Independent fluctuation of human immunodeficiency virus type 1 rev and gp41 quasispecies in vivo

Sequence and Functional Variation in the HIV-1 Rev Regulatory Axis

BACKGROUND

To complete its replication cycle, HIV-1 requires the nucleocytoplasmic export of intron-containing viral mRNAs. This process is ordinarily restricted by the cell, but HIV overcomes the block by means of a viral protein, Rev, and an RNA secondary structure found in all unspliced and incompletely spliced viral mRNAs called the Rev Response Element (RRE). In vivo activity of the Rev-RRE axis requires Rev binding to the RRE, oligomerization of Rev to form a competent ribonucleoprotein complex, and recruitment of cellular factors including Crm1 and RanGTP in order to export the targeted transcript. Sequence variability is observed among primary isolates in both Rev and the RRE, and the activity of both can be modulated through relatively small sequence changes. Primary isolates show differences in Rev-RRE activity and a few studies have found a correlation between lower Rev-RRE activity and slower progression of clinical disease. Lower Rev-RRE activity has also been associated with the evasion of cytotoxic T lymphocyte mediated killing.

CONCLUSION

The HIV-1 Rev-RRE regulatory axis is an understudied mechanism by which viral adaptation to diverse immune milieus may take place. There is evidence that this adaptation plays a role in HIV pathogenesis, particularly in immune evasion and latency, but further studies with larger sample sizes are warranted.

Bovine immunodeficiency virus: identification of a long terminal repeat sequence with enhanced promoter activity

We previously identified a new bovine immunodeficiency virus (BIV) trans-activator factor of transcription (Tat236) that was derived from a variant of BIV. Here, we report a new BIV long terminal repeat (LTR) sequence (LTRn) that was obtained by PCR from the DNA of cells infected with the BIV variant mentioned above. Sequence analysis indicated that the LTRn U3 region harbors three nucleic acid mutations at residue positions -194, -135 and -114 when compared to the original (wild-type) LTR sequence. Reporter gene assays indicated that LTRn promotes basal and Tat-mediated transactivation activity to levels significantly higher than those obtained with the wild-type LTR. Restoration experiments to the wild-type genotype indicated that both the -135 and -114 nucleic acid substitutions were responsible for the enhanced promoter activity of BIV LTRn.

The molecular biology of bovine immunodeficiency virus: a comparison with other lentiviruses

Bovine immunodeficiency virus (BIV) was first isolated in 1969 from a cow, R-29, with a wasting syndrome. The virus isolated induced the formation of syncytia in cell cultures and was structurally similar to maedi-visna virus. Twenty years later, it was demonstrated that the bovine R-29 isolate was indeed a lentivirus with striking similarity to the human immunodeficiency virus. Like other lentiviruses, BIV has a complex genomic structure characterized by the presence of several regulatory/accessory genes that encode proteins, some of which are involved in the regulation of virus gene expression. This manuscript aims to review biological and, more particularly, molecular aspects of BIV, with emphasis on regulatory/accessory viral genes/proteins, in comparison with those of other lentiviruses.

Correlation between viral RNA levels but not immune responses in plasma and tissues of macaques with long-standing SIVmac251 infection

Plasma virus in human immunodeficiency virus type 1/simian immunodeficiency virus (HIV-1/SIV) infection most likely results from the combination of viruses produced in different tissues. As immunological pressure may be higher in effector sites than secondary lymphoid tissues, we investigated quantitative and qualitative changes in viral RNA in blood and tissues of 10 Mamu-A*01-positive SIV-infected macaques in parallel with the frequency of CD8+ T cells recognizing the dominant Gag181-189 CM9 epitope. The plasma virus level in these macaques directly correlated with the viral RNA levels in lymph nodes, spleen, lungs, colon, and jejunum. In contrast, the frequency of the Gag181-189 CM9 tetramer did not correlate with SIV RNA levels in any compartment. We investigated the presence of viral immune escape in RNA from several tissues. The complete substitution of wild-type genotype with viral immune-escape variant within the Gag181-189 CM9 epitope was associated with low tetramer response in all tissues and blood of two macaques. In one macaque, the replacement of wild type with an immune-escape mutant was asynchronous. While the mutant virus was prevalent in blood and effector tissues (lungs, jejunum, and colon), secondary lymphoid organs such as spleen and lymph nodes still retained 80% and 40%, respectively, of the wild-type virus. These results may imply that there are differences in the immunological pressure exerted by cytotoxic T lymphocytes (CTLs) in tissue compartments of SIVmac251-infected macaques.

Pervasive genomic recombination of HIV-1 in vivo

Recombinants of preexisting human immunodeficiency virus type 1 (HIV-1) strains are now circulating globally. To increase our understanding of the importance of these recombinants, we assessed recombination within an individual infected from a single source by studying the linkage patterns of the auxiliary genes of HIV-1 subtype B. Maximum-likelihood phylogenetic techniques revealed evidence for recombination from topological incongruence among adjacent genes. Coalescent methods were then used to estimate the in vivo recombination rate. The estimated mean rate of 1.38 x 10(-4) recombination events/adjacent sites/generation is approximately 5.5-fold greater than the reported point mutation rate of 2.5 x 10(-5)/site/generation. Recombination was found to be frequent enough to mask evidence for purifying selection by Tajima's D test. Thus, recombination is a major evolutionary force affecting genetic variation within an HIV-1-infected individual, of the same order of magnitude as point mutational change.

