Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A monoclonal antibody-based antigen capture enzyme-linked immunosorbent assay (ELISA) was developed and employed to detect p24 capsid antigen from human T-cell lymphotropic viruses type I and II (HTLV-I, HTLV-II), simian T-cell lymphotropic virus type I (STLV-I)-infected cell lines, and from mononuclear cell cocultures of HTLV-infected humans and STLV-I infected monkeys. A monoclonal antibody specific for HTLV p24 and p53 capsid antigens was coated onto 96-well microtiter plates to capture HTLV/STLV antigen. Captured antigen was then detected by the addition of a polyclonal, biotinylated human anti-HTLV-I antibody, and color developed with tetramethyl benzidine/H2O2 substrate. As little as 15 pg/ml of HTLV-I p24 antigen could be detected in this assay. Culture supernatants from HTLV-I-infected cell lines (HUT-102, MT-2, C5/MJ, HTLV-II-infected cell lines (Mo-T, Mo-B, PanG 12.1, NRA) and STLV-I-infected cell lines (Matsu, NEPC M39) were all positive in the assay. In addition, p24 was detected from peripheral blood mononuclear cell (PBMC) cocultures of 8 of 8 (100%) HTLV-I diseased patients, 14 of 20 (70%) HTLV-I and HTLV-II-infected, asymptomatic persons, and 8 of 8 (100%) STLV-I-infected, asymptomatic monkeys. Culture supernatants of cells infected with human immunodeficiency virus type (HIV-1), simian immunodeficiency virus (SIV), Chlamydia trachomatis, cytomegalovirus (CMV), herpes simplex I and II (HSV), feline leukemia virus (FELV), bovine leukemia virus (BLV), and bovine immunodeficiency virus (BIV) were all negative. Similarly, normal human peripheral blood mononuclear cells and uninfected, transformed human T cells, were also negative in the assay.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Development of a monoclonal antibody-based p24 capsid antigen detection assay for HTLV-I, HTLV-II, and STLV-I infection. 131 63

A human T-cell line producing human T-cell leukemia virus type I (HTLV-I), MT-2, was injected intravenously into female F344 rats aged 5 weeks to make HTLV-I carrier rats. Antibody against HTLV-I was detected at the 5th week after MT-2 injection, and its titer reached a high plateau which continued from the 15th to the 27th week. The antibodies were against p19, p24, p28 and p53 of HTLV-I antigens from MT-2 cells. The gag, pX and LTR nucleotide sequences of HTLV-I provirus were demonstrated by using polymerase chain reaction (PCR) in the peripheral-blood mononuclear cells of 3 rats at the 44th week and 2 at the 66th to 68th week out of 8 F344 rats injected with MT-2 cells. Quantification of the HTLV-I proviral sequence revealed that 30 to 60 molecules were present in 10(5) peripheral-blood mononuclear cells, indicating that the rats were chronically infected with HTLV-I. HTLV-I-infected rats could serve as a small-animal model for studying the pathophysiological state of HTLV-I carriers and also that of HTLV-I infection on various HTLV-I-related diseases, including adult T-cell leukemia and HTLV-I-associated myelopathy.
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PMID:Infection of rats with HTLV-1: a small-animal model for HTLV-1 carriers. 168 81

We analyzed sera collected during 1987 and 1988 from 385 healthy business employees of both sexes, of Ogun state in Nigeria, for antibodies to the 3 human retroviruses HIV-1, HIV-2 and HTLV-I. No serum was HIV-1 positive, 1 was HIV-2 positive and 2 were HTLV-I positive. A few sera were false-positive in the antibody screening tests which preceded the confirmatory antibody tests. In the confirmatory tests, we found that in the HIV-1 Western blot test 1 serum reacted only with the HIV-1 gag protein p17, and 2 sera reacted only with the HIV-1 pol proteins p64, p53 and p31. None of these reactivities fulfill internationally accepted criteria for HIV-1 seropositivity. We conclude that HIV-1 was rare in the study population and that HIV-2 and HTLV-I are present at a low frequency. The false positive serological reactions observed are similar to those described previously from Africa and elsewhere. The findings emphasize the importance of routinely testing blood donations for antibodies to these retroviruses in Nigeria.
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PMID:Seroepidemiology of human retroviruses in Ogun State of Nigeria. 197 90

