UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The T lymphocyte-derived lymphokine interleukin 2 and the cell-associated receptor for this molecule play major roles in the activation and regulation of the human immune response. An enzyme-linked immunosorbent assay has been developed to measure quantitatively a soluble form of one component of the human interleukin 2 receptor, namely the Tac peptide. In the present studies, soluble Tac peptide was measured in the urine of normal individuals (mean = 92 U/ml), a level not significantly different (0.01 less than P less than 0.05) from the corresponding serum concentrations (mean = 175). The urinary Tac peptide had a molecular weight of 40-45 kD by sodium dodecyl sulphate-polyacrylamide gel electrophoresis analysis and specifically bound interleukin 2. Elevated levels of urinary Tac peptide were found in four patients with adult T cell leukaemia who also had elevated serum levels of Tac peptide. Thus, urine may represent a valuable source of lymphokine-binding proteins that may serve as important markers of immunological activation.
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PMID:Soluble Tac peptide is present in the urine of normal individuals and at elevated levels in patients with adult T cell leukaemia (ATL). 284 56

Human T-cell leukemia virus type I (HTLV-I) was serially transmitted for 5 passages from rabbit to rabbit by blood transfusion. The virus could be transmitted with 20 ml of whole blood or washed blood cell suspension (fresh or stored for 1-2 weeks at 4 degrees C) but not with cell-free plasma from seroconverted rabbits. Seroconversion occurred 2-4 weeks after blood transfusion and serum anti-HTLV-I titers ranged from 1:20 to 1:640 with the immunofluorescence assay. From transfusion recipients of the 1st to 4th passages, virus-producing cell lines were established by culturing lymphocytes in the presence of T-cell growth factor (TCGF). Three of the 4 cell lines became TCGF-independent after 2-12 months of continuous culture. Blood was transfused between rabbits of opposite sexes and the recipient origin of each cell line was determined by chromosome analysis. We also investigated the effect of X-irradiation (6,000 rad) on blood from seropositive rabbits. Seroconversion likewise occurred in rabbits transfused with blood that had been irradiated immediately before transfusion but not in rabbits transfused with blood that had been irradiated and stored for 1-2 weeks at 4 degrees C. Thus, our rabbit model shows that HTLV-I is serially transmissible by blood transfusion and that this can be prevented by irradiation of blood. The same procedure, therefore, may be useful for the prevention of transfusion-related transmission of HTLV-I in humans.
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PMID:Serial transmission of human T-cell leukemia virus type I by blood transfusion in rabbits and its prevention by use of X-irradiated stored blood. 287 72

Four female rabbits were given twice-weekly oral inoculation of 2-4 X 10(7) cells from a male rabbit lymphoid cell line persistently infected with human T-cell leukemia virus type I (HTLV-I). After 8 weeks, one of them was found to be seroconverted for HTLV-I. Peripheral lymphocytes from the 4 rabbits were cultured in the presence of T-cell growth factor, and a lymphoid cell line with a normal female karyotype was established only from the seroconverted rabbit. This cell line was reactive with a monoclonal antibody to rabbit T-cells and expressed HTLV-I antigens and virus particles.
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PMID:Oral transmission of human T-cell leukemia virus type I in the rabbit. 287 62

Chromosome analysis was performed on nine patients with subclinical adult T-cell leukemia (pre-ATL), who were asymptomatic ATL virus carriers. Fewer than 30% of their peripheral blood leukocytes were abnormal T-lymphocytes with nuclear abnormalities. ATL-associated antigen (ATLA) and anti-ATLA antibody were found in all patients. Eight had variable abnormal karyotypes in a fraction (5.0%-25.4%) of peripheral blood leukocytes stimulated with phytohemagglutinin or T-cell growth factor. There were no metaphases when a mitogen was not added. Four patients had a clonal chromosome abnormality. The chromosome abnormality seen in one patient was observed in the first study but not in a second study, when a different abnormality was seen. In five patients, an abnormal chromosome #14 with a break at band 14q11 was found. These findings indicate that unstable, chromosomally abnormal clones are characteristic of pre-ATL.
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PMID:Chromosome instability in preleukemic states of adult T-cell leukemia (pre-ATL). 289 62