Human immunodeficiency virus type 1 clade B superinfection: evidence for differential immune containment of distinct clade B strains

Sequential infection with different strains of human immunodeficiency virus type 1 (HIV-1) is a rarely identified phenomenon with important implications for immunopathogenesis and vaccine development. Here, we identify an individual whose good initial control of viremia was lost in association with reduced containment of a superinfecting strain. Subject 2030 presented with acute symptoms of HIV-1 infection with high viremia and an incomplete seroconversion as shown by Western blotting. A low set point of viremia (approximately 1,000 HIV-1 copies/ml) was initially established without drug therapy, but a new higher set point (approximately 40,000 HIV-1 copies/ml) manifested about 5 months after infection. Drug susceptibility testing demonstrated a multidrug-resistant virus initially but a fully sensitive virus after 5 months, and an analysis of pol genotypes showed that these were two phylogenetically distinct strains of virus (strains A and B). Replication capacity assays suggested that the outgrowth of strain B was not due to higher fitness conferred by pol, and env sequences indicated that the two strains had the same R5 coreceptor phenotype. Delineation of CD8+-T-lymphocyte responses against HIV-1 showed a striking pattern of decay of the initial cellular immune responses after superinfection, followed by some adaptation of targeting to new epitopes. An examination of targeted sequences suggested that differences in the recognized epitopes contributed to the poor immune containment of strain B. In conclusion, the rapid overgrowth of a superinfecting strain of HIV-1 of the same subtype raises major concerns for effective vaccine development.

Human immunodeficiency virus type 1 superinfection was not detected following 215 years of injection drug user exposure

Evidence for human immunodeficiency virus type 1 (HIV-1) superinfection was sought among 37 HIV-1-positive street-recruited active injection drug users (IDUs) from the San Francisco Bay area. HIV-1 sequences from pairs of samples collected 1 to 12 years apart, spanning a total of 215 years of exposure, were generated at p17 gag, the V3-V5 region of env, and/or the first exon of tat and phylogenetically analyzed. No evidence of HIV-1 superinfection was detected in which a highly divergent HIV-1 variant emerged at a frequency >20% of the serum viral quasispecies. Based on the reported risk behavior of the IDUs and the HIV-1 incidence in uninfected subjects in the same cohort, a total of 3.4 new infections would have been expected if existing infection conferred no protection from superinfection. Adjusted for risk behaviors, the estimated relative risk of superinfection compared with initial infection was therefore 0.0 (95% confidence interval, 0.00, 0.79; P = 0.02), indicating that existing infection conferred a statistically significant level of protection against superinfection with an HIV-1 strain of the same subtype, which was between 21 and 100%.

Rev activity determines sensitivity of HIV-1-infected primary T cells to CTL killing

The HIV Nef protein is thought to promote HIV immune evasion by downmodulating MHC-I and protecting infected cells from CTL killing. In addition, we demonstrated that Rev, an HIV regulatory protein needed for expression of the HIV late genes, can influence CTL killing. When Rev activity level was reduced by virtue of amino acid alterations in the Rev protein sequence, infected cells were more resistant to anti-Gag and anti-Env CTL killing. A screen of primary viral isolates revealed that viruses derived from asymptomatic, infected people had lower Rev activity, lower Gag levels, and greater resistance to anti-Gag CTL killing. Thus, rev alleles with low activity may have a selective advantage in infected people with effective immune responses.

Phylogenetic reconstruction of intrapatient evolution of human immunodeficiency virus type 1: predominance of drift and purifying selection

The intra-host evolution of 73 human immunodeficiency virus type 1 quasispecies was analysed by split decomposition analysis. Non-synonymous and synonymous nucleotide substitutions were counted along the shortest path connecting all sequences and compared with the numbers expected under the assumption of a random model of mutation. For the majority of substitutions, drift and negative selection seemed to prevail.

The Emergence and Epidemiology of Resistance in the Nucleoside-Experienced HIV-Infected Population

HIV drug resistance remains one of the most important influences on long-term therapeutic prospects. Resistance and therapeutic failure arises out of the selection and preservation of randomly generated genomic mutations that confer a replicative advantage in the presence of one or more antiretrovirals. The primary correlate to the time to emergence of a drug-resistant HIV variant is the extent of residual replication under selecting drug pressure, emphasizing the importance of full virological suppression to long-term therapy. Further contributions to the time to emergence are the degree of selective pressure exerted by a given drug, whereby greater potency forces earlier selection of mutant strains in balance with the extent of residual replication, and the degree of reduced drug susceptibility afforded by a particular mutation. Once evolved, drug-resistant strains can persist indefinitely as minority viral populations or archived genomes in latently infected CD4 cells, despite long-term withdrawal of the selecting drugs, to re-emerge rapidly on rechallenge with those or any cross-resistant drug. Variable adherence to medication in the routine clinical setting has given rise to resistance mutations being observed in some 50–60% of those with detectable viral loads on therapy in countries where anti-retroviral therapy has been widely available. Nucleoside reverse transcriptase inhibitor-associated mutations form the majority of these, and the long and almost universal use of zidovudine and stavudine has led to mutations selected by these drugs being the most common observed, along with the primary lamivudine resistance mutation M184V. Transmission of drug-resistant HIV in cases of new infection has also been widely studied, and although the extent is considerably lower than that in the treated population (typically 4–10% outside certain geographic areas), early data suggest that it is rising over time as the infected source population becomes more therapy-experienced. Once again, mutations from zidovudine or, to a lesser extent, stavudine exposure form the majority of mutations observed in cases of primary transmission. These data are a cause for concern, and imply that, as things stand, the use of a drug resistance test may become as important to the design of an effective first-line highly active antiretroviral therapy regimen as they have become for selecting new drugs on therapeutic failure.