To explore the HTLV-I-carrying groups among the indigenous inhabitants in South America, a sero-epidemiological study on HTLV-I focusing on hinterland villages isolated from others in the Andes and Amazon regions was conducted. Five (2.9%) out of 171 subjects showed positive for HTLV-I antibody in the gelatin particle agglutination (PA) test. Two out of 5 positives with high antibody titer (greater than or equal to x 1024) in the PA test also showed a positive immunofluorescence (IF) test and anti-HTLV-I-specific protein products, p19, p24, p28, gp46, and p53 in sera by the Western blotting (WB) test. One of three negatives in the IF test showed positive antibodies to p19 and p24 by the WB test. Finally, two were confirmed as HTLV-I carriers and one was suspected of being a carrier. All three are Paez Indians from the central Andes; 53- and 34-year-old women and a 35-year-old man. The results show that HTLV-I carriers exist among isolated indigenous people in South America.
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PMID:Antibody to HTLV-I in indigenous inhabitants of the Andes and Amazon regions in Colombia. 197 4

We report three Texas-born patients with spastic paraparesis and well-documented infection with HTLV-I. CSF examination showed moderate pleocytosis, protein elevation, and elevated IgG index. Oligoclonal bands were present in two patients. On MRI, one patient had frontal lobe lesions that were low intensity on T1- and high intensity on T2-weighted images. HTLV-I immunoblot studies of serum and CSF revealed reactivity to p19, p24, p53, gp46, or gp68 from all three patients. Titration studies of serum and CSF antibodies on ELISA and immunoblot assays indicated an intrathecal virus-specific response. HTLV-I-specific p19 antigen capture assay and polymerase chain reaction (PCR) demonstrated HTLV-I in lymphocyte cultures derived from each patient's peripheral blood mononuclear cells (PBMC) or CSF cells. Using HTLV-I- and HTLV-II-specific pol and gag primers, PCR studies of PBMC cells obtained directly from the patients demonstrated that the patients were infected with HTLV-I and not HTLV-II. These three cases are to our knowledge the only US cases in whom virus isolation from the CSF has been accomplished. Importantly, two patients may be the first US cases of myelopathy arising from endemic infection.
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PMID:HTLV-I-associated myelopathy endemic in Texas-born residents and isolation of virus from CSF cells. 204 26

Twelve long-term cell lines were established from peripheral blood mononuclear cells (PBMC) or cerebrospinal fluid cells of patients with human T lymphotropic virus type I (HTLV-1) seropositive tropical spastic paraparesis (TSP) originating from the French West Indies, French Guyana or the Central African Republic. Most of these long-term interleukin-2-dependent cell lines exhibited a pattern characteristic of CD4(+)-activated T cells with high expression of CD2, CD3 and CD4 antigens, associated with a strong density of TAC and DR molecules. Nevertheless, in five cases CD8 expression was present at a significant level. HTLV-I antigens were never detected in uncultured PBMC, but they were expressed in a few cells after short-term culture and after 4 months the majority of the cells were HTLV-I positive, as demonstrated by indirect immunofluorescence (IF) using polyclonal or monoclonal anti-p19 and anti-p24 antibodies. Low and variable levels of reverse transcriptase activity were detected in supernatant fluids of these cell lines only after 4 months of culture, when at least 50% of the cells exhibited HTLV-I antigens by IF. However, numerous type C HTLV-I-like viral particles were detected, mostly in the extracellular spaces, with rare budding particles. Similar findings were found in three T cell lines derived from West Indian and African patients with adult T-cell leukaemia/lymphoma (ATLL). Differences in high Mr polypeptides were detected by Western blot in cell lysates when comparing TSP- or ATLL-derived T cell lines. Thus a signal of 62K was easily detectable in all the TSP lines, but not in the ATLL lines. In all cell lines bands corresponding to p53, p24 and p19 viral core polypeptides were present, as was the env gene-coded protein p46.
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PMID:Cell surface phenotype and human T lymphotropic virus type 1 antigen expression in 12 T cell lines derived from peripheral blood and cerebrospinal fluid of West Indian, Guyanese and African patients with tropical spastic paraparesis. 230 64

In the HTLV-I seroscreening of blood donor sera by gelatin particle agglutination (PA), more than 50% (55.6%) of the PA-positive sera were negative by immunofluorescence assay (IF). However, when donors were divided into age groups, there were increasing numbers of IF-positive/PA-positive donors with age. Among the PA-positive donors in the 50-64 age group, 65.9% were IF-positive compared to 16.0% in the 16-19 age group. The serological specificities of the IF-negative/PA-positive specimens were tested by using a newly developed PA inhibition (PAI) test. The HTLV-I specificity of the PAI test was confirmed by the observation that agglutinations with anti-HTLV-I p19 and gp21 monoclonal antibodies as well as IF-positive sera were specifically inhibited with HTLV-I preparations or HTLV-I-positive cell extracts and not with HTLV-I-negative cell extracts. Sixty of the 104 specimens collected randomly from the IF-negative/PA-positive donors were PAI-positive. The majority (80%) of such PAI-positive sera showed more than two bands of HTLV-I gag-encoded polypeptide, p19, p24, p28 and p53 on Western blotting. Some of the PAI-positive sera were also positive by enzyme immunoassay. These results indicate that at least some of the IF-negative/PA-positive donors possess HTLV-I-specific antibody and may be potential HTLV-I carriers who will become IF-positive at a later age.
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PMID:Evaluation of the human T-cell leukemia virus type I seropositivity of blood donors by the particle agglutination inhibition test. 251

