EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peripheral blood mononuclear cells (PBMC) obtained from four different primate species were tested for their respective ability to support the "in vitro" replication of the human immunodeficiency viruses, HIV-1, and HIV-2. PBMC of Cebus apella, patas (Erythrocebus patas), green (cercopithecus aethiops sabaeus) and rhesus monkeys (Macaca mulatta) were infected "in vitro" with either HIV-1 or HIV-2. Cultures were assayed weekly for particle-associated reverse transcriptase activity. Both viruses were found to be cytolytic for all these monkey's PBMC. Low levels of HIV-1 and HIV-2 infection were observed in Cebus cells. However, productive infection was only detected in HIV-2 infected rhesus PBMC. The capacity of HIV-2 to replicate in rhesus cells may provide a useful model for evaluating antiviral drugs and vaccines.
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PMID:In vitro HIV infection of primate lymphocytes. 170 29

Six monkeys of three different species (mangabey, macaque and baboon) were infected with human immunodeficiency type 2 (HIV-2) NIH-DZ using intraperitoneal or intravenous injections of cell-free HIV-2 or autologous HIV-2-infected cells with no prior immunostimulation. Viral expression was demonstrated by reverse transcriptase activity in cells after coculture with human peripheral blood lymphocytes or by electron microscopy. Serum was analyzed by western blot, enzyme-linked immunosorbent assay (detection of antigen and antibody), and neutralization assay carried out using immunofluorescence techniques. The 6 inoculated animals seroconverted during the 1st month after inoculation and remained persistently infected after 6-11 months. We also observed proviral DNA by genomic analysis in the six tested samples. No sign of immunodeficiency disease has been observed so far. The data suggest that HIV-2 infection of nonhuman primates provides an acceptable animal model to investigate vaccination or specific immunotherapeutic procedures.
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PMID:Persistent HIV-2 infection of rhesus macaque, baboon, and mangabeys. 279 99

Enzyme-linked immunosorbent assays (ELISA), using recombinant HIV-1 reverse transcriptase (RT; p66), are described for the measurement of RT antigen and serum antibodies to RT (anti-RT). The ELISA for anti-RT was developed in qualitative and quantitative forms, both were highly specific (100%, 0/859; 99.6%, 3/859), the former was sensitive (100%, 364/364) detecting the highest dilution of a standard high titre anti-HIV-1 RT antibody positive control serum. The latter was less sensitive (97.2%, 354/364) detecting lower dilutions of the antibody control, but had the advantage of producing highly reproducible optical density/concentration curves for the quantification of unknown anti-RT samples. In a cross-sectional study of 191 patients with HIV-1 infection, all patients developed anti-RT antibodies in CDC disease group II and III that declined but persisted in all cases into CDC disease group IV. The RT antigen assay was specific (100%, 0/772) and sensitive detecting 6 to 15 pg/ml of recombinant RT antigen diluted in normal human serum. No cross-reactivity using the RT antibody and antigen assays was seen in sera from 85 patients with current or previous hepatitis B infection or 21 sera from patients with HIV-2 infection. Further, no reactivity was demonstrated with the assays in a cohort of 20 seronegative partners (320 samples) exposed to HIV-1 infection over a 4-yr period. In samples from a patient with documented seroconversion, RT antigen was the first detectable marker of HIV-1 infection and was followed by a prompt anti-RT response. Serum RT antigen disappeared or remained low in most patients during CDC disease group II and III and rarely reappeared with progression to CDC disease group IV. In tissue culture studies RT antigen was detected in supernatant within 12 h (75 pg/ml), gave an initial peak at 36 h (300 pg/ml) and then continued to rise up to 5 days (603 pg/ml), offering a simple, cost-effective alternative to existing methods.
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PMID:Enzyme-linked immunosorbent assays for the measurement of human immunodeficiency virus, type 1 reverse transcriptase antigen and antibodies. 768 87