Genetic variability of human immunodeficiency virus type 2 C2V3 region within and between individuals from Bissau, Guinea-Bissau, West Africa

The V3 loop of both HIV-1 and HIV-2 is characterized by a high degree of genetic variation. To investigate the spectrum of HIV-2 variability in nature we have focused on the C2V3 region of Env and analyzed 108 viral sequences obtained from uncultured peripheral blood mononuclear cells obtained from 16 HIV-2-seropositive individuals from Bissau (Guinea-Bissau). The estimated values of genetic divergence between individuals were higher than those calculated from sequence information collected in a single individual. We have also found that the sequences surrounding the V3 loop contribute significantly to the overall genetic diversity of the C2V3 region of HIV-2 gp105, while the V3 loop itself seems to be rather conserved. Phylogenetic analysis demonstrated that all the individuals enrolled in this study were infected with HIV-2 subtype A viruses.

Quasispecies development of Helicobacter pylori observed in paired isolates obtained years apart from the same host

Helicobacter pylori isolates show greater genetic diversity than other bacterial species studied, but the basis for this phenomenon is unknown. Whether detectable genomic mutation appears within an H. pylori population during persistent colonization was investigated. Paired H. pylori populations obtained across 7- to 10-year intervals from 13 patients were characterized by use of methods including polymerase chain reaction (PCR) genotyping for cagA, vacA, iceA, recA, and IS605; random arbitrarily primed DNA (RAPD)-PCR and amplified fragment length polymorphism (AFLP) analysis; and ELISA, to determine Lewis phenotypes. Genotyping, including recA sequence analysis, revealed that initial and follow-up populations represented the same population in 11 patients (85%). Nevertheless, distinct dissimilarities were shown within each of these 11 pairs by both RAPD-PCR and AFLP analyses. During follow-up, Lewis-y levels, but not Lewis-x levels, decreased significantly. The changes detected by RAPD-PCR and AFLP indicate that genetic drift occurs within H. pylori populations over the course of years of colonization of a single host.

Extensive diversification of human immunodeficiency virus type 1 subtype B strains during dual infection of a chimpanzee that progressed to AIDS

A chimpanzee (C-499) infected for more than 9 years with two subtype B isolates of human immunodeficiency virus type 1 (HIV-1), one (HIV-1(SF2)) that replicates poorly and one (HIV-1(LAV-1b)) that replicates efficiently in chimpanzees, died of AIDS 11 years after initial infection (F. J. Novembre et al., J. Virol. 71:4086-4091, 1997). Nucleotide sequence and phylogenetic analyses of the C2 to V5 region of env (C2-V5env) in proviral DNA from peripheral blood lymphocytes obtained 22 months before death revealed two distinct virus populations. One of these populations appeared to be a recombinant in env, having the V3 loop from HIV-1(SF2) and the V4-V5 region from HIV-1(LAV-1b); the other population had evolved from HIV-1(LAV-1b). In addition to C2-V5env, the entire p17gag and nef genes were sequenced; however, based on nucleotide sequences and phylogeny, whether the progenitor of the p17gag and nef genes was SF2 or LAV-1b could not be determined. Compared to the two original viruses, the divergence of all clones of C2-V5env ranged from 9.37 to 20.2%, that of p17gag ranged from 3.11 to 9.29%, and that of nef ranged from 4.02 to 7.9%. In contrast, compared to the maximum variation of 20.2% in C2-V5env for C-499, the maximum diversities in C2-V5env in proviruses from two chimpanzees infected with HIV-1(LAV-1b) for 9 and 10 years were 9.65 and 2.48%, respectively. These results demonstrate that (i) two distinct HIV-1 populations can coexist and undergo extensive diversification in chimpanzees with progressive HIV-1-induced disease and (ii) recombination between two subtype B strains occurred even though the second strain was inoculated 15 months after the first one. Furthermore, evaluation of env genes from three chimpanzees infected with the same strain suggests that the magnitude of HIV-1 diversification could be related to higher viral burdens, manifestations of disease, and/or dual infection.

