Mesha Austin Taylor scite author profile

NK cells are the primary effectors mediating acute rejection of incompatible bone marrow cell grafts. To reduce rejection, we evaluated the ability of chloroquine (CHQ) to prevent perforin-dependent NK cell activity. Perforin is a key cytotoxic component released from the lytic granules of activated NK cells. Generation of functional perforin requires an acidic protease activity that occurs in the secretory, lytic lysosomes. Our hypothesis was that CHQ, a lysosomotropic reagent, would raise the pH of the acidic compartment in which perforin is processed and thereby block perforin maturation and cytotoxicity. We have measured NK cytotoxicity in vivo by clearance of YAC-1 tumor cells from the lungs and by rejection of incompatible bone marrow transplants and in vitro by cytolysis of YAC-1 and Jurkat cells. The engraftment of bone marrow cells was monitored by recolonization of the spleen with hemopoietic cells from transplants of MHC class I-deficient bone marrow cells into lethally irradiated recipient mice. Transplant rejection was compared in two inbred strains of mice: 129, which apparently use perforin-dependent cytotoxicity, and C57BL/6, in which rejection can be perforin-independent. CHQ treatment reduced NK cell activity in 129 mice in which perforin is important for mediating rejection. CHQ affected the fraction of NK cell cytolysis that was Fas independent. In addition, we found that CHQ prevents perforin processing by LAK cells in vitro. These data indicate that CHQ may impair rejection of incompatible bone marrow transplants and other functions mediated by NK and cytotoxic T cells.

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Inhibition of the Death Receptor Pathway by cFLIP Confers Partial Engraftment of MHC Class I-Deficient Stem Cells and Reduces Tumor Clearance in Perforin-Deficient Mice

Taylor

Chaudhary

Klem

et al. 2001

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NK cells mediate acute rejection of MHC class I-deficient bone marrow cell (BMC) grafts. However, the exact cytotoxic mechanisms of NK cells during acute BMC graft rejection are not well defined. Although the granule exocytosis pathway plays a major role in NK cell-mediated rejection, alternative perforin-independent mechanisms also exist. By analyzing the anti-apoptotic effects of cellular Fas-associated death domain-like IL-1-converting enzyme-inhibitory protein (cFLIP) overexpression, we investigated the possible role of death receptor-induced apoptosis in NK cell-mediated cytotoxicity. In the absence of perforin, we found that cFLIP overexpression reduces lysis of tumor cells by NK cells in vitro and in vivo. In addition, perforin-deficient NK cells were impaired in their ability to acutely reject cFLIP-overexpressing TAP-1 knockout stem cells. These results emphasize the importance of NK cell death receptor-mediated killing during BMC grafts in the absence of perforin.

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Mapping of Quantitative Trait Loci Determining NK Cell-Mediated Resistance to MHC Class I-Deficient Bone Marrow Grafts in Perforin-Deficient Mice

Johansson

Taylor

Jagodic

et al. 2006

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NK cells reject allogeneic and MHC class I-deficient bone marrow (BM) grafts in vivo. The mechanisms used by NK cells to mediate this rejection are not yet thoroughly characterized. Although perforin plays a major role, perforin-independent mechanisms are involved as well. C57BL/6 mice deficient in perforin (B6 perforin knockout (PKO)) reject class I-deficient TAP-1 KO BM cells as efficiently as normal B6 mice. In contrast, perforin-deficient 129S6/SvEvTac mice (129 PKO) cannot mediate this rejection while normal 129 mice efficiently reject. This suggests that in 129, but not in B6, mice, perforin is crucial for NK cell-mediated rejection of MHC class I-deficient BM grafts. To identify loci linked to BM rejection in perforin-deficient mice, we generated backcross 1 progeny by crossing (129 × B6)F1 PKO mice to 129 PKO mice. In transplantation experiments, >350 backcross 1 progeny were analyzed and displayed a great variation in ability to reject TAP-1 KO BM grafts. PCR-based microsatellite mapping identified four quantitative trait loci (QTL) on chromosomes 2, 4, and 8, with the QTL on chromosome 8 showing the highest significance, as well as a fifth epistatic QTL on chromosome 3. This study describes the first important step toward identifying BM graft resistance gene(s).

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