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LIVER RESPONSE TO LPS--ROLE OF LBP AND CD14

$111,686R29FY2003DKNIH

University Of Michigan At Ann Arbor, Ann Arbor MI

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Abstract

Gram-negative sepsis is a major cause of morbidity and mortality in patients with liver disease. The liver is the major site for bacterial clearance and liver disease is associated with an increased incidence of bacteremia. Within the liver, the Kupffer cell is the main cell type responsible for detecting and clearing bacteria and their constituent lipopolysaccharide (LPS). Although Kupffer cells only represent 15 percent of the total cells within the liver, they constitute 80-90 percent of all the fixed tissue macrophages within the body. Strategically and uniquely located at the gateway of the portal blood flow, Kupffer cells have a crucial role in preventing Gram-negative bacteria and LPS from reaching the systemic circulation. Little is known about the molecular mechanisms involved in Kupffer cell detection, phagocytosis and killing of Gram-negative bacteria despite the critical importance of these processes. Recent investigations in monocytes have begun to shed light on the molecular interactions involved in leukocyte responses to Gram-negative bacteria. Bacterial killing is a complex process which is dependent on a series of leukocyte responses including recognition/binding, phagocytosis, and activation of intracellular microbicidal systems before bacterial killing can occur. Several lines of evidence suggest that LPS binding protein (LBP) and CD14 provide a crucial pathway which facilitates Gram-negative bacterial killing, LBP binds specifically to the lipid A portion of LPS on Gram-negative bacteria to form a complex. This LBP-LPS complex binds with high affinity to membrane CD14 found on neutrophils, monocytes and macrophages. Binding of LPS-LBP to mCD14 results in cellular activation and production of inflammatory mediators. The LPS-LBP complex is subsequently internalized by undefined mechanisms. The role of LBP and CD14 in Kupffer cell bacterial killing has not been studied, but recent evidence in LBP knockout mice suggest that they comprise a critical pathway. We hypothesize that Kupffer cells utilize LBP and CD14 to bind ingest and kill Gram-negative bacteria. Our experimental Aims are intimately related and feasible: I. Determine the mechanism by which LBP and CD14 promote attachment of Gram-negative bacteria. II. Determine the mechanism by which LBP and CD14 accelerate ingestion of Gram-negative bacteria. III. Determine the mechanisms by which LBP/CD14 mediated KC activation promote bacterial killing.

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LIVER RESPONSE TO LPS--ROLE OF LBP AND CD14 · GrantIndex