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Control of FcgammaR Triggered Macrophage Function

$294,916R21FY2002AINIH

Ohio State University, Columbus OH

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Abstract

Description; Our aim is to understand how the biologic functions mediated by macrophage Fc receptors for IgG (FcgammaR) are homeostatically controlled. FcgammaR clustering triggers a variety of macrophage functions such as endocytosis of opsonized particles, of inflammatory cytokines, and the generation of oxygen radicals. The signal cascade begins with phosphorylation of tyrosine based motifs (ITAM) in the cytoplasmic tails of the clustered receptors. These phosphorylated ITAM in turn assemble a variety of positive-acting kinases such as Syk and PI13K. The cascade must be tightly regulated to contain the inflammatory response. At least three levels of control of apparent. First, ITIM-being FcgammaRIIb, when co-clustered with ITAM-receptors, recruit the inositol phosphatase SHIP which tempers the forward response. Second, FcgammaRIIb expression, and thus SHIP recruitment, is tightly regulated by cytokines. Third, not only ITIM-but ITAM-bearing receptors such as FcgammaRI and FcgammaRIIa, which are known agonists, activate SHIP as well, integrating positive and negative signals from a single ITAM. Building on several years of work we bring to this project three innovations. First, we apply a new antibody recognizing human FcgammaRIIb that for the first time will allow us to study the function of this receptor in human cells. Second, we have found that FcgammaRIIb expression is greatly enhanced by IL-4 and culture density. Third, we show that not only ITIM-but ITAM-FcgammaR as well as activate SHIP, providing a new paradigm for FcgammaR-mediated regulation of downstream functions. Our two major hypotheses, then, are that SHIP wo4rks through both ITAM- and ITIM-FcgammaR to regulate FcgammaR function and that the regulated expression of FcgammaRIIb in turn modulates SHIP inhibition of FcgammaR-mediated responses. Testing several predictions of these hypotheses we propose three aims. First, we explore implications of the notion that ITAM activates SHIP. Second, we define the molecular details surrounding IL-4 enhancement of FcgammaRIIb expression focusing on its ultimate regulation of SHIP activity and differential regulation of the two FcgammaRIIb isoforms. Third, we dissect the molecular events downstream of SHIP asking whether there are differences between ITAM- and ITIM-mediated activation, whether the downstream SHP effects are enzymatic or due to adaptor functions, and whether the multiple FcgammaR-mediated functions are differentially regulated by SHIP. Our work focuses on human cells of the mononuclear phagocyte lineage although we take advantage of murine models where relevant. Our technical approaches to the various aims are broad based and multi- disciplinary and include the tools of molecular and cellular biology, biochemistry, and immunology. The significance of this work is that understanding these regulatory mechanisms at the molecular level holds the promise of novel therapeutic approaches for modulating antibody- triggered inflammation and killing.

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