The cell tropism of human immunodeficiency virus type 1 determines the kinetics of plasma viremia in SCID mice reconstituted with human peripheral blood leukocytes

Most individuals infected with human immunodeficiency virus type 1 (HIV-1) initially harbor macrophage-tropic, non-syncytium-inducing (M-tropic, NSI) viruses that may evolve into T-cell-tropic, syncytium-inducing viruses (T-tropic, SI) after several years. The reasons for the more efficient transmission of M-tropic, NSI viruses and the slow evolution ofT-tropic, SI viruses remain unclear, although they may be linked to expression of appropriate chemokine coreceptors for virus entry. We have examined plasma viral RNA levels and the extent of CD4+ T-cell depletion in SCID mice reconstituted with human peripheral blood leukocytes following infection with M-tropic, dual-tropic, or T-tropic HIV-1 isolates. The cell tropism was found to determine the course of viremia, with M-tropic viruses producing sustained high viral RNA levels and sparing some CD4+ T cells, dual-tropic viruses producing a transient and lower viral RNA spike and extremely rapid depletion of CD4+ T cells, and T-tropic viruses causing similarly lower viral RNA levels and rapid-intermediate rates of CD4+ T-cell depletion. A single amino acid change in the V3 region of gp120 was sufficient to cause one isolate to switch from M-tropic to dual-tropic and acquire the ability to rapidly deplete all CD4+ T cells.

Genetic drift can dominate short-term human immunodeficiency virus type 1 nef quasispecies evolution in vivo

The evolution of human immunodeficiency virus (HIV) type 1 nef quasispecies in a patient clonally infected with a contaminated batch of blood clotting factor IX was monitored. nef sequences were derived at 11, 25, and 41 months postinfection from infected peripheral blood mononuclear cells after molecular cloning of PCR-amplified proviral DNA. The phylogenetic relationships among a total of 41 informative sequences were established by split decomposition analysis and used as a basis to establish a substitution matrix and to score synonymous (s) and nonsynonymous (ns) substitutions. The number of observed in-phase stop codons within the nef sequences was comparable to that expected on a random basis. Similarly, the numbers of observed s and ns substitutions did not differ significantly from expected values. No codon position was preferentially mutated. The maximum sequence divergence increased in a linear manner, with approximately 4.4 nucleotide and approximately 3.2 amino acid changes per year. It appears that stochastic processes strongly influence short-term HIV nef quasispecies evolution in vivo.

Lentiviral genomes with G-to-A hypermutation may result from Taq polymerase errors during polymerase chain reaction

Retroviral genomes with a high frequency of G-to-A mutations are thought to originate during reverse transcription. Here we show that bursts of G-to-A mutation may also occur during DNA synthesis by Taq polymerase on a simian immunodeficiency proviral template. These G-to-A changes tend to occur at GpA and, to a lesser extent, GpG dinucleotides. Because the resulting sequences are like previously reported hypermutant human and simian immunodeficiency virus (HIV and SIV) genomes, it is important to design experiments that can clearly discriminate between Taq and reverse transcripts errors in studies of lentiviral G-to-A hypermutation.

Pattern of gp120 sequence divergence linked to a lack of clinical progression in human immunodeficiency virus type 1 infection

Differential rates of AIDS development and/or T4 lymphocyte depletion in HIV-1-infected individuals remain unexplained. The hypothesis that qualitative differences in selection pressure in vivo may account for different rates of disease progression was addressed in nine eligible study participants from a cohort of 315 homosexual men who have been followed since 1985. Disproportionately fewer changes in variable regions and more in C3 of gp12O were found to be significantly associated with slower disease progression. Our finding provides the first example to demonstrate that differential selection pressure related to the emergence of HIV-1 variants is associated with long term nonprogression. Candidate vaccines that elicit strong selection pressure on C3 of gp120 are likely to provide better protection than those targeting variable regions.

Inhibition of HIV-1 expression by HIV-2

HIV-1 and HIV-2 are co-endemic in certain geographic areas. HIV-2 is more weakly pathogenic than HIV-1, and progression to AIDS occurs less frequently and over a longer period of time. Recent epidemiologic studies suggest that individuals infected with HIV-2 have a lower risk of HIV-1 infection. Both immune mechanisms and various modes of viral interference have been proposed to account for these results. Our findings, described in this paper, suggest that HIV-2 inhibits HIV-1 replication. To study the molecular interactions between HIV-1 and HIV-2, proviral clones were transfected alone or in combination into the human T cell line CEM. LTR-CAT indicator constructs were included for the purpose of monitoring viral promoter activity. Viral replication in transfected cells was monitored by p24 antigen capture assay of cell culture supernatants and Western blot analysis of cell extracts. HIV-2 inhibited HIV-1 replication as determined by intracellular and extracellular p24 antigen levels. Similar results were obtained with simultaneous virus infection using HIV-1 and HIV-2, rather than transfections of proviral DNA. Using cotransfection of HIV-1 and HIV-2 LTR indicator gene constructs, the mechanism of inhibition was found to be suppression of the HIV-1 LTR by HIV-2. The inhibitory effect of HIV-2 is not due to Tat-2, but appears to discriminate between the HIV-1 and HIV-2 LTRs based on differences in the Tat activation response element, TAR. These results suggest both a molecular mechanism for HIV-2 interference with HIV-1 replication and a potential molecular approach to therapy.

