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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Superinfection of latently human immunodeficiency virus (HIV)-infected rabbits with either Treponema pallidum or Shope fibroma virus (SFV) activates HIV expression. In addition, HIV-infected rabbits demonstrate prolonged cutaneous lesions (chancres) after intracutaneous challenge with T. pallidum, the causative agent of syphilis. Rabbits were infected by intravenous inoculation of 3 x 10(7) human T-cell lymphotrophic virus type III (HTLV-III)/B10 (HIV-1)-infected H9 (human) cells. Five weeks after initial infection, integrated HIV-1-specific DNA sequences were detected in the DNA of the peripheral blood lymphocytes of only one of eight rabbits using polymerase chain reactions (PCR); human DNA could not be detected at this time. Furthermore HIV infection could not be demonstrated by either seroconversion or PCR during the next 6 months. All HIV-infected rabbits remained clinically healthy and had normal white blood cell counts. Six months after HIV infection, four HIV-infected and two noninfected controls were superinfected with 10(6) T. pallidum in eight skin sites in the shaved skin of the back, and four infected and two control animals were challenged with an intradermal injection with SFV. After infection with either syphilis or SFV, the DNA from the white blood cells of all eight HIV-infected rabbits contained HIV sequences, and HIV sequences were demonstrated in dermal mononuclear cells of the syphilitic lesions by in situ hybridization. The SFV-induced tumors were rejected normally in the HIV-infected rabbits, but four of the four rabbits challenged with T. pallidum had delayed development of cutaneous lesions and three of four demonstrated larger and more prolonged lesions. White blood counts, mitogen responses, and interleukin-2 production remained within normal limits, and seroconversion for HIV was not detected. Three of four rabbits in a second group, challenged with T. pallidum 4 months after HIV-inoculation, also had delayed healing of syphilitic lesions. These results indicate that latent HIV-infection of rabbits may be activated by immunostimulation and that latently HIV-infected rabbits have impaired delayed hypersensitivity reactions. It is hypothesized that true latent HIV-infection in the rabbits is in monocytes and postulated that further immunostimulation may produce infection of lymphocytes and activation of disease.
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PMID:Syphilis superinfection activates expression of human immunodeficiency virus I in latently infected rabbits. 185 Sep 60

Superinfection of H9 cells persistently infected with human immunodeficiency virus (HIV) with thermolabile vesicular stomatitis virus (VSV) or herpes simplex virus (HSV) led to the synthesis of hybrid progeny. These phenotypic mixtures were able to infect HeLa or Chinese hamster ovary cell lines, leading to the production of HIV p24 antigen and infectious HIV. This production was abrogated by prior incubation of the phenotypic mixtures with antiserum against VSV or HSV, as well as by incubation of the mixtures at 39 degrees C for 10 h. These results demonstrate that during coinfection of cells with either a RNA or DNA virus, HIV forms hybrid virions composed of the genetic information of HIV and the envelope glycoproteins of the coinfecting viruses.
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PMID:Phenotypic mixing between human immunodeficiency virus and vesicular stomatitis virus or herpes simplex virus. 215 77

Superinfection of human immunodeficiency virus (HIV)-1-infected rabbits with Treponema pallidum, Mycobacterium avium, herpes simplex, Candida albicans, Mycoplama incognitus, and malignant catarrhal fever virus, as well as irradiation or cortisone treatment, fails to activate production of infectious virus. For up to 6 months after infection of rabbits with HIV-infected cells or free virus, there are neither clinical symptoms nor positive laboratory tests for detection of HIV. However, after superinfection with other agents, HIV sequences may be transiently found in peripheral blood mononuclear cells by polymerase chain reaction (PCR), and multiple antibodies to HIV antigens may be detected by Western blotting. Both the PCR positivity and Western blot reactivity become negative with time after superinfection. Other than delayed healing of the skin lesions produced by T. pallidum and vaccinia in HIV-infected rabbits, there is no evidence of any immune abnormality. After death, gag sequences are detectable in the splenocytes of essentially every HIV-infected rabbit, and the splenocytes of eight of 25 infected rabbits responded by proliferation to HIV peptides. In addition, gag sequences are detectable in rabbits that are injected with lymphoid cells from HIV-infected rabbits. However, after multiple testing of both peripheral blood of living rabbits and organs of rabbits that died or were killed (spleen, brain, lymph nodes, liver, and gastrointestinal tract), no viable virus has ever been convincingly detected by in vitro cultivation with indicator cells. In contrast to some other published reports, these data indicate that HIV-1 infection of rabbits does not provide a model for AIDS pathogenesis therapy or prevention, but it may be useful as a model to study the relative resistance of a small fraction of the human population to development of AIDS after HIV infection.
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PMID:Multiple superinfections fail to activate defective human immunodeficiency virus-1 (HIV-1) infection of rabbits. 778 21

