1. The role of scavenger receptor class A in the adhesion of cells is dependent on cell type and cellular activation state.
- Author
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van Velzen AG, Suzuki H, Kodama T, and van Berkel TJ
- Subjects
- Animals, Cell Adhesion, Cell Adhesion Molecules genetics, Kupffer Cells drug effects, Macrophages, Peritoneal drug effects, Mice, Mice, Inbred C57BL, Mice, Inbred ICR, Mice, Transgenic, Receptors, Immunologic genetics, Receptors, Scavenger, Scavenger Receptors, Class A, Tetradecanoylphorbol Acetate pharmacology, Thioglycolates pharmacology, Cell Adhesion Molecules physiology, Kupffer Cells physiology, Macrophages, Peritoneal physiology, Receptors, Immunologic physiology
- Abstract
Scavenger receptor class A (SR-A) facilitates the development of atherosclerosis, which might be due to its role in the uptake of modified low-density lipoproteins. However, the receptor is also suggested to be important for cell adhesion, thereby potentially influencing the residence time of cells in vivo. Using SR-A-deficient mice, we investigated the role of SR-A in the adhesion of peritoneal macrophages (PM) and tissue macrophages (Kupffer cells). In resident PM no effect of the absence or presence of SR-A on cell adhesion was observed, either in the presence or in the absence of serum. However, in thioglycollate-induced PM, SR-A is important for adhesion both in the presence and in the absence of serum and more than 85% of the divalent-cation-independent adhesion in the presence of serum is mediated by SR-A. In unactivated Kupffer cells, like in resident PM, adhesion is not influenced by the absence or presence of SR-A. In vivo administration of phorbol 12-myristate 13-acetate leads to the activation of Kupffer cells, and it appears that under these conditions SR-A does contribute to adhesion, since both in the absence and in the presence of serum SR-A is responsible for about 35% of cell adhesion. It is concluded that SR-A is important for the divalent-cation-independent adhesion of activated PM and Kupffer cells, suggesting that SR-A may influence the residence time of cells at sites of cellular activation, e.g., in atherosclerotic plaques and during liver infection., (Copyright 1999 Academic Press.)
- Published
- 1999
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