Involvement of a spliced and defective human foamy virus in the establishment of chronic infection

Human foamy retrovirus (HFV) is found as two proviruses (HFV and delta HFV) which differ by a splice-induced deletion within the bel1 transactivator gene. The defective delta HFV (which lacks a functional Bel1 but harbors an intronless bet gene) is predominantly found in nonlytic infections in vitro as well as in vivo. Here, we show that infection of cell lines stably transduced by delta HFV DNA with the highly lytic HFV leads to chronic infections characterized by an absence of lysis, a balanced ratio of HFV to delta HFV, and a persistent Bet expression accompanied by a shutoff of structural genes. While this system only partially reflects the natural situation, in which target cells are infected by HFV and delta HFV simultaneously, it strongly suggests that delta HFV is a defective interfering retrovirus. Accordingly, previous or concomitant exposure to delta HFV viruses greatly enhances the formation of lysis-resistant clones in culture after HFV infection. The inability of delta HFV proviruses encoding a mutated bet gene to induce chronic infection suggests a role for Bet in this process. Through a specific, splice-induced, genomic deletion, resulting in a switch from Bel1 to Bet expression, the lytic properties of HFV are progressively lost. Such programmed inactivation of a key gene represents a new regulatory mechanism of gene expression in retroviruses.

Residual expression of reporter genes in constructs mimicking HIV genome organization

Plasmids were constructed whereby the expression of a reporter gene, either the cDNA corresponding to the secreted form of human alkaline phosphatase (SEAP) or the herpes simplex virus type 1 (HSV1) thymidine kinase (tk) gene, was rendered dependent upon the expression of the human immunodeficiency virus type 1 (HIV1) tat and rev proteins. The SEAP or tk genes were placed between HIV1 splice donor and acceptor sites. One SEAP construct carried a series of alternating splice donor and acceptor sites. In all cases, the rev response element mapped within an intron. Despite such mimicry of the HIV1 genome, residual expression of the reporter gene in the absence of tat and rev was observed. These results, as well as non-specific T-cell recruitment, suggest limits to the specificity of using HIV-activated toxic gene expression to kill HIV-infected cells.

Molecular characterization of human immunodeficiency virus type 1 isolates from Venezuela

Eight HIV-1 isolates from Venezuela have been characterized by nucleotide sequencing of the entire reverse transcriptase (RT)- and surface glycoprotein (gp 120)-coding regions. Average mutant frequencies were 2.5 x 10(-2) substitutions per nucleotide (s/nt) for the RT-coding region, and 10 x 10(-2) or 6.8 x 10(-2) s/nt for the gp120-coding region, depending on whether gaps introduced for optimal alignment were or were not, respectively, considered in the calculations. Phylogenetic trees were derived by maximum-likelihood, neighbor-joining, and maximum parsimony methods. In the trees derived from both RT- and gp120-coding regions, Venezuelan isolates cluster with subtype B viruses. However, the relative position of some of the isolates is considerably different in the two trees. Unique V3 loop amino acid sequences, not represented in the current database, have been identified among the Venezuelan isolates. In addition to representing the first molecular characterization of HIV-1 from Venezuela, the extensive genetic heterogeneity observed reinforces the interest in characterizing additional HIV-1 isolates worldwide for adequate vaccine design.

Sequence analysis of proviral HIV RT amplified directly by a semi-quantitative technique from AZT treated patients

To minimise possible arbitrary selective effects of culturing HIV, proviral RT DNA was isolated directly from PBMCs of four patients treated for 6-14 months with AZT. RT DNA was amplified by PCR and sequenced directly without further in vitro manipulation. Eighteen changes additional to those 4 or 5 changes previously shown by genetic reconstruction experiments [Kellam et al.: Proceedings of the National Academy of Sciences of the United States of America 89:1934-1938, 1992] were found in the 14 different sequences analysed. Substitutions clustered in two defined areas of the RT, from amino acids 60 to 70 and from 180 to 220. Mutations were observed at each of the two areas independently or at both sites simultaneously. Amino acid changes in RT from patients harbouring resistant strains of HIV-1 were found in positions 60 (Val), 62 (Ala), 93 (Gly), 100 (Phe), 161 (Pro), 173 (Asn), 177 (Glu), 180 (Ile), 181 (Tyr), 182 (Leu), 186 (Asp), 194 (Gln), 196 (Glu), 200 (Ile), 209 (Val), 210 (Trp), 211 (Lys), and 214 (Phe) in addition to those described previously. It was anticipated that multiple proviral DNAs would be present in a single clinical sample. Therefore end point dilution PCR methodology was used, which allowed sequence analysis of separate proviral DNA molecules from the patients' proviral DNA. Even in patients who had received AZT for more than 10 months wild-type "AZT-sensitive" RTs co-existed with mutated "AZT-resistant" RTs in the same patient sample.

The origin of human immunodeficiency virus type-1 rev gene. An evolutionary hypothesis

The Rev protein of human immunodeficiency virus type-1 is an RNA-binding posttranscriptional transregulator encoded by an accessory gene that is distinct from retroviral oncogenes and whose origin is unclear. We hypothesize that the rev gene was generated by duplication of a viral RNA segment having a secondary-structure that evolved into the Rev-responsive element (RRE). This hypothesis is based on the following findings. First, accumulated data on functional mapping of Rev, Tat, and the transmembrane protein of Env suggested that the major coding exon of rev should have been inserted into the transmembrane region of env during the course of its evolution. Experiments with equine infectious anemia virus, another complex retrovirus, also indicate that a large portion of rev is located within the dispensable transmembrane region of env. Second, base usage analysis suggests the same origin for rev and RRE. Our hypothesis may provide a new insight into the evolutionary aspect of RNA-binding transactivators.

