Granulysin-mediated tumor rejection in transgenic mice

LP Huang, SC Lyu, C Clayberger… - The journal of …, 2007 - journals.aai.org
LP Huang, SC Lyu, C Clayberger, AM Krensky
The journal of immunology, 2007journals.aai.org
Granulysin (GNLY) is a cytolytic molecule expressed by human CTL and NK cells with
activity against a variety of tumors and microbes, including Mycobacterium tuberculosis.
Although the molecular mechanism of GNLY-induced apoptosis of Jurkat T cells is well
defined in vitro, no direct evidence for its in vivo effects has been demonstrated. Because
there is no murine homologue of GNLY, we generated mice expressing GNLY using a
bacterial artificial chromosome containing the human GNLY gene and its 5′ and 3 …
Abstract
Granulysin (GNLY) is a cytolytic molecule expressed by human CTL and NK cells with activity against a variety of tumors and microbes, including Mycobacterium tuberculosis. Although the molecular mechanism of GNLY-induced apoptosis of Jurkat T cells is well defined in vitro, no direct evidence for its in vivo effects has been demonstrated. Because there is no murine homologue of GNLY, we generated mice expressing GNLY using a bacterial artificial chromosome containing the human GNLY gene and its 5′ and 3′ flanking regions. GNLY is expressed in leukocytes from transgenic mice with similar kinetics as in PBMC from humans: GNLY is constitutively expressed in NK cells and, following stimulation through the TCR, appears in T lymphocytes 8–10 days after activation. Both forms of GNLY (9 and 15 kDa) are produced by activated T cells, whereas the 15-kDa form predominates in freshly isolated NK cells from transgenic animals. GNLY mRNA is highest in spleen, with detectable expression in thymus and lungs, and minimal expression in heart, kidney, liver, muscle, intestine, and brain. Allospecific cell lines generated from GNLY transgenic animals showed enhanced killing of target cells. In vivo effects of GNLY were evaluated using the syngeneic T lymphoma tumor C6VL. GNLY transgenic mice survived significantly longer than nontransgenic littermates in response to a lethal tumor challenge. These findings demonstrate for the first time an in vivo effect of GNLY and suggest that GNLY may prove a useful therapeutic modality for the treatment of cancer.
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