Class A type I and type II macrophage scavenger receptors (MSR-A) and a macrophage receptor with collagenous structure (MARCO) are trimeric membrane glycoproteins mediating the uptake of chemically modified low density lipoproteins. MSR-A is expressed constitutively in several tissue macrophages and in liver sinusoidal endothelial cells, whereas MARCO is expressed constitutively in splenic marginal zone macrophages and in macrophages and endothelial cells in the lymphatic medullary sinuses of lymph nodes. The administration of LPS, zymosan, BCG, or L. monocytogenes to mice resulted in marked and transient MARCO expression and in the upregulation of MSR-A expression in the liver and spleen. In osteopetrotic (op) mutant mice defective in the production on M-CSF, ER-TR9-positive marginal zone macrophages and MOMA-1-positive marginal metallophilic macrophages were absent, whereas MARCO-expressing marginal zone macrophages were present, indicating the heterogeneity of marginal zone macrophages. Intravenous administration of BCG resulted in marked accumulation of BCG bacilli in the both marginal zone macrophages and marginal metallophilic macrophages in littermate control mice. In contrast, BCG bacilli were incorporated almost exclusively by MARCO-expressing marginal zone macrophages in op/op mice. These results indicate that MARCO is not only expressed constitutively in specific macrophage subpopulations but is also induced by various bacterial antigens and plays a role in host defense against bacteria.
Chemical modifications of 2′-O-methyl (2′-OMe) and locked nucleic
acid (LNA) of the nucleotides in the seed region (positions 2–8)
of the small interfering RNA (siRNA) guide strand significantly reduced
seed-matched (SM) off-target effects. The siRNA with 2′-OMe
modifications inhibited the expression of a completely-matched (CM)
target gene, whereas that with LNA modifications did not inhibit the
expression of the CM target. By computational predictions of conformational
changes of siRNA by these modifications, we revealed that both modifications
in the siRNA seed region reduce SM off-target effects by steric hindrance
to base-pairing with target transcripts but LNA modifications also
disturb the association of the siRNA guide strand with the Argonaute
(AGO) protein by altering RNA conformation. Thus, chemical modifications
of the siRNA guide strand, which alter steric conformation to disturb
base-pairing with target transcripts but do not disturb the association
with the AGO protein, may successfully suppress off-target effects
without substantial loss of RNA silencing activity.
Lipopolysaccharide (LPS) is known to bind to several receptors on macrophages, including CD14 and macrophage scavenger receptor class A types I and II (MSR-A), and stimulates macrophages to release various inflammatory mediators. MSR-A recognizes a broad range of polyanionic ligands such as chemically modified lipoproteins, LPS of Gram-negative bacteria, and lipoteichoic acid of Gram-positive bacteria, suggesting a role in host defence. In this study, mice lacking MSR-A were used to elucidate the role of MSR-A in endotoxin shock. Peritoneal macrophages from MSR-A-deficient (MSR-A(-/-)) mice bound less remarkably to LPS than those from wild-type (MSR-A(+/+)) mice and the binding activity of MSR-A(+/+) macrophages to LPS was reduced by the addition of an anti-MSR-A antibody. Clearance of LPS in serum was retarded in MSR-A(-/-) mice after intraperitoneal administration of LPS. LPS-induced expression of cytokines in the liver was similar in MSR-A(+/+) and MSR-A(-/-) mice, but levels of interleukin (IL)-1beta expression and serum IL-1beta were lower in MSR-A(-/-) mice. Administration of large doses of LPS resulted in a higher mortality of MSR-A(+/+) mice and pretreatment with an IL-1 receptor antagonist reduced the mortality. Thus, MSR-A-mediated macrophage activation plays a negative role in protecting mice from endotoxin shock by enhancing IL-1beta production by macrophages.
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