A monoclonal antibody, designated HT462, is described which is specific for an antigen expressed in human T-cell leukemia/lymphoma virus (HTLV) preparations and by HTLV-infected cells. In indirect immunofluorescence assays, the antigen was detected on the surface of both HTLV-transformed producer and nonproducer cells, including cells infected in vitro with either HTLV subgroup I (HTLV-I) or HTLV-II. Normal human peripheral blood lymphocytes stimulated with phytohemagglutinin, cord blood T cells cultured with T-cell growth factor, and a variety of HTLV-negative T- and B-cell lines all lacked HT462 antigen expression. The HT462 antigen is a 52,000-molecular-weight glycoprotein, as shown by Western blotting procedures and treatment of viral preparations with neuraminidase, endoglycosidase F, and trypsin. The unglycosylated molecule is approximately 42,000 daltons. That the antigen is virus associated was demonstrated by its banding at the density of HTLV in gradients of metrizamide and by its concomitant synthesis with HTLV gag proteins after short-term culture of primary HTLV-positive leukemic cells. Differential expression of the HT462 antigen and HTLV gag-pol gene products was observed. In one case, low HT462 expression was correlated with the known inability of the particular cell line to produce syncytia in vitro. The properties of the HT462 antigen are most consistent with it being a gene product of the HTLV px region or else a cellular antigen specifically induced after viral infection. We cannot rule out, however, that the antigen is a variant cleavage product of the env gene. The monoclonal HT462 will be useful in further definition of the proteins and functions encoded by the env-px genetic sequence and in studying the biological properties of HTLV-transformed cells. Furthermore, the monoclonal, by recognizing HTLV-transformed nonproducers, will allow a greater spectrum of virus-infected cells to be detected.
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PMID:A monoclonal antibody specific for a 52,000-molecular-weight human T-cell leukemia virus-associated glycoprotein expressed by infected cells. 298 39

The nucleotide sequence of the long terminal repeat sequence (LTR) of the human T-cell leukemia (lymphotropic) virus type III (HTLV-III) was determined. This virus is associated etiologically with the acquired immune deficiency syndrome. The LTR was found to be 634 base pairs in length with U3, R, and U5 regions of 453, 98, and 83 bp, respectively. The proviral DNA is flanked by a 7-base-pair direct repeat. The promoter and polyadenylation signals are situated 27 and 24 base pairs upstream from the respective transcriptional initiation and polyadenylation sites. The primer binding site is complementary to transfer RNA-lysine. The LTR of HTLV-III, like that of HTLV-I, showed a limited homology to enhancer-like sequences within two genes expressed specifically in T lymphocytes, T-cell growth factor, and gamma-interferon. Structural comparisons revealed that the LTR of HTLV-III is distantly related to those of HTLV-I, HTLV-II, and bovine leukemia virus.
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PMID:Characterization of long terminal repeat sequences of HTLV-III. 298 38

A rabbit lymphoid cell line (Ra-1) was established by co-cultivation with a human T-cell line (MT-2) carrying human T-cell leukemia virus (HTLV). The Ra-1 cell line is chromosomally male and is persistently infected with HTLV. Ra-1 cells, with or without mitomycin C treatment, were inoculated intravenously (i.v.) into 3 female rabbits. All 3 animals responded with the production of antibodies to HTLV antigens. Lymphocytes from one of these seroconverters were cultured in the presence of T-cell growth factor (TCGF) and HTLV particles were detected in the TCGF-grown lymphocytes which were chromosomally female. Co-cultivation of lymphocytes from the 2 other seroconverters with lymphocytes from 2 anti-HTLV-negative healthy men gave rise to the establishment of an HTLV-producing T-cell line derived from each individual. Blood transfusion from one of the HTLV-infected rabbits into 2 female rabbits also resulted in the seroconversion of both recipients. An HTLV-carrying lymphoid cell line (Ra-2) was established from one of the transfusion-related seroconverters. The Ra-2 cell line was initially TCGF-dependent but later became TCGF-independent. There results indicate that HTLV can be transmitted to rabbits. These animals may provide a suitable model system for studying the mode of transmission and pathogenicity of HTLV.
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PMID:Infectious transmission of human T-cell leukemia virus to rabbits. 298 84