An autopsy case of HTLV-I associated myelopathy (HAM) was reported. The patient was a 55-year-old man from Kagoshima, who had no history of blood transfusion. He was admitted to our hospital because of muscle weakness of legs and dysuria, which having since one month ago. On admission, he was able to walk with assistance, but his legs were severely spastic, and Babinski's sign was positive bilaterally. Superficial sensation was normal, but vibration sense was mildly decreased in his legs. CSF showed mild mononuclear pleocytosis with elevated protein. Myelogram and CT were normal. Serum and CSF antibodies to HTLV-I were positive at titers of X4,096 and X128, respectively by immunofluorescent assay, and specific IgG bands (p19, p24, p28 and p53 in serum and p19, p24, p53 in CSF) were detected by western blot analysis. His paraparesis continued to worsen. He became bed-ridden within 2 months. He was received corticosteroid medication. He regained the ability to walk with assistance, and continued taking corticosteroid. In July 4, 1986, macrohematuria appeared and inoperable transitional cell carcinoma of rt. kidney was found by further examination. Chemotherapy were not effective against the carcinoma and he died on July 21, 1987. Neuropathological findings were summarized as follows: cerebral hemisphere was normal except for mild cellular infiltration in the leptomeninges; lesions consisted in unilateral pyramidal tract of pons & medulla and in partial anterior, posterior and lateral columns of the spinal cord; demyelination with axonal degeneration, marked gliosis, numerous lipid-laden macrophages and mild perivascular infiltration of mononuclear cells in these areas.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[An autopsy case of HTLV-I associated myelopathy (HAM)]. 275 64

Human T-lymphocyte cell line termed MT-2 is producing persistently HTLV-I virion and has a strong potential to transform human T-lymphocytes when cocultivated. The virion of HTLV-I (MT-2) was isolated and its RNA was extracted to analyze the gene and gene products of HTLV-I. HTLV (MT-2) virion RNA was translated in a rabbit reticulocyte lysate system in vitro in which a gag precursor polyprotein (p53) and a putative gag-prt fusion protein (p76) were synthesized from a full length 35S RNA. The full length provirus, HTLV-I (MT-2), was molecularly cloned and its genomic expression was examined transiently and permanently by transfecting in human lymphoid and non-lymphoid cells. The cloned provirus expressed the same virological activities as observed in naturally occurring infection of the virus. A new protease gene of HTLV-I was found and its function of the gene product was studied.
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PMID:Genomic expressions of human T-lymphotropic virus (HTLV-I). 303 Mar 51

We have investigated the isotypic and IgG subclass profile of the antibody response to HTLV-I structural proteins (gag and env) in patients with HTLV-I-associated myelopathy (HAM; n = 20), adult T-cell leukemia (ATL; n = 15), and HTLV-I-positive asymptomatic carriers (ASY; n = 21). IgG, IgM, and IgA were the predominant antibody responses in all HTLV-I-infected individuals; minimal IgE response was detectable in the HAM and ATL groups. Among the IgG subclasses, IgG1 was the most predominant antibody detected in responses to HTLV-I antigens, followed by IgG3 and IgG2; IgG4 could not be detected in any patient group. Levels of both IgG1 and IgG3 were significantly higher in patients with HAM, when compared to ATL and ASY (P < 0.01 for both comparisons). In addition, Ig isotypes and IgG subclass antibody in patient sera reactive with purified viral proteins and several immunodominant epitopes, represented by synthetic peptides, Gag-1a102-117, Env-1(191-214), Env-5(242-257), and recombinant proteins, MTA-1(162-209) and r21e303-440, were examined to delineate specific epitopes responsible for inducing the host immune responses of each isotype and subclass to the structural proteins of HTLV-I. IgG, IgM, and IgA responses were directed against both the gag and env gene products. Among IgG subclasses, the IgG1 and IgG3 responses were directed against both the gag (p53, p24, p19, and Gag-1a) and env (recombinant MTA-1, r21e, and synthetic Env-1, Env-5) proteins; IgG2 responses were mainly restricted to gag proteins. The frequency profile of HTLV-I-specific antigen recognition in all four IgG subclasses were similar in all of the clinical groups. These results further define the fine specificity of anti-HTLV-I immune reaction for understanding the mechanism of pathogenesis in these individuals and suggest that factors other than the humoral immune responses may be associated with the clinical manifestation of the disease.
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PMID:Isotypic and IgG subclass restriction of the humoral immune responses to human T-lymphotropic virus type-I. 768 Mar


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