The accuracy of reverse transcriptase from HIV-1

Variants selected by treatment of human immunodeficiency virus-infected cells with an immunotoxin

An immunotoxin has been made by coupling anti-human immunodeficiency virus (HIV) envelope antibody 907 to ricin A chain (907-RAC). 907 recognizes an epitope within the immunodominant PB-1 loop of gp120. Variant cells were selected by cloning persistently infected H9/human T lymphocyte virus IIIB cells in the presence of the immunotoxin. Clones resistant to 907-RAC arose at a frequency of 0.1-1.0%. Seven clones were selected for intensive analysis. When studied, these clones fell into two distinct groups, members of which appeared to be identical, suggesting that the variation arose before the selection process. In contrast to the parent cells, none of the cloned variants produced infectious HIV. The first set of clones, designated the "E" variants, expressed decreased levels of the HIV envelope on the cell surface. However, levels of intracellular HIV antigens and reverse transcriptase were equal to or greater than that of the parental cell line. Radioimmunoprecipitation demonstrated that the gp160 was truncated to 145 kD (gp120 was normal length), capable of binding to CD4, and, unlike normal gp160, was released in its unprocessed form into the cellular supernatant. Sequence analysis demonstrated that a deletion at codon 687 of the envelope gene resulted in the production of this truncated protein. Ultrastructural analysis of E variants demonstrated some budding forms of virus, but also large numbers of HIV within intracellular vesicles. The second set of variants, the "F" series, produced no HIV antigens, reverse transcriptase, nor was there ultrastructural evidence of virus. However, proviral DNA was present. Virus could not be induced with agents known to activate latent HIV. These cells also lacked cell surface CD4 and could not be infected with HIV. These studies demonstrate that variation in HIV can affect the phenotype of the cells carrying the altered virus, allowing for escape from immunologic destruction. The E variants may serve as prototypes for attenuated HIV, which could be used as a vaccine. We have reconstructed the mutation found in the E variants within the infectious HIV clone HXB-2 and demonstrated that the resulting virus retains its noninfectious phenotype.

Broad spectrum of in vivo forward mutations, hypermutations, and mutational hotspots in a retroviral shuttle vector after a single replication cycle: substitutions, frameshifts, and hypermutations

We determined the in vivo forward mutation rate in a single replication cycle for spleen necrosis virus (SNV). A method was developed to clone integrated proviruses of retroviral shuttle vectors by exploiting the tight binding of the lac operator to the lac repressor protein. The vectors contained the lacZ alpha gene as a reporter of mutations. Thirty-seven of the 16,867 proviruses recovered contained five classes of mutations, including substitutions and frameshifts. Runs of 9 and 10 identical base pairs and a direct repeat of 110 base pairs were mutational hotspots. In addition, two copies of a provirus contained 15 G-to-A substitutions. Such proviruses, which we name hypermutants, may arise through the action of an error-prone polymerase and could significantly contribute to the genetic variation in retroviral populations.

Envelope gene sequence of HTLV-1 isolate MT-2 and its comparison with other HTLV-1 isolates

The DNA sequence of the envelope gene of the HTLV-1 proviral clone MT-2 was determined and compared with envelope sequences of other HTLV-1 isolates. The comparison of this sequence with another of Japanese origin and two of Caribbean origin does not support the proposal by K.T.A. Malik, J. Even, and A. Karpas (J. Gen. Virol. 69, 1695-1710, 1988) that isolates of similar geographic origins are more homologous than isolates of different origins. No significant differences in the degree of homology could be found among the HTLV-1 envelope gene sequences from Japanese and Caribbean isolates. The comparison confirms the high degree of homology previously found between various HTLV-1 isolates (greater than 97%).