Cell killing by cytopathic retroviruses is often associated with a delay or failure in the establishment of superinfection interference. Superinfection has been observed during T-cell killing and fatal immunodeficiency disease induction by the feline leukemia virus (FeLV) chimera FeLV-FAIDS-EECC, containing the surface envelope glycoprotein (SU) of FeLV-FAIDS clone 61C. We demonstrate here that 61C SU has a defect that results in a nearly complete failure to establish superinfection interference against homologous virus challenge. This failure was evident only in feline T (FeT) cell clones expressing envelope protein, not in the rare cells that have survived cytopathic infection to become chronically infected. The regions of SU responsible for this defect were the same as those previously identified as responsible for T-cell killing. The superinfection interference properties of a noncytophatic molecular clone, FeLV-FAIDS-61E, were different in that 61E established interference to homologous virus challenge, both in SU-expressing cell clones and in chronically infected cells. Neither 61E nor EECC established interference against heterologous virus challenge. Viruses expressing chimeric SU proteins displayed varied and intermediate interference properties. Purified 61E and 61C SU competed for binding sites on FeT cell surfaces, and purified 61E SU blocked infection of virus bearing 61E or 61C SU. In addition, purified 61E and 61C SU each coprecipitated 70-kDa FeT cell surface proteins. Our data are consistent with the hypothesis that there are multiple cellular components necessary for 61E and 61C attachment to and penetration of FeT cells, a primary receptor that is utilized by both 61E and 61C, and secondary receptors that are likely to be virus specific.
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PMID:Distinct superinfection interference properties yet similar receptor utilization by cytopathic and noncytopathic feline leukemia viruses. 839 43

A human immunodeficiency virus (HIV) type 1-infected Hut-78 cell clone (F12) shows a peculiar phenotype: it exhibits an altered viral protein pattern, is a nonproducer and is resistant to homologous superinfection. To determine whether this phenotype is dependent upon the expression of the HIV-1 genome integrated therein, the SstI/SstI F12 provirus [deprived of HIV long terminal repeats (LTRs)] was cloned and inserted in the pLj retroviral vector bearing the neomycin (neo) and Geneticin resistance gene. CD4+ HIV-susceptible CEMss cells (a CEM clone able to form large syncytia 2 to 3 days post-HIV infection) were infected with the recombinant retroviruses rescued from the F12/HIV-pLj-transfected (in either sense or antisense orientation) amphotropic packaging cells PA 317. Neo sense resistant gene clones showed approximately 10 copies of viral DNA/cell (without detectable major deletions) only in episomal form, low viral RNA expression and a viral protein pattern characterized by an uncleaved gp160, no gp41 and little, if any, p55 gag precursor (as in F12 cells). Superinfection of these F12/HIV DNA-engineered clones with HIV-1 resulted in a significant reduction in the yield of superinfecting HIV. This effect (more pronounced when the clones were maintained under neo selective pressure) was observed in all five retrovirus-infected clones exhibiting the presence and expression of sense episomal F12/HIV DNA but not in two clones bearing an antisense F12/HIV DNA or in one clone bearing only the pLj vector. These results indicate that bio-engineered human CD4+ cells expressing the F12/HIV genome exhibit a significant resistance to HIV superinfection.
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PMID:A recombinant retrovirus carrying a non-producer human immunodeficiency virus (HIV) type 1 variant induces resistance to superinfecting HIV. 840 34

It is thought that interference during human immunodeficiency virus type 1 (HIV-1) infection is established by downmodulation of the principal virus receptor, CD4. Here we present evidence to the contrary. At various times after primary infection, we superinfected T cells in vitro by exposure to a genetically distinct viral clone or to a virus carrying the chloramphenicol acetyltransferase gene. Replication of each virus strain was determined by restriction enzyme analysis of total cellular DNA, by PCR amplification of viral DNA, or by assay of cell extracts for chloramphenicol acetyltransferase activity. We found that efficient viral interference is established within 24 h of infection at a multiplicity of infection of 1. At that time, expression of viral structural proteins was low and infected cells displayed undiminished levels of surface CD4 and were fully susceptible to virus binding and fusion. Superinfection by either cell-free HIV-1 or cocultivation was blocked. Cells resistant to superinfection by HIV-1 remained susceptible to Moloney murine leukemia and vaccinia viruses. No interference was observed 4 h after primary infection or in cells infected with either UV-inactivated HIV-1 or a mutant virus defective in virus-cell fusion activity, indicating that binding of primary virus to CD4 is insufficient to prevent superinfection. The minimum viral requirements for this interference are that HIV-1 must be able to enter cells and synthesize viral DNA; Tat-mediated transcription is dispensable. Our results support the existence of a novel pathway to interference to HIV-1 infection, which we term postentry interference, which blocks superinfection during intracellular phases of the virus life cycle.
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PMID:Interference to human immunodeficiency virus type 1 infection in the absence of downmodulation of the principal virus receptor, CD4. 864 18

