Earlier studies on HIV-1 strains from HIV-1-infected long-term nonprogressors (LTNP) have reported that nef deletions and/or attenuations may be crucial in the survival of these patients. Other reports have suggested that the nef gene may not be the only gene involved, but attenuations in other accessory genes (vif, vpr, vpu), which play an important role in the viral life cycle, may be similarly important in chronic HIV-1 infection in LTNPs. Here we show the molecular and phylogenetic analyses of the vpr gene in HIV-1 strains derived from both blood and plasma of an HIV-1 infected long-surviving mother-child pair which has survived for > 13 years with HIV infection: both have maintained stable CD4+ T-cell counts. Analyses of blood-and plasma-derived HIV-1 vpr clones indicated the presence of defects (insertions and deletions) and length polymorphisms. Interestingly, all the vpr defects in PBMCs and plasma were clustered at the C-terminus of the Vpr protein, between amino acid residues 83 and 89, which has been implicated in the G2 cell cycle arrest as a step to early HIV-1 infection. In contrast, the vpr sequence analysis of HIV-1 strains derived from 30 different patients, who either died of AIDS-related illnesses or have AIDS, showed neither C-terminal defects nor length polymorphism in the vpr gene. Also, secondary structure predictions suggest that the naturally occurring mutations at the C-terminal region (aa 83-89) have the potential to affect the secondary structure of the Vpr protein. Also, in some cases, the out-of-frame mutations and the length polymorphisms affect the tat gene reading frame. Together, these mutations may have potential significance in conferring chronic HIV-1 infection in this long-surviving nonprogressing mother-child pair.
HIV type 1 viral quasispecies were amplified by polymerase chain reaction (PCR) in the hypervariable V3 region of gp120 from six different regions of the brain (right and left frontal; right and left parietal; and right and left occipital) and from the peripheral blood mononuclear cells (PBMCs) of a patient who died of AIDS dementia complex (ADC). Cloning and sequencing of the entire V3 region suggested the presence of genetically unique sequences in different regions of the brain. In contrast, the blood-derived viral quasispecies carried homogeneous sequences that were characterized by a single octapeptide crest motif (HLGPGSAF), a motif important in viral fusion. The brain-derived viral strains showed extensive sequence heterogeneity and the presence of seven different octapeptide and four different tetrapeptide crest motifs (HIGPGRAF, RIGPGRAF, HIGPGSAI, HLGPGSAF, HIGPESAI, HLGPESAI, and YLRPGSAF). In addition, the brain-derived strains were also characterized by variable net V3 loop charge and hydrophilicity, along with distinct amino acid changes specific to different brain regions. Together, the sequence and phylogenetic analyses are unique in identifying the complexity of a viral quasispecies and its independent regional evolution within the brain compartment. Uniquely divergent viral strains were identified in the frontal regions and their presence was further supported by the presence of multinucleated giant cells (characteristic of HIV encephalopathy) predominantly in the left and right frontal regions. In summary, these analyses suggest that genetically different populations of HIV-1 may be present in different brain compartments and confirm that specific neurotropic variants may exist.
In two consecutive studies, 80 subjects human immunodeficiency virus (HIV)-1-seropositive (21 asymptomatic, 6 persistent generalized lymphadenopathy, 13 AIDS-related complex, and 40 AIDS) were examined for oral lesions. Paired serum and saliva specimens were tested for HIV isolation, DNA, and antigen. HIV antigen was detected in sera from 31 patients, but not in saliva. HIV was isolated from blood mononuclear cells of 83% and saliva supernatants of 21%. In the second study of 25 patients, HIV was detected in plasma of 56% (titers, 1/10 to > 1/1000) but not in diluted saliva supernatants, even in those with severe periodontal disease. HIV DNA was detected using polymerase chain reaction in 2 of 7 saliva cell pellets and 4 of 5 blood samples. Hence, infectious HIV and DNA was found at very low concentrations in 21% and 28% of HIV-seropositive patients, respectively, at all stages of HIV infection.
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