Uncovering Basic Signaling Mechanisms in NK Cells in Mice and Humans
Research Inst Nationwide Children'S Hosp, Columbus OH
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Abstract
DESCRIPTION (provided by applicant): Natural Killer (NK) cells are lymphocytes of the innate immune system that defend us by lysing tumor and pathogen-infected cells. Recent experiments showed generation of long-lived memory NK cells in mouse and humans challenged by viral infections (such as CMV), similar to that of memory lymphocytes in the adaptive immune system. We seek to develop a quantitative mechanistic framework with predictive powers for signaling and activation in NK cells including memory NK cells in mice and humans by using a synergistic combination of in silico modeling and wet lab experiments. The in silico modeling rooted in statistical physics, non-linear dynamics, and multivariate statistics will be combined with standard biochemical and multi-parametric single cell mass cytometry (CyTOF mass cytometer) experiments on engineered human NK cell lines (NKLs), and naive and memory NK cells from mice and humans. We will investigate three overlapping aims: Aim 1: Develop a quantitative mechanistic framework for analyzing signaling and activation of NK cells stimulated by activating and inhibitory CMV-encoded ligands. Aim 2: Determine differences in signaling mechanisms between naive and memory NK cells in the mouse. Aim 3: Determine differences in signaling mechanisms between mouse and human memory NK cells. At the successful completion of the aims we will have a quantitative predictive mechanistic framework for studying NK cell signaling in mice and humans. The systems level knowledge gained from the proposed projects can also be applied in understanding mechanisms of activation regulated by heterogeneous receptor ligand interactions in other immune cells.
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