Macaques infected with attenuated simian immunodeficiency virus (SIVmac) can resist superinfection challenge with virulent virus, showing the potential of live attenuated virus as an AIDS vaccine. Superinfection resistance does not, however, prevent the generation of virulent virus in vivo, suggesting that such virus may circumvent the resistance effect. Here, we show that three macaques already infected with the attenuated molecular clone SIVmacC8 were resistant to superinfection with virulent virus that arose in vivo following repair of a 12 bp attenuating lesion in the nef/3' LTR. In contrast, four naive animals became infected following inoculation with blood taken from the macaque in which virulent virus arose. Loss of nef-specific cytotoxic T lymphocyte (CTL) responses followed repair of the attenuating lesion within nef in the donor animal, suggesting the possibility of escape from CTL-driven selection pressure.
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PMID:Macaques infected with attenuated simian immunodeficiency virus resist superinfection with virulence-revertant virus. 926 89

Superinfection with multiple strains or subtypes of the human and simian immunodeficiency viruses has been documented. Recent increases in the prevalences of both unprotected anal intercourse and sexually transmitted diseases among men who have sex with men indicate that these men continue to practice unsafe sex and, therefore, are at risk for superinfection with the human immunodeficiency virus (HIV). Recurrent exposure to HIV among seropositive individuals who engage in high-risk behaviors can have serious consequences, because superinfection is a necessary first step for viral recombination to occur. Recombination may produce more virulent viruses, drug-resistant viruses, or viruses with altered cell tropism. Additionally, recombinant viruses and superinfection can accelerate disease progression and increase the likelihood of sexual transmission by increasing virus load in the blood and genital tract. The extent of superinfection and recombination in persons living with HIV is unknown. The implications of HIV superinfection and the generation of recombinant viruses are discussed.
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PMID:Human immunodeficiency virus superinfection and recombination: current state of knowledge and potential clinical consequences. 1191

In this study, we describe two cases of human immunodeficiency virus type 1 (HIV-1) intersubtype superinfection with CRF01_AE and subtype B strains, which occurred in two injection drug users participating in a prospective cohort study in Bangkok, Thailand. In both cases, the superinfecting strain was detected by molecular and serologic analyses several weeks after complete seroconversion to the primary infection with a strain belonging to a different subtype. Superinfection occurred despite specific T-cell and humoral antibody responses to the primary virus. In both cases, cross-subtype immune responses were limited or absent prior to the second infection. These data show that, in some individuals, the quality and quantity of the immune response elicited by primary HIV-1 infection may not protect against superinfection. This finding has important implications for vaccine design. HIV-1 vaccines, at a minimum, will need to include potent, broadly protective, conserved immunogens derived from several group M subtypes.
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PMID:Intersubtype human immunodeficiency virus type 1 superinfection following seroconversion to primary infection in two injection drug users. 1209 56

Packaging of the human immunodeficiency virus type 1 Vif protein into virus particles is mediated through an interaction with viral genomic RNA and results in the association of Vif with the nucleoprotein complex. Despite the specificity of this process, calculations of the amount of Vif packaged have produced vastly different results. Here, we compared the efficiency of packaging of Vif into virions derived from acutely and chronically infected H9 cells. We found that Vif was efficiently packaged into virions from acutely infected cells (60 to 100 copies per virion), while packaging into virions from chronically infected H9 cells was near the limit of detection (four to six copies of Vif per virion). Superinfection by an exogenous Vif-defective virus did not rescue packaging of endogenous Vif expressed in the chronically infected culture. In contrast, exogenous Vif expressed by superinfection of wild-type virus was readily packaged (30 to 40 copies per virion). Biochemical analyses suggest that the differences in the relative packaging efficiencies were not due to gross differences in the steady-state distribution of Vif in chronically or acutely infected cells but are likely due to differences in the relative rates of de novo synthesis of Vif. Despite its low packaging efficiency, endogenously expressed Vif was sufficient to direct the production of viruses with almost wild-type infectivity. The results from our study provide novel insights into the biochemical properties of Vif and offer an explanation for the reported differences regarding Vif packaging.
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PMID:Human immunodeficiency virus type 1 Vif is efficiently packaged into virions during productive but not chronic infection. 1250 29


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