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KMID : 0311120000410010112
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Yonsei Medical Journal
2000 Volume.41 No. 1 p.112 ~ p.118
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Spontaneous Programmed Cell Death of Peripheral Blood Mononuclear Cells from HIV-infected Persons is Decreased with Interleukin-15
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Kyung Hee Chang
June Myung Kim/Hyo Youl Kim/Young Goo Song/Young Hwa Choi/Yoon Soo Park/Jung Ho Cho/Sung Kwan Hong
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Abstract
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Interleukin 15 (IL-15) is an important regulatory cytokine in cellular immunity. In vitro replacement of IL-15 has been shown to enhance immunity in Human immunodeficiency virus type 1 (HIV-1) infected lymphocytes. We evaluated the effect of IL-15 on the survival of peripheral blood mononuclear cells of HIV patients by examining in vitro lymphocyte apoptosis, and correlated the process with Bcl-2 and Fas gene regulation. Peripheral blood mononuclear cells (PBMC) from 21 HIV-infected adults and 24 HIV-seronegative healthy individuals were isolated and cultured to determine the effect of escalating doses of IL-15 (0, 1, 10, 100, 1000 ng/mL) on apoptosis. Lymphocyte proliferation assay with (3H) TdR was measured and Bcl-2 and Fas gene regulation was observed. The results were as follows: 1) IL-15 reduced culture induced lymphocyte apoptosis in HIV patients in a dose dependent manner, and reached a plateau level at a concentration of 100 ng/ml; 2) IL-15 significantly reduced the level of apoptosis after 3 days (14%) and 5 days (15%) of culture in HIV patients, while no difference was observed in HIV (-) donors; 3) The percentage of viable cells among the total number of lymphocytes was significantly enhanced by 25% in HIV patients with IL-15; 4) Bcl-2 expression was decreased in HIV patients (53.9 ¡¾ 12.3%) compared to HIV (-) donors (93.0 ¡¾ 3.7%), and IL-15 increased Bcl-2 expression by 21.2 ¡¾ 5.2% in HIV patients; 5) Fas expression was increased in HIV patients (70.2 ¡¾ 4.6%) compared to HIV (-) donors (32.4 ¡¾ 4.3%), and IL-15 increased Fas expression by 8.4 ¡¾ 1.2% in HIV (-) donors. Our findings indicate that IL-15 may influence immunologic abnormalities in HIV infection, particularly its ability to prevent apoptosis of lymphocytes by suppressing the down-modulation of Bcl-2. This may provide an experimental basis for IL-15 immunotherapy.
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KEYWORD
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Interleukin 15, lymphocyte, apoptosis, Human Immunodeficiency Virus,
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