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Role of Phospholipid Remodeling in Secretion and Golgi Function in Mammalian Cell

$298,366R01FY2015GMNIH

Cornell University, Ithaca NY

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Abstract

DESCRIPTION (provided by applicant): This grant focuses on the basic cell biological process of membrane trafficking through the secretory pathway in mammalian cells. Secretion plays fundamental biological roles at the level of both single cells and multi-cellular organisms t control a wide array of physiological processes including release of hormones and digestive enzymes, neurotransmission, and defense against foreign pathogens. Secretion involves the transport of cargo between intracellular organelles, e.g., between the Golgi complex and plasma membrane. Defects in the transport of proteins through these pathways are associated with a host of diseases including cancer, cystic fibrosis, neurodegeneration, and atherosclerosis. In mammalian cells, membrane tubules (60-80 nm in diameter and up to many microns in length) emanate from various organelles of the secretory pathway, and these tubules have been implicated in many intracellular trafficking steps, e.g., retrograde trafficking from the Golgi complex to the ER and anterograde movement through the Golgi stack. Recent evidence from my laboratory indicates that cytoplasmic phospholipase A (PLA) and integral membrane lysophospholipid acyltransferase (LPAT) enzymes, with opposing enzymatic activities, work in concert to mediate membrane tubule formation by directly altering membrane phospholipid composition and consequently membrane shape. The long-term objectives of this grant are to elucidate the roles of membrane tubules in intracellular trafficking, and to determine the biological functions of specific PLA and LPAT enzymes with respect to secretion in mammalian cells. The goals of this work are encompassed in three Specific Aims, with a focus on the mammalian Golgi complex: 1) identify and characterize PLA and LPAT enzymes involved in intracellular membrane trafficking; 2) determine the contribution of PLA2 and LPAT enzymes to the production of Golgi coated vesicles and membrane tubules; and 3) determine the molecular mechanisms by which PLA2 and LPATs contribute to membrane tubule formation. These goals will be achieved through a combination of molecular, cellular, and genetic approaches. The in vivo roles of candidate PLA and LPAT enzymes in secretory trafficking will be investigated by conducting over expression and siRNA knockdown experiments. These experiments will focus on membrane trafficking to, through, and from the Golgi complex, and vesicle fission from membrane-bound organelles. In vitro assays that reconstitute tubule or vesicle formation will also be conducted to elucidate the mechanisms underlying the effects of PLA and LPAT activity on membrane shape. These studies will reveal novel biological roles for PLA and LPAT enzymes in mediating intracellular trafficking events in the secretory pathway and advance our understanding of membrane tubule-mediated transport.

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Role of Phospholipid Remodeling in Secretion and Golgi Function in Mammalian Cell · GrantIndex