A single amino acid substitution within the transmembrane domain of the human immunodeficiency virus type 1 Vpu protein renders simian-human inu-nunodeficiency virus (SHIVKU-1bMC33) susceptible to rimantadine

Previous studies from out-laboratory have shown that the transmembrane domain (TM) of the Vpu protein of human immunodeficiency virus type 1 (HIV-1) contributes to the pathogenesis of SHIVKU-1bMC33 in macaques and that the TM domain of Vpu could be replaced with the M2 protein viroporin from influenza A virus. Recently, we showed that the replacement of the TM domain of Vpu with that of the M2 protein of influenza A virus resulted in a virus (SHIVM2) that was sensitive to rimantadine [Hout, D.R., Gomez, M.L., Pacyniak, E., Gomez, L.M., Inbody, S.H., Mulcahy. E.R., Colley. N., Pinson, D.M., Powers, M.F., Wong, S.W., Stephens, E.B., 2006. Substitution of the transmembrane domain of Vpu in simian human immunodeficiency virus (SHIVKU-1bMC33) with that of M2 of influenza A results in a virus that is sensitive to inhibitors of the N42 ion channel and is pathogenic for pig-tailed macaques. Virology 344, 541-558]. Based on previous studies of the M2 protein which have shown that the His-X-X-X-Trp motif within the M2 is essential to the function of the M2 proton channel, we have constructed a novel SHIV in which the alanine at position 19 of the TM domain was replaced with a histidine residue resulting in the motif His-Ile-Leu-Val-Trp. The SHIVVPuA19H replicated with similar kinetics as the parental SHIVKU-1bMC33 and pulse-chase analysis revealed that the processing of viral proteins was similar to SHIVKU-1bx1C33.This SHIVVpuA19H Virus was found to be more sensitive to the M2 ion channel blocker rimantadine than SHIVM2. Electron microscopic examination of SHIVVpuA19H-infected cells treated with rimantadine revealed an accumulation of viral particles at the cell surface and within intracellular vesicles, which was similar to that previously observed to SHIVM2-infected cells treated with rimantadine. These data indicate that the VPU protein of HIV-1 can be converted into a rimantadine-sensitive ion channel with the alteration of one amino acid and provide additional evidence that drugs targeting the Vpu TM/ion channel can be effective anti-HIV-1 drugs. (c) 2005 Elsevier Inc. All rights reserved.