Publications by authors named "D A Lazure"

Background: Bacterial endotoxins are the principal agents causing sepsis and septic shock. Cytokine cascades produced by cellular interactions to endotoxins can cause cardiovascular failure followed by multi-organ failure and death. Endotoxin intravenously administered to mice can have fatal consequences.

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Using a combination of gel-exclusion chromatography and ligand binding with [(125)I]-lipopolysaccharide (LPS), we discovered two novel endotoxin-binding proteins, p31(LPB) and p34(LPB), in Kupffer cells. Their molecular masses suggest that these are previously undescribed LPS-binding proteins (LBPs). Evidence from detergent-based cell extractions shows that these proteins are probably transmembrane or located on the inner leaflet of the lipid bilayer.

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Kupffer cells, a majority of the body's fixed macrophages, are a major site of bacterial lipopolysaccharide (LPS) metabolism and are mediators in the body's response to sepsis. Uptake of LPS is different in Kupffer cells than other macrophages. Signal transduction in other macrophages in response to LPS involves phosphorylation of proteins in the 50-60 kDa range.

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We hypothesize that a major factor regulating hepatic metastasis is the ability of CEA (carcinoembryonic antigen) producing colorectal carcinomas to activate Kupffer cells. CEA and NCA (nonspecific cross-reacting antigen) bind to an 80 kDa Kupffer cell receptor by the peptide sequence PELPK and stimulate cytokine production. Cytokines induce sinusoidal endothelial cells to express intercellular adhesion molecules and increase adhesion of the tumor cells and retention in the liver.

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Carcinoembryonic antigen (CEA), an intercellular adhesion molecule and a mediator of hepatic metastasis, is processed by an 80 kDa receptor on murine and human Kupffer cells in the liver. Activation of rat Kupffer cells in vitro by CEA via the 80 kDa receptor produced cytokines IL-1alpha and TNF-alpha which involved tyrosine phosphorylation. The peak response of TNF-alpha was 5.

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