env 表达,并增加了细胞-细胞融合活性。相比之下,PDZ 结合基序的突变大大减少了细胞中的 Env 表达,这种表达可以通过突变 YXXPhi 基序或沉默 AP2 和 AP3 恢复到野生型水平,这表明与 PDZ 蛋白的相互作用拮抗了由 AP2 和 AP3 介导的 Env 降解途径。沉默 PDZ 蛋白 hDlg1 不会影响 Env 表达,这表明 hDlg1 不是 Env 的结合伙伴。用来自其他细胞膜或病毒跨膜蛋白的 YXXPhi 元件替代 HTLV-1Env 中的 YSLI 序列,导致 Env 在细胞中的积累、病毒粒子的掺入和病毒粒子的感染性发生改变。含有 YXXPhi 基序的 Env 变体,其预测与 AP2 具有高亲和力相互作用,积累到较低的稳定状态水平。有趣的是,破坏 YXXPhi 基序的突变导致病毒不能通过无细胞或细胞相关的感染途径感染。与 YXXPhi 不同,PDZ 结合基序的功能仅在产生细胞中表现出来;AP2 沉默恢复了 PDZ 缺陷型 Env 掺入病毒样颗粒(VLPs)的能力,并将这些 VLPs 的感染性恢复到野生型水平。