UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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We previously described the molecular cloning of a replication-defective variant of feline leukemia virus (FeLV) that induced fatal immunodeficiency in cats. Eighteen proviruses have now been molecularly cloned from cats inoculated with the original isolate (FeLV-FAIDS) or its in vivo passages. Three were replication-competent and each of these was noncytopathic for the feline T-cell line, 3201. Replication of the prototype, FeLV-61E, in cats was associated with development of T cell tumors in some cats. The remaining 15 proviruses were replication-defective, but each of six of these tested was found to be cytopathic for 3201 cells when rescued with the noncytopathic helper virus, 61E. Three defective/helper virus mixtures were inoculated into cats and all induced fatal immunodeficiency, but with varied efficiency and kinetics. Each of these virus mixtures was attenuated relative to a mixture containing 61E and the intestine-targeted, FeLV-FAIDS-61C prototype defective molecular clone. Furthermore, one replication-competent virus chimera generated using the envelope and LTR of the defective pathogenic variant was incapable of inducing viremia in cats. The observed differences in the biological activity between the defective viruses could be attributed to no more than 10 scattered amino acid changes in envelope and either one or two nucleotide changes in the LTR.
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PMID:Structure and pathogenicity of individual variants within an immunodeficiency disease-inducing isolate of FeLV. 131 74

Feline leukemia viruses (FeLVs) belonging to interference subgroup C induce fatal anemia resembling human pure red cell aplasia (PRCA). Subgroup A FeLVs, although closely related genetically to FeLVs of subgroup C, do not induce PRCA. The determinants for PRCA induction by a molecularly cloned prototype subgroup C virus (FeLV-Sarma-C [FSC]) have been localized to the N-terminal 241 amino acids of the surface glycoprotein (SU) gp70. To investigate whether the anemogenic activity of FSC reflects a unique capacity to infect erythroid progenitor cells, we used correlative immunogold, immunofluorescence, and cytological staining to study prospectively the hemopoietic cell populations infected by either FSC or FeLV-FAIDS-61E-A (F6A), a prototype of subgroup A virus. The results demonstrated that although only FSC-infected animals developed erythrocyte aplasia, the env SU and the major core protein (p27) were expressed in a surprisingly large fraction of the lymphoid, erythroid, and myeloid lineage marrow cells in both FSC- and F6A-infected cats. Between days 8 and 17 postinoculation, gp70 and p27 were detected in 43 to 73% of erythroid, 25 to 75% of lymphoid, and 35 to 50% of myeloid lineage cells, regardless of whether the cats were infected with FSC or F6A. Thus, anemogenic subgroup C and nonanemogenic subgroup A FeLVs have similar hemopoietic cell tropism and infection kinetics, despite their divergent effects on erythroid progenitor cell function. Acute anemia induction by subgroup C FeLV, therefore, does not reflect a unique tropism for marrow erythroid cells but rather indicates a unique cytopathic effect of the SU on erythroid progenitor cells.
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PMID:Hematopoietic target cells of anemogenic subgroup C versus nonanemogenic subgroup A feline leukemia virus. 132 10

Cats infected with the highly pathogenic feline leukemia virus isolate FeLV-FAIDS develop an immunodeficiency syndrome characterized by progressive loss of CD4+ T cells and eventual pan-lymphocyte depletion. Prior to the decline in circulating CD4+ cells, infected cats are unable to mount primary antibody responses to T-dependent antigens. We investigated whether the altered ability of helper T cells to produce cytokines necessary for B cell growth and differentiation might be a primary event in the pathogenesis of FeLV-FAIDS infection. We found that as early as 9 weeks after infection, lymphocytes from cats with normal CD4+ cell numbers produced significantly lower levels of B-cell stimulatory factors. This deficit became progressively more severe with time. By contrast, resting B cells isolated from infected cats did not differ from controls in the ability to undergo activation and differentiation to antibody-secreting cells. The results suggest that a progressive defect in Th function occurs prior to CD4+ T-cell depletion early in the course of FeLV-FAIDS induced immunodeficiency.
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PMID:Early and progressive helper T-cell dysfunction in feline leukemia virus-induced immunodeficiency. 133 29

Within the fatal immunodeficiency disease-inducing strain of feline leukemia virus, FeLV-FAIDS, are viruses which range in pathogenicity from minimally (clone 61E is the prototype) to acutely pathogenic, most of the latter of which are also replication defective (clone 61C is the prototype). Mixtures of 61E and 61C virus and chimeras generated between them, but not 61E alone, killed feline T cells. T-cell killing depended on changes within a 7-amino-acid region near the C terminus of the gp70 env gene or was achieved independently by changes within a 109-amino-acid region encompassing the N terminus of gp70. The carboxy-terminal change was also sufficient for induction of fatal immunodeficiency disease in cats. Other changes within the 61C gp70 gene enhanced T-cell killing, as did changes in the long terminal repeat, the latter of which also enhanced virus replication. T-cell killing correlated with high levels of intracellular unintegrated and proviral DNA, all of which were blocked by treatment of infected cells with sera from 61C-immune cats or with a neutralizing monoclonal antibody. These findings indicate that T-cell killing is a consequence of superinfection and that the mutations in env critical to pathogenicity of the immunosuppressive variant result in a failure to establish superinfection interference in infected cells.
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PMID:Viral genetic determinants of T-cell killing and immunodeficiency disease induction by the feline leukemia virus FeLV-FAIDS. 164 41