Persistence of multiple maternal genotypes of human immunodeficiency virus type I in infants infected by vertical transmission

The extent of nucleotide variation within the HIV-1 env hypervariable domains serves as a marker of virus genotypes within infected individuals and as a means to track transmission of the virus between individuals. We analyzed env V1 and V2 sequences in longitudinal samples from two HIV-1-infected mothers, each with three children infected by maternal transmission of the virus. Sequences in samples that were obtained from two infants at 2 d and 4 wk after birth displayed more variation in V1 and V2 than maternal samples obtained at the same times. Multiple HIV-1 genotypes were identified in each mother. In each family, multiple maternal HIV-1 genotypes were transmitted to the infants. Specific amino acid residues in the hypervariable domains were conserved within sequences from each family producing a family-specific amino acid signature pattern in V1 and V2. Viruses that were highly related to maternal viruses in signature pattern persisted for as long as 4 yr in the older children. Results support a model of transmission involving multiple HIV-1 genotypes with development of genetic variation from differential outgrowth and accumulation of genetic changes within each individual.

Sequence variation within the human immunodeficiency virus V3 loop at seroconversion

Analysis of the HIV-1 V3 quasispecies present in an individual at the time of seroconversion was carried out. The polymerase chain reaction (PCR) was used to amplify proviral HIV-1 DNA extracted from peripheral blood mononuclear cells from a patient who was viraemic (p24 = 15 pg/ml) and had an equivocal HIV-1 antibody status. The PCR products were cloned and the DNA sequence determined for 15 clones. These data showed that the V3 region contained only limited sequence heterogeneity with a major variant accounting for 66% of the protein quasispecies present. The protein sequence of the principal neutralising domain on all species contained the relatively rare GPGKTL motif rather than GPGRAF. The relevance of these data for early stages of HIV infection are discussed.

An individual with a high prevalence of a tat-defective provirus in peripheral blood

The first exon of tat was sequenced from 23 provirus genomes randomly amplified directly from an HIV-1-infected individual's peripheral blood. Twelve of the 23 sequences constituted a distinct subset of the quasi-species detected. This subset had in common two inactivating mutations in the tat gene. In addition, two of these defective genomes each had a unique mutation. This is the second instance of a defective early gene being present in a high percentage of the proviruses present in the PBMCs of an HIV-1-infected individual, (the first reported by Martins LP et al.: J Virol 1991;65:4502-4507), and suggests that genomes defective in an early gene can participate in the infectious spread of HIV-1 in vivo.

Increasing antigenic and genetic diversity of the V3 variable domain of the human immunodeficiency virus envelope protein in the course of the AIDS epidemic

Population-wide variation in genomic RNA of human immunodeficiency virus type 1 (HIV-1) encompassing the V3 loop of the envelope protein was studied in serum samples of 74 newly infected individuals from three Dutch cohorts: 30 homosexual men, 32 drug users, and 12 hemophiliacs. During acute infection, HIV-1 RNA sequences present in serum are relatively homogeneous, which makes direct sequencing feasible. This offered an opportunity to study the infecting virus variants before mutations had accumulated in the new host. The sampling dates ranged from 1980 to 1991, thus spanning the entire AIDS epidemic in The Netherlands. The diversity in the sequenced region increased over time in both the homosexual and the drug-user risk groups. Furthermore, this increase was associated with an increase in antigenic variation, as witnessed by serum reactivity to a V3 peptide panel. Despite this diversification, some 1990 sequences still closely resembled the earliest 1980 sequence, making ancestral inferences problematic. No evidence was found of a change in the master sequence of the virus quasi-species over time. At the amino acid level, no risk-group-associated variation was found, but at the nucleotide level, the drug-user and homosexual/hemophiliac sequences could be distinguished on the basis of a single silent nucleotide change in the sequence encoding the tip of the V3 loop. Hemophiliac sequences could not be distinguished from those of homosexuals. In spite of the large and increasing genetic variability, all sequences were more similar to the European/American HIV consensus sequence than to that of non-Western strains.

Analysis of human immunodeficiency virus type 1 nef gene sequences present in vivo

The nef genes of the human immunodeficiency viruses type 1 and 2 (HIV-1 and HIV-2) and the related simian immunodeficiency viruses (SIVs) encode a protein (Nef) whose role in virus replication and cytopathicity remains uncertain. As an attempt to elucidate the function of nef, we characterized the nucleotide and corresponding protein sequences of naturally occurring nef genes obtained from several HIV-1-infected individuals. A consensus Nef sequence was derived and used to identify several features that were highly conserved among the Nef sequences. These features included a nearly invariant myristylation signal, regions of sequence polymorphism and variable duplication, a region with an acidic charge, a (Pxx)4 repeat sequence, and a potential protein kinase C phosphorylation site. Clustering of premature stop codons at position 124 was noted in 6 of the 54 Nef sequences. Further analysis revealed four stretches of residues that were highly conserved not only among the patient-derived HIV-1 Nef sequences, but also among the Nef sequences of HIV-2 and the SIVs, suggesting that Nef proteins expressed by these retroviruses are functionally equivalent. The "Nef-defining" sequences were used to evaluate the sequence alignments of known proteins reported to share sequence similarity with Nef sequences and to conduct additional computer-based searches for similar protein sequences. A gene encoding the consensus Nef sequence was also generated. This gene encodes a full-length Nef protein that should be a valuable tool in further studies of Nef function.

