Yoshihiro Ami scite author profile

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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Expression of -Fetoprotein and Prostate-specific Antigen Genes in Several Tissues and Detection of mRNAs in Normal Circulating Blood by Reverse Transcriptase-Polymerase Chain Reaction

Ishikawa¹,

Kashiwagi²,

Iwakami³

et al. 1998

Japanese Journal of Clinical Oncology

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Background: a-Fetoprotein (AFP) and prostate-specific antigen (PSA) in serum are widely used as tumor markers in the evaluation of prognosis and management of patients with hepatocellular carcinoma and prostate cancer, respectively. To establish the molecular diagnosis of cancer, reverse transcriptase polymerase chain reaction (RT-PCR) for AFP and PSA was used to identify circulating cancer cells in the blood of cancer patients. Here, we examined the tissue-specificity of AFP and PSA and tested whether AFP and PSA are suitable targets in the detection of certain cancer cells by RT-PCR using peripheral blood samples. Methods:Tissue specificity of AFP and PSA was analyzed by Northern blotting and RT-PCR.Probes for AFP and PSA were hybridized with poly A+ RNAs from 50 human tissues. RT-PCR for AFP and PSA mRNA was performed using several cancerous tissues and normal tissues and peripheral blood cells from seven healthy volunteers.Results: Broad expression of AFP was observed in several tissues and a large amount of AFP mRNA was found in fetal liver. PSA was expressed in prostate, salivary gland, pancreas and uterus. By RT-PCR, AFP and PSA mRNA were detected in several tumors, including salivary pleomorphic adenoma, hilar bile duct carcinoma, pancreatic carcinoma, transitional cell carcinoma of urinary bladder and thyroid papillary carcinoma. Furthermore, AFPand PSA mRNAs were frequently detected by RT-PCR, even in peripheral blood cells from healthy volunteers. Conclusions:Neither AFPnor PSA showed tissue-specific expression. AFPand PSA mRNA were detected in several diseased and non-diseased tissues and normal circulating blood by RT-PCR.

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HTLV‐1‐associated Myelopathy/Tropical Spastic Paraparesis‐like Rats by Intravenous Injection of HTLV‐1‐producing Rabbit or Human T‐Cell Line into Adult WKA Rats

Kushida

Matsumura

Tanaka

et al. 1993

Japanese Journal of Cancer Research

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We intravenously injected Ra‐1 cells or MT‐2 cells into female adult WKA rats. Spastic paraparesis mainly in the hind‐limbs was observed in 1 out of 2 Ra‐1 cell‐injected WKA rats and in 3 out of 8 MT‐2 cell‐injected WKA rats 20 27 months after injection. The main neuropathological finding was symmetrical white matter degeneration with mononuclear cell infiltration of the spinal cord, similar to that of HTLV‐1‐associated myelopathy/tropical spastic paraparesis (HAM/TSP) patients, and degeneration of nerve roots and peripheral nerves. Antibodies against HTLV‐1 antigens were detected in plasma and cerebrospinal fluid from these HAM/TSP‐like rats. HTLV‐1 provirus was detected from the peripheral blood mononuclear cells of one of these rats 20 months after injection. Interestingly, spastic paraparesis was not observed in F344 rats.

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High incidence of HAM/TSP-like symptoms in WKA rats after administration of human T-cell leukemia virus type 1-producing cells

Kushida

Mizusawa

Matsumura

et al. 1994

J Virol

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Secreted polypeptides are a fundamental biochemical axis of intercellular and endocrine communication. However, a global understanding of composition and dynamics of cellular secretomes in intact mammalian organisms has been lacking. Here, we introduce a proximity biotinylation strategy that enables labeling, detection, and enrichment of secreted polypeptides in a cell type-selective manner in mice. We generate a proteomic atlas of hepatocyte, myocyte, pericyte, and myeloid cell secretomes by direct purification of biotinylated secreted polypeptides from blood. Our secretome atlas validates known cell type-protein pairs, reveals secreted polypeptides that distinguish between cell types, and identifies new cellular sources for classical plasma proteins. Lastly, we uncover a dynamic and previously undescribed nutrient-dependent reprogramming of the hepatocyte secretome characterized by increased unconventional secretion of the cytosolic enzyme BHMT. This secretome profiling strategy enables dynamic and cell-type dissection of the plasma proteome and the secreted polypeptides that mediate intercellular signaling.

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Yoshihiro Ami

Promoting Effects and Mechanisms of Action of Androgen in Bladder Carcinogenesis in Male Rats

Infection of rats with HTLV‐1: A small‐animal model for HTLV‐1 carriers

Expression of -Fetoprotein and Prostate-specific Antigen Genes in Several Tissues and Detection of mRNAs in Normal Circulating Blood by Reverse Transcriptase-Polymerase Chain Reaction

HTLV‐1‐associated Myelopathy/Tropical Spastic Paraparesis‐like Rats by Intravenous Injection of HTLV‐1‐producing Rabbit or Human T‐Cell Line into Adult WKA Rats

High incidence of HAM/TSP-like symptoms in WKA rats after administration of human T-cell leukemia virus type 1-producing cells

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