De Wolf F, Hogervorst E, Goudsmit J, Fenyö E M, Rübsamen-Waigmann H, Holmes H, Galvao-Castro B, Karita E, Wasi C, Sempala S D
Department of Virology, University of Amsterdam, The Netherlands.
AIDS Res Hum Retroviruses. 1994 Nov;10(11):1387-400. doi: 10.1089/aid.1994.10.1387.
Positively charged amino acid substitutions at positions 11 and 25 within the loop of the third variable region (V3) of HIV-1 subtype B envelope have been shown to be associated with the syncytium-inducing (SI) phenotype of the virus. The present study was designed to examine SI and NSI-associated V3 mutations in HIV-1 subtypes other than B. HIV-1 RNA was isolated from 53 virus stocks and 26 homologous plasma samples from 53 recently infected individuals from Brazil, Rwanda, Thailand, and Uganda. The C2-V3 region of the viral envelope was converted to cDNA, amplified, and sequenced. Of 53 primary virus stock samples 49 were biologically phenotyped through measurement of the syncytium-inducing capacity in MT-2 cells (to differentiate between SI and NSI phenotypes). In addition, after passage of primary isolates through PHA stimulated donor PBMC, the replication capacity was determined in U937-2, CEM, MT-2, and Jurkat-tat cell lines (to differentiate rapid/high and slow/low phenotypes). According to the sequence analysis 9 (17.0%) of the viruses belonged to subtype A, 15 (28.3%) to subtype B, 1 (1.9%) to subtype C, 13 (24.5%) to subtype D, and 15 (28.3%) to subtype E. Sequence analysis of virus RNA, obtained from 26 homologous plasma samples, confirmed the homogeneity of sequence populations in plasma compared to primary virus isolates. Of the 49 viruses tested 12 had the SI phenotype, 5 were confirmed to be rapid/high, and 4 appeared to be slow/low pattern 3 replicating. Of 49, 29 had the NSI phenotype, 24 were confirmed to be slow/low pattern 1 or 2, and 3 appeared to be slow/low pattern 3 replicating. Analysis of mutations at V3 loop amino acid positions 11 and 25 revealed that 10/12 (83.3%) of the SI viruses had SI-associated V3 mutations and that 28/29 (96.6%) of the NSI viruses lacked these mutations. V3 loop heterogeneity, length polymorphism, and a high number of positively charged amino acid substitutions were most frequently found among subtype D variants. These results indicate that both the phenotypic distinction between SI and NSI viruses and the association of biological phenotype with V3 mutations is present among HIV-1 subtypes other than B.
已证明,在HIV-1 B亚型包膜第三可变区(V3)环内第11和25位的带正电荷氨基酸替换与该病毒的合胞体诱导(SI)表型相关。本研究旨在检测除B亚型外的HIV-1其他亚型中与SI和非SI(NSI)相关的V3突变。从巴西、卢旺达、泰国和乌干达的53名近期感染个体的53份病毒株及26份同源血浆样本中分离出HIV-1 RNA。将病毒包膜的C2-V3区域逆转录为cDNA,进行扩增和测序。在53份原始病毒株样本中,有49份通过测量MT-2细胞中的合胞体诱导能力进行了生物学表型分析(以区分SI和NSI表型)。此外,在原始分离株通过PHA刺激的供体PBMC传代后,在U937-2、CEM、MT-2和Jurkat-tat细胞系中测定其复制能力(以区分快速/高效和缓慢/低效表型)。根据序列分析,9种(17.0%)病毒属于A亚型,15种(28.3%)属于B亚型,1种(1.9%)属于C亚型,13种(24.5%)属于D亚型,15种(28.3%)属于E亚型。从26份同源血浆样本中获得的病毒RNA序列分析证实,与原始病毒分离株相比,血浆中序列群体具有同质性。在49种检测的病毒中,12种具有SI表型,5种被确认为快速/高效,4种似乎是缓慢/低效模式3复制。在49种病毒中,29种具有NSI表型,24种被确认为缓慢/低效模式1或2,3种似乎是缓慢/低效模式3复制。对V3环氨基酸位置11和25处的突变分析表明,12种SI病毒中有10种(83.3%)具有与SI相关的V3突变,29种NSI病毒中有28种(共96.6%)缺乏这些突变。V3环的异质性、长度多态性以及大量带正电荷的氨基酸替换在D亚型变体中最为常见。这些结果表明,除B亚型外,HIV-1其他亚型中也存在SI和NSI病毒之间的表型差异以及生物学表型与V3突变的关联。
