Interleukin-8 (IL-8) is a chemotactic peptide produced by macrophages that may be involved in the recruitment of inflammatory cells into atherosclerotic plaques. In vitro, IL-8 production by macrophages isolated from carotid plaques (1240 +/- 510 pg.10(5) cells-1.24h-1, mean +/- SEM, n = 6) and noncarotid plaques (4312 +/- 1588 pg.10(5) cells-1.24 h-1, n = 9) was significantly greater than IL-8 production by blood monocytes isolated from the same patients (526 +/- 278 pg.10(5) cells-1.24 h-1, n = 6, P < .05 and 726 +/- 384 pg.10(5) cells-1.24 h-1, n = 9, P < .01, respectively). IL-8 produced by atherosclerotic macrophages was demonstrated to be biologically active in a neutrophil chemotaxis assay. IL-8 mRNA was detectable in plaque macrophages and blood monocytes from these patients, but blood monocytes from normal donors did not exhibit detectable IL-8 mRNA. IL-8 mRNA was localized in macrophage-rich areas of atherosclerotic plaques by in situ hybridization. These studies demonstrate that macrophages from atherosclerotic plaques show an enhanced capacity to produce IL-8 compared with normal and patient blood monocytes and that macrophages are a major site of IL-8 mRNA production in atherosclerotic plaques. These results provide further evidence for a proinflammatory role for macrophages in atherosclerosis.
SUMMARYThe effector mechanisms of T cell-dependent acute glomerular injury were studied in autologous phase anti-GBM glomerulonephritis (GN) in rats. Acute proliferative GN was induced in sensitized rats by a subnephritogenic dose of sheep anti-rat GBM antibody. Injury was manifested by proteinuria and glomerular leucocyte infiltration composed predominantly of macrophages but also CD4 þ and CD8 þ T cells. T cell depletion, using an anti-CD5 MoAb, demonstrated that glomerular leucocyte infiltration and proteinuria were T cell-dependent. Inhibition of T helper cell function using an anti-CD4 MoAb prevented proteinuria and glomerular macrophage and CD4 þ T cell influx, but not accumulation of CD8 þ T cells. Depletion of CD8 þ T cells also prevented proteinuria and the influx of macrophages and CD8 þ T cells, but not accumulation of CD4 þ T cells. Macrophage depletion, using micro-encapsulated clodronate, prevented proteinuria and glomerular macrophage infiltration, but not the accumulation of CD4 þ or CD8 þ T cells, indicating that macrophages are the common cellular effectors for both CD4 and CD8 T cell-dependent injury. Evidence for cytotoxic mechanisms of injury (increased numbers of apoptotic cells or accumulation of natural killer (NK) cells in glomeruli) could not be demonstrated. These data suggest that acute glomerular injury in anti-GBM GN is the result of macrophage recruitment, which is dependent on both CD4 and CD8 T cells, and that direct T cell-mediated injury (cellular cytotoxicity) is not involved.
Oxysterols are oxygenated derivatives of cholesterol. They have been shown to influence a variety of biological functions including sterol metabolism, lipid trafficking, and apoptosis. Recently, 12 human OSBP-related genes have been identified. In this study, we have identified a family of 12 oxysterol-binding protein (OSBP)-related proteins (ORPs) in the mouse. A high level of amino acid identity (88-97%) was determined between mouse and human ORPs, indicating a very high degree of evolutionary conservation. All proteins identified contained the conserved OSBP amino acid sequence signature motif "EQVSHHPP," and most contained a pleckstrin homology (PH) domain. Using RT-PCR, each mouse ORP gene was found to exhibit a unique tissue distribution with many showing high expression in testicular, brain, and heart tissues. Interestingly, the tissue distribution of ORP-4 and ORP-10 were the most selective within the family. Expression of the various ORP genes was also investigated, specifically in highly purified populations of hemopoietic precursor cells defined by the lin(-) c-kit(+) Sca-1(+) (LKS(+)) and lin(-) c-kit(+) Sca-1(-) (LKS(-)) immunophenotype. Most ORP genes were expressed in both LKS(+) and LKS(-) populations, although ORP-4 appeared to be more highly expressed in the primitive, stem-cell enriched LKS(+) population, whereas ORP-10 was more highly expressed by maturing LKS(-) cells. The identification of a family of ORP proteins in the mouse, the frequently preferred animal model for in vivo studies, should further our understanding of the function of these proteins and their interactions with each other.
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