Molecular cloning and characterization of a German HIV-1 isolate

The genetic diversity of HIV-1 is well documented. Except for the HIV-1 isolate LAV-1BRU, no nucleic acid sequence of a European isolate of HIV-1 has been published to date. To further investigate the extent of the genetic variability and the evolution of HIV-1, we have isolated, cloned, and subsequently sequenced HIV-1 from a German patient with AIDS-related complex. Comparative studies of the nucleic acid sequence revealed that this isolate, designated HAN2, is highly divergent from the North American and African subtypes of HIV-1 and may represent a European subtype of HIV-1. Furthermore, a full-length molecular clone was derived from this isolate which was infectious in human T-cell lines. Therefore this new isolate will be particularly useful for studies on the genetic evolution and biology of HIV-1 as well as for testing antiviral substances and for developing vaccines.

Antiviral therapy against HIV infection

The replication of human immunodeficiency virus (HIV) can be suppressed in vivo by drugs chosen on the basis of their selective in vitro antiviral activity. Such suppression can confer prolonged survival and improved quality of life in patients with already established HIV infection. The clinical benefits indicate that targeted therapy for acquired immunodeficiency syndrome based on the emerging knowledge of replicative cycle of HIV is an attainable goal.

AZT (zidovudine) may act postintegrationally to inhibit generation of HIV-1 progeny virus in chronically infected cells

The reverse transcriptase enzyme of HIV-1 is known to be error-prone. We were interested in the possibility of isolating a variant HIV-1 strain that might be capable of replication in the presence of AZT, thought to act by antagonizing reverse transcriptase activity. Toward this end, chronically infected H-9 cells were exposed to various concentrations of AZT for at least 500 days. No mutant has yet arisen from such cultures, which continued to produce high levels of each of the viral proteins p24, p17, gp41, and gp51/66 in the presence of the drug. Notwithstanding such expression of viral antigens, culture fluids from these various AZT-treated cultures were not capable of infecting otherwise susceptible target cells. Electron microscopic observations of AZT-treated chronically infected H-9 cells indicated a lower production of viral structures, in comparison with control cultures. Furthermore, those particles seen at the plasma membrane of AZT-treated cells often appeared to be envelope-deficient. These data suggest that AZT may be able to interfere in some way with proper assembly and/or packaging of infectious progeny HIV-1 at the cell membrane, although other modes of action for a postintegrational effect of AZT cannot be excluded.

Mutational analysis of the conserved cysteine-rich region of the human immunodeficiency virus type 1 Tat protein

The Tat transactivator protein of human immunodeficiency virus type 1 contains a highly conserved cysteine-rich region, containing seven cysteines from residues 22 through 37. To investigate the importance of noncysteine residues in this region of the Tat protein, we have carried out a mutational analysis, in most cases substituting a single alanine for the wild-type noncysteine residue. Alanine substitution of residue 23, 24, 46, or 47 had no effect on Tat activity in plasmid transfection assays. In contrast, alanine substitutions of all eight noncysteines analyzed, from residues 26 through 41, significantly reduced the activity of the Tat protein, in some cases as drastically as mutations in cysteine residues. The results demonstrate that the precise sequence of the cysteine-rich region is crucial for a fully functional Tat protein.

High frequency of isolation of defective human immunodeficiency virus type 1 and heterogeneity of viral gene expression in clones of infected U-937 cells

Limiting-dilution techniques were employed to derive single-cell clones from U-937 cells that had been chronically infected with human immunodeficiency virus type 1. All clones thus obtained were positive for the presence of viral antigens; however, not all of the clones produced infectious progeny virus, as detected by the presence of reverse transcriptase (RT) activity in culture fluids. Six of these clones were monitored over time to determine whether their phenotype of human immunodeficiency virus type 1 expression was stable. Three clones maintained production of RT activity at a high level and showed a very high percentage of cells positive for viral p24 antigen, as determined by indirect immunofluorescence. The other three clones showed variations in either their levels of RT activity or the number of cells positive for p24, after which they stabilized. Infectious virus could be recovered from only three clones, as assessed by coculture experiments with different cell types. Two other clones were shown to produce noninfectious viruses. Molecular analyses at the DNA, RNA, and protein levels showed extensive variations between the viral isolates recovered from each clone.