We used a panel of in vitro assays to investigate the nature of immune dysfunction in cats infected with FeLV-FAIDS, a naturally occurring, molecularly cloned feline leukemia virus (FeLV) isolate which induces a fatal immunodeficiency syndrome in infected cats. During the asymptomatic period preceding immunodeficiency disease, we were unable to detect any deficits in concanavalin A-induced blastogenesis, xenogeneic mixed-lymphocyte reaction assays, stimulation of lymphocytes by soluble protein antigen, and cytotoxic T lymphocyte assays. However, during this period humoral immune responses in the FeLV-FAIDS-infected cats were dramatically impaired. As early as 9 weeks after virus inoculation, the ability to mount either an IgM or IgG response to soluble protein antigens was lost. Neither B cell function, as assessed by lipopolysaccharide-induced blastogenesis or circulating B cell numbers, as assessed by immunofluorescence, differed between infected and control cats. These results suggest that FeLV-FAIDS infection may impair a subpopulation of T helper cells, that provides help for the production of antibody. Consistent with earlier observations of cats naturally infected with FeLV, our results indicate that early impairment of humoral immunity is an important component of the immunodeficiency syndrome induced by FeLV in cats.
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PMID:Selective impairment of humoral immunity in feline leukemia virus-induced immunodeficiency. 165 28

A fatal immunodeficiency syndrome with clinical and pathologic features similar to human AIDS is inducible in cats by experimental inoculation with a specific strain of feline leukemia virus (FeLV) called FeLV-FAIDS. The course of the feline disease is characterized by an age-dependent prodromal period during which a non-disease-specific, common form of proviral DNA is detected in bone marrow. Preceding clinical onset of immunodeficiency is production of high levels of specific, pathogenic variant genomes, primarily as unintegrated viral DNA, in bone marrow. Acute immunodeficiency syndrome (survival period approximately 3 months) is associated with a short prodromal period and appearance of a characteristic variant genome (variant A) that persists at high copy number as integrated and full-length unintegrated viral DNA in bone marrow. Chronic immunodeficiency syndrome (survival greater than 1 year) is marked by a longer prodromal period, a more gradual onset of severe clinical immunosuppression, and a predominance of other variant genomes that often contain substantial internal deletions. In both forms of the disease, tissue-specific replication of certain variant viruses is noted in the bone marrow, intestine, and lymph nodes. Evidence from in vitro and in vivo virus transmission studies indicates that the appearance of FeLV-FAIDS variant viruses reflects differential replication of viral genomes pre-existing in the inoculum rather than rapid de novo evolution of new variants within each animal. These results demonstrate that retrovirus-induced immunodeficiency disease in cats can be associated with and prefigured by the amplified replication of specific viral variants in target tissues.
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PMID:Disease progression and viral genome variants in experimental feline leukemia virus-induced immunodeficiency syndrome. 185 Jul 96

AZT inhibited replication of an immunodeficiency-inducing strain of feline leukemia virus (FeLV-FAIDS) in vitro at concentrations as low as 0.005 microgram/mL. This antiviral activity was augmented an additional 25-30% when AZT was combined with human recombinant alpha-interferon (2b) (IFN alpha). Administration of AZT alone or in combination with IFN alpha, beginning at the time of exposure to a 100% persistent viremia-inducing dose of FeLV-FAIDS, abrogated the progression of viral infection and protected treated animals from induction of persistent antigenemia and disease. Low levels of antigenemia were detected intermittently in some AZT-treated cats throughout the 6 week treatment and 40 week observation period. Combination of AZT with IFN alpha appeared even more effective than AZT alone. In this treatment group even transient antigenemia was undetectable throughout the therapy and posttherapy observation periods, and latent virus could not be reactivated from bone marrow cells of protected animals. These results provide additional evidence that early treatment with AZT or AZT/IFN alpha therapy can be effective in completely aborting retroviral infections.
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PMID:Therapy of presymptomatic FeLV-induced immunodeficiency syndrome with AZT in combination with alpha interferon. 196 30