To explain the low transmissibility and pathogenicity of HIV-2 infection's plasma viral loads in both HIV-1- and HIV-2-infected persons were compared by using the polymerase chain reaction (PCR)-based Amp-RT assay to measure levels of reverse transcriptase (RT) activity. The study comprised a total of 155 HIV-infected-people including 58 who were infected with HIV-2 with CD4+ cell counts <500 x 106/L (n = 15), CD4+ cell counts >500 x 106/L (n = 26), or with tuberculosis (TB; n = 17), and 97 HIV-1-infected people with CD4+ cell counts <500 x 106/L (n = 32), CD4+ cell counts >500 x 106/L (n = 25), or TB (n = 40). Among persons with CD4+ cell counts <500 x 106/L, 11 (73.3%) of 15 HIV-2-infected persons had detectable plasma RT activity compared with 25 (78.1%) of 32 HIV-1-infected persons (p =.725). However, the median HIV-2 plasma RT activity in this group was significantly lower (2561 x 10-10 U/ml; p =.036; detectable range, 1712-644,868 x 10-10 U/ml) than the RT activity of HIV-1-infected persons with similar CD4+ cell counts (13,241 x 10-10 U/ml; detectable range, 8482-1,478,880 x 10-10 U/ml). Among TB patients, 10 (58.8%) of 17 HIV-2-infected persons had detectable plasma RT activity compared with 30 (75%) of 40 HIV-1-infected persons (p =.342). In contrast, among patients with CD4+ cell counts >500 x 106/L, none of 26 HIV-2-infected persons had detectable RT activity compared with 13 (52%) of 25 HIV-1-infected persons (p <.001). Our data suggest that unlike HIV-1 infection, HIV-2 infections with CD4+ cell counts >500 x 106/L are associated with a low level of viral replication, which may explain the longer clinical latency and lower transmissibility seen in HIV-2 infection.
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PMID:Lower HIV-2 plasma viral loads may explain differences between the natural histories of HIV-1 and HIV-2 infections. 1096 50

Eight HIV-2-infected Caucasian men living in the same geographical area in Gipuzkoa (northern Spain) have been identified in the last 5 years. HIV-2 infection in this area is uncommon, and no other cases of HIV-2 infection have been found after extensive testing for HIV-1/2 antibodies. Epidemiological data suggested a possible link among the identified subjects, with homosexual contact being the most likely way of transmission. A genetic analysis of four of the subjects, from whom specimens were available, was conducted. Phylogenetic and signature pattern studies of the reverse transcriptase (RT) and env genes supported a single source of infection. Interindividual nucleotide variability ranged from 2.4 to 4.8% in the RT region and from 5.2 to 6.1% in the env gene, whereas the mean divergence between patient and control strains was 9.8 and 18.3%, respectively. The nucleotide and amino acid signature patterns were closely related in viruses from the four examined individuals. This is the first report of a cluster of HIV-2 infections with genetic sequence data support. The singularity of this cluster should alert clinicians on the possibility of HIV-2 outside endemic areas.
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PMID:Molecular evidence of homosexual transmission of HIV type 2 in Spain. 1128 10

The HIV-2 serotype of HIV is a cause of disease in parts of the West African population, and there is evidence for its spread to Europe and Asia. HIV-2 reverse transcriptase (RT) demonstrates an intrinsic resistance to non-nucleoside RT inhibitors (NNRTIs), one of two classes of anti-AIDS drugs that target the viral RT. We report the crystal structure of HIV-2 RT to 2.35 A resolution, which reveals molecular details of the resistance to NNRTIs. HIV-2 RT has a similar overall fold to HIV-1 RT but has structural differences within the "NNRTI pocket" at both conserved and nonconserved residues. The structure points to the role of sequence differences that can give rise to unfavorable inhibitor contacts or destabilization of part of the binding pocket at positions 101, 106, 138, 181, 188, and 190. We also present evidence that the conformation of Ile-181 compared with the HIV-1 Tyr-181 could be a significant contributory factor to this inherent drug resistance of HIV-2 to NNRTIs. The availability of a refined structure of HIV-2 RT will provide a stimulus for the structure-based design of novel non-nucleoside inhibitors that could be used against HIV-2 infection.
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PMID:Structure of HIV-2 reverse transcriptase at 2.35-A resolution and the mechanism of resistance to non-nucleoside inhibitors. 1238 43