Nucleotide sequence and genome organization of biologically active proviruses of the bovine immunodeficiency-like virus

The complete nucleotide sequences and translations of major open reading frames (ORF) of two distinct, infectious, proviral molecular clones (106 and 127) of the bovine immunodeficiency-like virus (BIV), obtained from a single virus isolation, were determined and compared. The genomes of BIV 127 and 106 are 8482 and 8391 nucleotides (nt), respectively, in the form predicted for the viral RNA. The structural organization of the genomes of BIV 127 and 106 are identical to one another and most similar to that of the lentivirus subfamily of retroviruses. In addition to gag, pol, and env genes, the BIV genome contains five short ORFs between and overlapping pol and env in the "central region," a hallmark of the lentiviruses which is believed to play an important role in their pathogenesis. Three of the short ORFs in the central region of BIV have been identified by location and structural similarity to the nonstructural/regulatory genes (vif, tat, and rev) of other lentiviruses; we also discovered two unique ORFs, termed W and Y, which may serve as exons for novel genes. BIV does not have the nef gene found in primate lentivirus genomes. The proviral LTR of BIV 127 is 589 nt, contains regulatory signals for initiation, enhancement, and termination of viral transcription, and has sequences related to the Sp1 and NF-kappa B binding sites. A major deletion (87 nt) in the env gene and 2 minor deletions (2 nt each) in the R regions of the LTRs account for the smaller size of clone 106. Numerous point mutations were also present; some caused coding substitutions that were most prevalent in the env encoding ORF. These data suggest that, within a single virus isolate, BIV displays extensive genomic variation. These infectious clones of BIV represent well-defined tools with which to analyze the function of the various ORFs and to dissect the molecular mechanisms of replication and pathogenesis.

Simian immunodeficiency viruses from African green monkeys display unusual genetic diversity

African green monkeys are asymptomatic carriers of simian immunodeficiency viruses (SIV), commonly called SIVagm. As many as 50% of African green monkeys in the wild may be SIV seropositive. This high seroprevalence rate and the potential for genetic variation of lentiviruses suggested to us that African green monkeys may harbor widely differing genotypes of SIVagm. To investigate this hypothesis, we determined the entire nucleotide sequence of an infectious proviral molecular clone of SIVagm (155-4) and partial sequences (long terminal repeat and Gag) of three other distinct SIVagm isolates (90, gri-1, and ver-1). Comparisons among the SIVagm isolates revealed extreme diversity at the nucleotide and amino acid levels. Long terminal repeat nucleotide sequences varied up to 35% and Gag protein sequences varied up to 30%. The variability among SIVagm isolates exceeded the variability among any other group of primate lentiviruses. Our data suggest that SIVagm has been in the African green monkey population for a long time and may be the oldest primate lentivirus group in existence.

On the DNA polymerase-a mutant: immunofluorescence assay of UV-induced thymidine dimers in Aphr-4-2 cells

Aphidicolin inhibits purified DNA polymerases-a and -d in vitro and inhibits mitosis in animal cells. The Chinese hamster V79 cell mutant, Aphr-4-2, was selected for its ability to form colonies in cultured medium supplemented with 1.0 microM aphidicolin. At this concentration, the parental wild-type V79 cells (clone 743x) have a survival rate of less than 10(-7). The mutant DNA polymerase-a is resistant to aphidicolin at concentrations that are inhibitory to the wild-type V79 DNA polymerase-a. The apparent Km for dCTP of the mutant DNA polymerase-a is consistently lower than that of the wild-type DNA polymerase-a. This mutant exhibits slow growth, mutator activity, hypersensitivity, and hypermutability to UV. We wanted to know the basis of UV hypersensitivity in this mutant. Using the antisera (UV2) raised against UV-induced thymidine dimers and a sensitive immunofluorescence assay to measure UV-induced thymidine dimers and with detection in ACAS 570 Workstation, we observed that 50% of the thymidine dimers disappeared within 5 h after irradiation and more than 80% of the dimers were removed within 24 h in both cell lines. These results indicate that the recognition, incision, and excision steps in nucleotide excision repair pathway are normal in the mutant. In order to know if there is a difference in DNA polymerase-a or -d activities in the parental V79(wt) and Aphr-4-2 cells, DNA polymerases were partially purified from the parental and the mutant cells using sequential centrifugation and column chromatographies on DEAE-cellulose (DE23 and DE52) to remove DNA polymerases-beta and -gamma. More than 90% of the enzymatic activities from both cells showed characteristics of DNA polymerase-a type on the basis of these criteria: sensitivity to butyl phenyl dGTP (1 microM) and to IgG raised against DNA polymerase-a (SJK 132-20). The results indicate that DNA replication involving a mutant DNA polymerase-a with altered affinity for dCTP may be responsible for the UV sensitivity and mutability of the mutant.

