Publication Date:
2006-11-16
Description:
NK cells predominantly utilize the granule exocytosis pathway to kill virus-infected and malignant target cells. Current paradigms suggest that resting NK cells have pre-formed granules containing granzymes A, B, and perforin and are ready to kill targets immediately upon proper recognition by NK receptors. Here, we report that resting murine NK cells in the spleen exhibit poor cytotoxicity (5.4±1.6% target cell death, 20:1 E:T ratio and 4 hour incubation), compared with cytokine-activated (IL-15, 48 hours) splenic NK cells (59.7±10.6% target cell death), against the RMAS tumor cell line in vitro as measured by a flow-based killing assay. In addition, using intracellular flow cytometric analysis with monoclonal antibodies specific for granzymes A, B, and perforin, we find that resting murine NK cells express abundant granzyme A (86.2±1.9% positive), but little or no granzyme B (4.4±5.4% positive) or perforin (2.6±1.8% positive). Activation of murine NK cells with IL-15 induces robust expression of both perforin (59.1±2.0% positive) and granzyme B (91.5±7.9% positive), which correlates with increased cytotoxicity. Further, granzyme B cluster −/− (26±6.7% target cell death) and perforin −/− (5.7±1.3% target cell death) NK cells have poor cytotoxicity in vitro despite IL-15 activation. Poly I:C simulates RNA virus infection and activates NK cell cytotoxicity in vivo through TLR3 and cytokine cascades. NK cell granzyme B and perforin expression is induced in vivo 24 hours after poly I:C injection, correlating with increased in vitro NK killing of tumor targets. In wild type mice infected with murine cytomegalovirus (MCMV), NK cell expression of both perforin (83.5±4.9% positive) and granzyme B (89.3±2.1% positive) is upregulated in the spleen, peaking 2–4 days post-infection and returning to baseline by 8 days post-infection. In addition, MCMV titers are significantly elevated at day 3 post-infection in both granzyme B cluster −/− (P
Print ISSN:
0006-4971
Electronic ISSN:
1528-0020
Topics:
Biology
,
Medicine
Permalink