Independent variation and positive selection in env V1 and V2 domains within maternal-infant strains of human immunodeficiency virus type 1 in vivo

Multiple targets for immune recognition and cellular tropism are localized to the V1 and V2 hypervariable regions in the amino portion of human immunodeficiency virus type 1 (HIV-1) gp120env. We have assessed genetic diversity in env V1 and V2 hypervariable domains in vivo within epidemiologically related strains of HIV-1. Our strategy was to analyze longitudinal samples from two seropositive mothers and multiple children infected by perinatal transmission. Although the V1 and V2 domains are closely linked in the HIV-1 genome, nucleotide sequences in V1 and in V2 evolved independently in maternal-infant viruses in vivo. A high proportion of the nucleotide substitutions would introduce amino acid diversity in V1 and in V2. A significant excess of nonsynonymous over synonymous substitutions was identified in HIV-1 env V1 and V2 peptides in the mothers and in two older children but was not generally apparent in HIV-1 sequences in infants. An excess of nonsynonymous over synonymous substitutions indicated that there is positive selection for independent genetic variation in the V1 and V2 domains in vivo. It is likely that there are host responses to complex determinants in the V1 or V2 hypervariable domain of HIV-1 gp120.

Selection for specific sequences in the external envelope protein of human immunodeficiency virus type 1 upon primary infection

Viral RNA was extracted from plasma samples collected from five individuals during the period of viremia before seroconversion in primary infection with human immunodeficiency virus type 1 (HIV-1) and amplified by polymerase chain reaction. Nucleotide sequence analysis of amplified DNA from the V3 and V4 hypervariable regions indicated that the initial virus population of each acutely infected individual was completely homogeneous in sequence. No intrasample variability was found among the 44,090 nucleotides sequenced in this region of env, contrasting with the high degree of variability normally found in seropositive individuals. Paradoxically, substantial sequence variability was found in the normally high conserved gag gene (encoding p17) in most of the preseroconversion samples. The diversity of p17 sequences in samples that were homogeneous in V3 and V4 can most readily be explained by the existence of strong selection for specific env sequences either upon transmission or in the interval between exposure and seroconversion in the exposed individual. Evidence that localizes the selected region upon transmission to V3 is provided by the similarity or identity of V3 loop sequences in five individuals with epidemiologically unrelated HIV-1 infections, while regions flanking the V3 loop and the V4 hypervariable region were highly divergent. The actual V3 sequences were similar to those associated with macrophage tropism in primary isolates of HIV, irrespective of whether infection was acquired by sexual contact or parenterally through transfusion of contaminated factor VIII. Proviral DNA sequences in peripheral blood mononuclear cells remained homogeneous in the V3 and V4 regions (and variable in p17gag) for several months after seroconversion. The persistence of HIV sequences in peripheral blood mononuclear cells identical to those found at primary infection in the absence of continued virus expression provides an explanation for the previously observed differences in the composition of circulating DNA and RNA populations in sequential samples from seropositive individuals.

Pathogenesis of human immunodeficiency virus infection

The lentivirus human immunodeficiency virus (HIV) causes AIDS by interacting with a large number of different cells in the body and escaping the host immune response against it. HIV is transmitted primarily through blood and genital fluids and to newborn infants from infected mothers. The steps occurring in infection involve an interaction of HIV not only with the CD4 molecule on cells but also with other cellular receptors recently identified. Virus-cell fusion and HIV entry subsequently take place. Following virus infection, a variety of intracellular mechanisms determine the relative expression of viral regulatory and accessory genes leading to productive or latent infection. With CD4+ lymphocytes, HIV replication can cause syncytium formation and cell death; with other cells, such as macrophages, persistent infection can occur, creating reservoirs for the virus in many cells and tissues. HIV strains are highly heterogeneous, and certain biologic and serologic properties determined by specific genetic sequences can be linked to pathogenic pathways and resistance to the immune response. The host reaction against HIV, through neutralizing antibodies and particularly through strong cellular immune responses, can keep the virus suppressed for many years. Long-term survival appears to involve infection with a relatively low-virulence strain that remains sensitive to the immune response, particularly to control by CD8+ cell antiviral activity. Several therapeutic approaches have been attempted, and others are under investigation. Vaccine development has provided some encouraging results, but the observations indicate the major challenge of preventing infection by HIV. Ongoing research is necessary to find a solution to this devastating worldwide epidemic.

Simian immunodeficiency virus (mac 251-32H) transmembrane protein sequence remains conserved throughout the course of infection in macaques

Two cynomolgus macaques were infected with a genetically complex challenge stock of simian immunodeficiency virus (SIVmac251-32H). The polymerase chain reaction (PCR) was used to amplify the env gp41, rev, and nef overlapping coding sequences from provirus present in the blood of both animals at 1, 6, and 15 months post infection (p.i.). The predominant, env sequences found in both animals at the three time points were very similar to that found in the original 11/88 challenge stock. The functionally important hydrophobic fusion and membrane-spanning domains within gp41 remained conserved throughout the course of infection. Nucleotide variation within the region corresponding to the REV response element (RRE) was limited to four positions, none of which were predicted to cause any significant disruption to the secondary structure of the RRE. Very little genetic variation was observed in and around the cluster of potential glycosylation sites of the external portion of gp41. However, the existence of a previously assigned variable region elsewhere in the cytoplasmic domain of gp41 was confirmed. The three gene loci (env, rev, and nef) examined varied independently. All changes in the predominant protein sequences were brought about by single nucleotide substitutions only. After 15 months of infection with SIV, 1 animal was sick from SIV-induced disease whereas the other remained healthy. In-frame stop codons within the transmembrane protein occurred with a much greater frequency in the healthy animal.