Multiple mutations in HIV-1 reverse transcriptase confer high-level resistance to zidovudine (AZT)

Human immunodeficiency virus (HIV) isolates with reduced sensitivity to zidovudine (3'-azido-3'-deoxythymidine, AZT) from individuals with acquired immunodeficiency syndrome (AIDS) or AIDS-related complex were studied to determine the genetic basis of their resistance. Most were sequential isolates obtained at the initiation of and during therapy. Comparative nucleotide sequence analysis of the reverse transcriptase (RT) coding region from five pairs of sensitive and resistant isolates identified three predicted amino acid substitutions common to all the resistant strains (Asp67----Asn, Lys70----Arg, Thr215----Phe or Tyr) plus a fourth in three isolates (Lys219----Gln). Partially resistant isolates had combinations of these four changes. An infectious molecular clone constructed with these four mutations in RT yielded highly resistant HIV after transfection of T cells. The reproducible nature of these mutations should make it possible to develop rapid assays to predict zidovudine resistance by performing polymerase chain reaction amplification of nucleic acid from peripheral blood lymphocytes, thereby circumventing current lengthy HIV isolation and sensitivity testing.

Extension of mismatched 3' termini of DNA is a major determinant of the infidelity of human immunodeficiency virus type 1 reverse transcriptase

The unusually high error rate of human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) suggests that polymerization errors by this enzyme contribute to the genetic variability of the AIDS virus. We have analyzed the mechanism for HIV-1 RT infidelity by studying two distinct steps that might lead to base substitution mutations: nucleotide misinsertions and elongation from 3'-terminal DNA mispairs. Our results indicate that the capacity of HIV-1 RT to polymerize nucleotides onto mispaired termini is a major factor in the production of mutations by this enzyme. When a noncomplementary dAMP was inserted opposite a template adenine by HIV-1 RT, the nascent 3'-terminal A.A mispair was readily extended by subsequent incorporation of the next complementary nucleotide. The frequencies of nucleotide addition onto 3'-terminal A-A, A-C, and A-G mispairs were determined by quantitating the amount of extended primers with a gel electrophoresis assay and by measuring mutagenesis after hybridization of mismatched primers opposite an amber mutation in bacteriophage phi X174 DNA. The mispair extension frequencies are approximately 50-fold higher by HIV-1 RT than by the mammalian replicative enzyme DNA polymerase alpha.

The cloned human oestrogen receptor contains a mutation which alters its hormone binding properties

We demonstrate here that the human oestrogen receptor (hER) cDNA clone pOR8 obtained from MCF-7 cells contains an artefactual point mutation which results in the substitution of a valine for a glycine at amino acid position 400 (Gly-400----Val-400). This mutation in the hormone binding domain of the cloned hER destabilizes its structure and decreases its apparent affinity for oestradiol at 25 degrees C, but not at 4 degrees C, when compared with the wild-type hER with a Gly-400.