There is limited knowledge about how to treat and interpret results from genotypic resistance assays in HIV-2 infection. Here, genetic variation in HIV-2 pol gene was studied in 20 of 23 known HIV-2 cases in Sweden. Five patients with signs of virological treatment failure were longitudinally studied. Clinical, virological and immunological data were collected and the protease (PR) and first half of the reverse transcriptase (RT) was amplified and directly sequenced from plasma samples. Moderate to extensive genetic evolution was observed in four of the five patients who failed treatment. Some mutations occurred at positions known to confer resistance in HIV-1, but many occurred at other positions in PR and RT. All patients had been treated with zidovudine alone or in combination with other antiretroviral drugs, but none displayed a mutation at position 215, which is the primary zidovudine resistance site in HIV-1. Instead, a E219D mutation evolved in virus from two patients and a Q151M mutation evolved in two other patients. A M184V mutation indicative of lamivudine resistance was detected in three patients. The virus of one patient who had been treated with ritonavir, nelfinavir, and lopinavir successively acquired nine unusual mutations in the protease gene, most of which are not considered primary or secondary resistance mutations in HIV-1. Our data indicate that the evolutionary pathways that lead to antiretroviral resistance in HIV-2 and HIV-1 exhibit both similarities and differences. Genotypic HIV-2 resistance assays cannot be interpreted using algorithms developed for HIV-1, instead new algorithms specific for HIV-2 have to be developed.
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PMID:pol gene sequence variation in Swedish HIV-2 patients failing antiretroviral therapy. 1290 31

In HIV-2 infection, many studies have reported a high frequency of selection of the Q151M mutation, but its impact on phenotypic susceptibility of HIV-2 isolates remains unclear. Four HIV-2 infected patients from the French ANRS HIV-2 cohort, with evidence of Q151M mutation in both plasma and available peripheral blood mononuclear cells (PBMCs) co-cultivated supernatants, were selected. In vitro phenotypic susceptibilities to different nucleoside reverse transcriptase inhibitors (NRTIs) were determined using a PBMC assay. In HIV-2 isolates, the Q151M mutation alone impacts only the phenotypic susceptibility to stavudine and abacavir. A decrease in susceptibility to all NRTIs was observed when Q151M was selected with V111I, a mutation of unknown impact on HIV-1 resistance. Clinical relevance of these phenotypic susceptibility results needs to be evaluated in HIV-2 treated patients.
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PMID:Letter. In vitro phenotypic susceptibility to nucleoside reverse transcriptase inhibitors of HIV-2 isolates with the Q151M mutation in the reverse transcriptase gene. 1631 83

Using an indicator cell assay that directly quantifies viral replication, we show that human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2, respectively) exhibit similar sensitivities to 3'-azido-3'-deoxythymidine (zidovudine) as well as other nucleoside analog inhibitors of reverse transcriptase. These data support the use of nucleoside analogs for antiviral therapy of HIV-2 infection.
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PMID:Human immunodeficiency virus types 1 and 2 exhibit comparable sensitivities to Zidovudine and other nucleoside analog inhibitors in vitro. 1796 13

There are reports that not all individuals exposed to HIV-1 become infected and the possibility exists that some individuals may be completely resistant to infection with this virus. This study aims to investigate, in vitro, whether certain peripheral blood mononuclear cells (PBMCs) are completely resistant to HIV-1 and HIV-2 infection. PBMCs obtained from 130 unrelated healthy HIV-1- and HIV-2-seronegative volunteers were infected with four different isolates of HIV-1 (H995 and MN) and HIV-2 (CBL-20 and ROD) using several multiplicities of infection. Cultures were maintained for 21 d. Virus replication was measured using the viral p24 core antigen levels in the case of HIV-1, and by reverse transcriptase (RT) activity in the case of HIV-2, at 5, 14, and 21 d post-infection. Marked variations were observed among PBMCs from individual donors with regard to replication rates for HIV-1 and HIV-2. None of the PBMCs from any single donor was shown to have zero viral replication rates for all four HIV isolates tested. However, PBMCs from some individuals were shown to have either very low or very high viral replication rates when infected with one or more virus isolates. Our results clearly distinguished three groups of PBMCs with varying degrees of viral replication for both HIV-1 and HIV-2 infection in vitro: (a) those with high viral replication rates, (b) those with moderate viral replication rates, and (c) those with low viral replication rates. Our data indicate that although none of the PBMCs tested were shown to be completely resistant to in vitro HIV-1 and HIV-2 infection, partial resistance to infection was seen for some donor samples.
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PMID:Lack of evidence for complete resistance of peripheral blood mononuclear cells to HIV-1 and HIV-2 infection. 1835 26

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