Pathogen evolution within host individuals as a primary cause of senescence

This paper discusses a novel theory of senescence: the community of pathogens within each host individual evolves during the life-time of the host, and in doing so progressively reduces host vigour. I marshal evidence that asymptomatic host individuals maintain persistent populations of viral pathogens; that these pathogens replicate; that they are often extremely variable; that selection within hosts causes the evolution of pathogens better able to exploit the host; that selection is host-specific; and that such evolving infections cause appreciable and progressive deterioration. Experimental approaches to testing the theory are discussed.

Complex intrapatient sequence variation in the V1 and V2 hypervariable regions of the HIV-1 gp 120 envelope sequence

Human immunodeficiency virus (HIV) quasi-species fluctuate both in time and in space. In general intrapatient variation is less extensive than interpatient variation. The V1 and V2 hypervariable regions of the envelope gene were analyzed for patient samples harboring highly divergent genomes in other loci. Proviral sequences were amplified by PCR, cloned, and sequenced. It was concluded that intrapatient variation may exceed interpatient variation but the presence of two clearly distinct populations was not confirmed. The env hypervariable regions appeared to be evolving independently of one another, cautioning against extrapolation of data, particularly from the V3 region. Virus typing and the assessment of HIV superinfection by genetic methods will prove difficult and experimental approaches will have to be carefully designed.

Amplimers with 3'-terminal phosphorothioate linkages resist degradation by vent polymerase and reduce Taq polymerase mispriming

The 3'-->5' exonuclease activity of Vent, a thermostable polymerase from Thermococcus litoralis, enhances DNA replication fidelity but also diverts PCR primers (amplimers) from targeted amplification by degrading their 3' termini. We demonstrate that amplimers with a 3-base 3'-terminal mismatch can be efficiently truncated by Vent to prime DNA polymerizations that compete with the specific amplification reaction. However, amplimers with phosphorothioate bonds joining their 3'-terminal residues are resistant to degradation and demonstrate greatly enhanced priming specificity. Slight destabilization of base-pairing by phosphorothioate bond-linked residues also diminishes extension of mispaired 3' amplimer termini in Taq polymerase-mediated amplifications.

Nonhomogeneous distribution of human immunodeficiency virus type 1 proviruses in the spleen

A nonhomogeneous spatial distribution of human immunodeficiency virus type 1 proviruses in an infected spleen was observed. Antigenic stimulation of infected cells might explain this partition.

Development of a quasispecies of human immunodeficiency virus type 1 in vivo

During treatment with one specific batch of blood clotting factor IX, a number of hemophilia B patients in Germany recently became infected with human immunodeficiency virus type 1 (HIV-1). The nucleotide sequences of cloned HIV-1 envelope gene regions including the variable V3 loop and the V4 region derived from short-term virus cultures and directly from peripheral blood cells of these patients were shown to be highly homologous. Based on the assumption that the corresponding consensus sequence (termed HIV-1MBK) was identical to the genotype of the initially infecting virus, we were able to construct phylogenetic trees of the developing quasispecies in two patients studied in detail. True intermediates between input and multiply mutated genotypes were found in individual blood samples. Except for the initially infecting variant HIV-1MBK, variants found at 11 months postinfection had replaced those seen at 5 months postinfection. Variability early after infection was shown to cluster in two small regions located 3' of the V3 loop (i.e., outside the loop) and within the V4 region. This communication therefore describes the evolution of an HIV-1 quasispecies in humans starting from a single genotype.

Absence of selection of HIV-1 variants in vivo based on transcription/transactivation during progression to AIDS

The activity of the human immunodeficiency virus type 1 (HIV-1) transactivation protagonists tat and TAR has been analyzed from sequential primary material. The sequences were amplified from uncultured peripheral blood mononuclear cells. Despite fluctuations within the tat and TAR quasispecies there was no obvious selection for a variant encoding more powerful transactivation components either in vivo or ex vivo, indicating that this system is not exploited during disease progression. The basal levels of the natural promoters were, depending on the cell line, two- to fourfold higher than that of the reference promoter, itself derived from ex vivo adapted HIV-1 Lai.

Strand specific PCR amplification of low copy number DNA

A method for the amplification of a single DNA strand at low copy number is described. It is a wholly PCR based approach which involves an initial linear amplification of the target using a tagged strand specific primer. This is followed by classical PCR amplification of the progeny using a pair of primers, one specific for the sequence tagged onto the 5' end of the first round primer, the second specific for the target sequence. Given the protocol used the ratio of the two strands in the final amplification product was 50:1.

Genetic variation and quasi-species

During the past year the relative fitness, that is, overall replication ability, and the fitness gain of animal virus variants have been quantified, providing new insight into the dynamics for the generation of RNA virus quasi-species. Measurements of mutant frequencies and rates of genetic diversification have confirmed the extreme complexity of RNA virus and retrovirus populations.