Deletions of bases in one strand of duplex DNA, in contrast to single-base mismatches, produce highly kinked molecules: possible relevance to the folding of single-stranded nucleic acids

A 32-base-pair (bp) DNA duplex with deletions in one strand, and thus extra bases in the opposing strand, was ligated head-to-tail to produce linear and circular multimers. The electrophoretic mobility of the linear multimers was analyzed in polyacrylamide gels and the size of the circular DNA was determined by electron microscopy. A 1-base deletion produced a marked retardation in the mobility of the linear multimers coincident with the formation of a population of multimeric circles of a smaller average size than the deletionless 32-mer; 2-, 3-, or 4-base deletions at the same site produced proportionately greater effects. Two 1-base deletions separated by 10 bp on the same strand produced a greater reduction in mobility than a 1-base deletion, whereas two 1-base deletions spaced by 5 bp on the same strand yielded a molecule that behaved more like the deletionless DNA. We conclude that deletions of 1-4 bases at a single site on duplex DNA produce molecules that behave as if they contain sharp bends or kinks. In contrast, single mismatches in the 32-bp duplex produced no abnormality in behavior relative to normally base-paired DNA in the gel mobility and electron microscopic assays. The possible role of such structures in organizing the three-dimensional folding of single-stranded nucleic acids is considered.

Health education and the AIDS epidemic

What is known about the biology of AIDS is reviewed, and the social factors which influence disease transmission and public attitudes are considered. After an evaluation of the methods available to control the epidemic, the reasons for the limited success of public health measures thus far undertaken are considered. The ethical debate on public health policy is analysed, and the need for a nationwide educational programme on AIDS is emphasised--one which is responsive to the rights and obligations of citizens in a democratic society.

Human cell lines stably expressing HIV env and tat gene products

A DNA fragment containing the tat, rev and env genes of the human immunodeficiency virus type 1 was inserted into the retroviral vector pZIPneoAU3. The resulting plasmid penvAU3 was transfected into HeLa and psi CRIP cells. Resulting recombinant retroviruses were used to infect HeLa and Jurkat cells. Immunoprecipitation analysis of stable transformants showed the expression of HIV env glycoproteins gp160, gp120 and gp41. Transactivation assays with a plasmid containing the gene for chloramphenicol acetyltransferase linked to HIV promoter-enhancer sequences demonstrated the expression of functional tat. These cells constitute virus-free tools for functional and structural studies of native env and tat.

Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural DNA

Reverse transcriptase from the human immunodeficiency virus type I (HIV-1) was expressed in E. coli and purified to near homogeneity. The enzyme was shown to contain reverse transcriptase, DNA polymerase and ribonuclease H activities. The DNA polymerase activity converted singly-primed phi X174 (+) DNA into the double-stranded form. Two third of the replication product is ligatable to covalently closed circular DNA (RFIV-form DNA) indicating that DNA synthesis by HIV reverse transcriptase can proceed until the enzyme matches the 5'-end of a pre-existing primer molecule. The in vitro accuracy of HIV reverse transcriptase was measured with the phi X174am16 reversion assay to be 1/7,400. Reversion rates for the individual mispairs were determined from pool bias studies to be 1/8,000 for the dGMP:T template mismatch, 1/35,000 for the dGMP:A template mismatch, 1/45,000 for the dAMP:G template mismatch, 1/73,000 for the dCMP:T template mispair, 1/140,000 for the dCMP:A template mispair, and 1/180,000 for the dGMP:G template mismatch. The dTMP:T template mispair was below the detection limit of the assay indicating a reversion rate of less than 1/300,000 for this particular mispair.

RNA virus evolution and the control of viral disease

RNA viruses and other RNA genetic elements must be viewed as organized distributions of sequences termed quasi-species. This means that the viral genome is statistically defined but individually indeterminate. Stable distributions may be maintained for extremely long time periods under conditions of population equilibrium. Perturbation of equilibrium results in rapid distribution shifts. This genomic organization has many implications for viral pathogenesis and disease control. This review has emphasized the problem of selection of viral mutants resistant to antiviral drugs and the current difficulties encountered in the design of novel synthetic vaccines. Possible strategies for antiviral therapy and vaccine development have been discussed.