Three human T-lymphotropic viruses have been isolated and characterized in the past 5 years. The ability to culture target cells with T-cell growth factor and sensitive detection systems for the virally encoded polymerase reverse transcriptase permitted isolation of HTLV-I, which is strongly linked to the cause of adult T-cell leukemia and associated with other lymphoid malignancies in endemic areas. The same techniques, using a permissive human tumor cell line, allowed the isolation and characterization of HTLV-III/lymphadenopathy-associated virus, which is implicated as the primary cause of the acquired immunodeficiency syndrome (AIDS). This virus shares some features with HTLV-I and HTLV-II, such as additional genes not found in most retroviruses. One gene codes for a transcriptional activator protein and may be a feature of a larger group of related retroviruses. The clear identification of the primary cause of AIDS has resulted in the development of specific immunologic reagents, preventive and therapeutic proposals, and comprehensive identification of the clinical diseases associated with this virus.
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PMID:A human T-lymphotropic retrovirus (HTLV-III) as the cause of the acquired immunodeficiency syndrome. 299 99

Acquired immune deficiency syndrome (AIDS) is characterized by severe depletion of OKT4+ T lymphocytes and leukemia is associated with abnormal proliferation of maturation-arrested lymphocytes. Human T-lymphotropic virus type III (HTLV-III) or lymphoadenopathy virus (LAV) and type I (HTLV-I) are etiologically linked to AIDS and adult T-cell leukemia/lymphoma, respectively. T-cell growth factor (TCGF, also known as interleukin 2) is required for the growth of activated T-cells, which play an important role in immune regulation. gamma-Interferon (IFN-gamma) is also implicated in immune modulation. It was possible that T-cell depletion in acquired immune deficiency syndrome could be due to an impairment of TCGF synthesis and that adult T-cell leukemia could be due to unregulated production of TCGF. The results reported here show that the transcription of the TCGF gene was not impaired in cultured HTLV-III-infected cells. Paradoxically, the TCGF gene in HTLV-I-infected cells was transcriptionally inactive. The reverse was the case for the gamma-interferon gene--it was actively transcribed in HTLV-I-infected cells but not in the HTLV-III-infected and virus-producing H9 and H4 cell line. No evidence was obtained suggesting abnormal regulation of the TCGF or of the IFN-gamma gene consequent to HTLV-III infection. It thus appears that in both HTLV-III and HTLV-I infection, growth control and immune regulatory mechanisms may bypass a modulatory role of TCGF or of IFN-gamma.
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PMID:Human T-cell growth factor (interleukin 2) and gamma-interferon genes: expression in human T-lymphotropic virus type III- and type I-infected cells. 300 15

Adult T-cell leukemia is a progressive disease produced by infection of mature T-cells with the human T-lymphotropic virus-I (HTLV-I). These retrovirus infected T-cells express large numbers of receptors for interleukin 2 (or T-cell growth factor). Due to the presence of these receptors, these leukemic T-cells can be selectively killed in vitro by monoclonal anti-interleukin 2 receptor antibody covalently linked to the A chain of the plant toxin, ricin (anti-TAC-A), suggesting that such immunotoxins may be useful in the therapy of this disease. In this report we demonstrate that the lysosomotropic agent ammonium chloride and the carboxylic ionophore monensin substantially potentiate the cytotoxicity of anti-TAC-A on HUT 102 cells, a long-term cultured HTLV-I infected T-cell line. Anti-TAC-A alone produces half-maximal inhibition of protein synthesis in HUT 102 cells at a concentration of 2.2 X 10(-10) M (the 50% inhibitor, concentration). Addition of ammonium chloride or monensin augments the potency of anti-TAC-A killing 100-fold (50% inhibitory concentration = 2.5 X 10(-12) M) and 400-fold (50% inhibitory concentration = 8 X 10(-13) M), respectively; furthermore, these agents accelerate rate of anti-TAC-A intoxication and increase the specific killing of interleukin 2 receptor-bearing leukemic cells. At concentrations which cause only minor harm to colony forming hematopoietic progenitor cells (granulocyte-erythroid, monocytic, megakaryocytic colony forming unit, granulocyte-macrophage colony forming unit, macrophage colony forming unit, and granulocyte colony forming unit), anti-TAC-A alone is able to eliminate greater than 99.99% of an HTLV-I infected T-cell population. In the presence of ammonium chloride or monensin, respectively, a 3.5- and 20-fold greater cytoreduction of HTLV-I infected T-cells is achieved. Combined treatment with anti-TAC-A and monensin may offer an efficient and highly selective means of purging bone marrow of patients with adult T-cell leukemia, which may then be used for autologous marrow transplantation.
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PMID:Selective killing of human T-lymphotropic virus-I infected leukemic T-cells by monoclonal anti-interleukin 2 receptor antibody-ricin A chain conjugates: potentiation by ammonium chloride and monensin. 301 Dec 46

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