The FeLV-FAIDS strain of feline leukemia virus consistently induces fatal immunodeficiency. To investigate the immunopathogenesis and viral genetic determinants responsible for the induction of immunodeficiency disease in vivo, we have generated chimeras between the two major viral genomes in the original virus isolate, designated common form clone 61E and major variant clone 61C, which were molecularly cloned directly from DNA of the same animal and tissue. Each of three 61E/C chimeras, containing at minimum a 34-amino-acid segment (including a 6-amino-acid insertion and one amino acid substitution) near the C terminus of the 61C surface glycoprotein (gp70), induced fatal immunodeficiency disease in all (12 of 12) infected animals over a course of 33 +/- 10 weeks. By contrast, animals infected with virus 61E, although persistently antigenemic, remained asymptomatic throughout a 48-week observation period. Beginning 14 weeks after infection, a significant decrease (8 to 10%) in the percent of circulating CD4+ T lymphocytes developed in the 61E/C chimera-infected cats, compared with either 61E-infected or control animals. At this time, no significant changes were seen in CD8 cells, B cells, or mitogen-induced blastogenesis. Prior to this initial decline in CD4 cells, the ability of all antigenemic 61E/C-infected cats to generate a primary antibody response to the T-cell-dependent antigen keyhole limpet hemocyanin was markedly impaired, whereas all 61E-infected cats, one 61E/C-infected but nonviremic cat, and all uninfected control cats produced normal antibody responses. The results reported here demonstrate that a major determinant of in vivo immunodeficiency induction by FeLV-FAIDS is contained within a 34-amino-acid C-terminal segment of its surface glycoprotein and that this gp70 alteration determines the early and persistent deficits in CD4+ T lymphocytes and T-cell-dependent antibody responses. We hypothesize that these early immunologic alterations could result from early deletion of a CD4+ helper T-cell subset.
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PMID:Lymphocyte subset alterations and viral determinants of immunodeficiency disease induction by the feline leukemia virus FeLV-FAIDS. 197 22

Zidovudine (3'-azido-3'-deoxythymidine; AZT) inhibited replication of an immunodeficiency-inducing strain of feline leukemia virus (FeLV-FAIDS) in vitro at concentrations of 0.5-0.005 micrograms/ml. A 25-30% additional antiviral effect was achieved in vitro when AZT was combined with human recombinant alpha interferon 2a (IFN alpha). Oral administration of AZT (20 mg/kg three times daily) to cats resulted in plasma concentrations of 3 micrograms/ml at 2 h post-administration with a T1/2 of approximately 1.60 h. Administration of AZT alone or in combination with IFN alpha or interleukin-2 (IL-2) throughout a 6-week treatment period enabled cats to resist challenge with FeLV-FAIDS. In contrast, those cats treated with IFN alpha or IL-2 alone became persistently antigenemic (core protein p27) in parallel with placebo-treated controls. Antigenemia remained undetectable in AZT-treated cats throughout an 80-day period post-inoculation (38 days after treatment was withdrawn). However, latent FeLV-FAIDS in bone marrow was detectable by in vitro culture of progenitor cells in the presence of hydrocortisone. Serial analysis of circulating p27 antigen, neutralizing antibody, and quantification of latent, reactivatable virus indicated that those animals receiving AZT in combination with IFN alpha were most able to resist FeLV-FAIDS challenge. This work provides additional evidence that early presymptomatic treatment employing combination chemoimmunotherapy can be effective in medical intervention of retroviral infection.
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PMID:Zidovudine in combination with alpha interferon and interleukin-2 as prophylactic therapy for FeLV-induced immunodeficiency syndrome (FeLV-FAIDS). 216 83

FeLV-FAIDS, an immunodeficiency-inducing isolate of feline leukemia virus, is composed of a pathogenic but replication-defective genome (molecular clone 61C) and a replication-competent but non-immunodeficiency-inducing variant genome (molecular clone 61E). The chimeric virus EECC, composed of the 5' gag-pol of 61E fused to the env-3' LTR of 61C, also induces immunodeficiency. The 61C (or EECC) gp80 can be distinguished from that of 61E on the basis of antigenic recognition, size, and rate of posttranslational processing. We found that the nascent precursor polypeptides of the two viruses were the same size; however, the 61E gp80 rapidly shifted to a smaller size and was subsequently cleaved to gp70, whereas EECC gp80 maintained its nascent size and was cleaved to gp70 only after a prolonged time. Endo-beta-N-acetyl glucosaminidase H and N-glycanase digestions of newly formed glycoproteins resulted in a similar banding pattern for both viruses, indicating that both contained the same number of oligosaccharide side chains and that all of these were high mannose sugars. The metabolic inhibitors of glycosylation, castanospermine or N-methyldeoxynojirimycin, prevented both the rapid trimming of 61E gp80 and its cleavage to gp70. Treatment with mannosidase inhibitors, however, did not affect 61E gp80 processing or size, suggesting that retention of glucose residues on EECC was responsible for these distinguishing properties of the glycoprotein. The pathological consequence of aberrant viral glycoprotein processing was evaluated in feline 3201 T lymphocytes, which are infectable by both 61E and EECC but are killed only by EECC. As in fibroblasts, the EECC glycoprotein produced in lymphocytes was larger, antigenically distinct, and processed more slowly than was the glycoprotein of 61E. Castanospermine treatment of 61E-infected 3201 T cells, however, not only abrogated the antigenic differences between the 61E and EECC glycoproteins but also resulted in a cytopathic effect. Our results suggest that (i) intracellular accumulation of EECC envelope glycoprotein may occur consequent to retention of glucose residues on carbohydrate side chains and (ii) a strong correlation exists between delayed glycoprotein processing and cytopathicity in FeLV-FAIDS-infected T lymphocytes.
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PMID:Characterization and significance of delayed processing of the feline leukemia virus FeLV-FAIDS envelope glycoprotein. 216 20

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