Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Query: UMLS:C0393754 (
HSA
)
2,996
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new mAb, designated anti-KCA-3, was developed against rat Kupffer cells. The reactivity of anti-KCA-3 was restricted to macrophages with preferential binding to Kupffer cells; only a few macrophages in the spleen, lymph nodes, lungs, and intestine stained with the antibody. A very small number of peritoneal resident and exudate macrophages reacted with the antibody and no reactivity was seen within the thymus, skin, heart, kidneys, brain, peripheral blood, and bone marrow. KCA-3 was expressed predominantly by the Kupffer cells in the periportal region rather than in the centrilobular region of the hepatic lobules. The cells in the portal tract did not stain with the antibody. The staining of the cytosmears and FACS analysis of the Kupffer cell fraction isolated from hepatic sinusoidal cells by centrifugal elutriation revealed that as many as 62% and 49% of the cells were stained with anti-KCA-3, respectively. Immunoelectron microscopic study of the liver indicated that expression of KCA-3 on Kupffer cells was limited to the plasma membrane facing the sinusoid rather than the space of Disse. Immunoprecipitation and SDS-PAGE analysis demonstrated KCA-3 to have a m.w. of approximately 50 kDa under both reducing and nonreducing conditions. After treatment of KCA-3 with N-glycanase, there was no significant change in the m.w., indicating KCA-3 was not highly glycosylated. C3b- and iC3b-mediated rosette formation between Kupffer cells and sensitized SRBC was inhibited by the antibody, implying that KCA-3 functioned as a complement C3 receptor or
complement receptor
-associated molecule. Furthermore, KCA-3 was eluted from C3b-Sepharose but not
HSA
-Sepharose after incubation with Kupffer cell lysate, indicating that KCA-3 directly binds C3b. The cell distribution, ligand-binding specificity, and biochemical properties of the protein were found to be different from the complement C3 receptors previously described. Because OX42 (antibody reactive with the rat CR3 receptor) inhibited complement C3-mediated rosette formation with peritoneal resident macrophages but not with Kupffer cells, the findings suggest that C3-mediated binding to Kupffer cells and to peritoneal macrophages is mediated by two different receptors. We conclude that anti-KCA-3 recognizes a novel type of complement C3 receptor preferentially expressed on Kupffer cells.
...
PMID:Anti-KCA-3, a monoclonal antibody reactive with a rat complement C3 receptor, distinguishes Kupffer cells from other macrophages. 847 47
IgG and IgM antibodies were detected on non-parasitized as well as parasitized erythrocytes (E) from mice surviving over 15 days after infection with rodent malaria, Plasmodium berghei, whereas C3 was detected exclusively on parasitized E. Parasitized E, however, were quite resistant to the haemolytic activity of guinea pig complement and effectively inactivated human C3b to iC3b on their surface. Similarly, parasitized E were extremely resistant to homologous complement as assessed by haemolysis and C3 binding even when regulatory proteins (decay-accelerating factor, DAF;
complement receptor
related gene y, Crry; heat-stable antigen,
HSA
) were blocked with specific antibodies. DAF and Crry were equally expressed on both normal E and parasitized E from mice within a week post-infection; therefore, molecules that inhibit the haemolysis or C3 binding of parasitized E appear to be independent of DAF and Crry. Unexpectedly, the molecular forms of
HSA
and DAF in parasitized erythrocyte membranes were found to be different from those of normal erythrocyte membranes: DAF was detected as three bands (85,000, 64,000 and 30,000 MW) by immunoblotting.
HSA
was detected as more highly glycosylated forms than normal
HSA
. These alterations of DAF and
HSA
could be explained by the modification of membrane proteins and polysaccharides induced by parasitization, and we hypothesize that these changes of membranes or membrane proteins are involved in the resistance of parasitized E against homologous complement.
...
PMID:The serum resistance of malaria-infected erythrocytes. 920 59
