Macrophage dysfunction is a likely mechanism underlying common diabetic complications such as increased susceptibility to infection, accelerated atherosclerosis, and disturbed wound healing. There are no available studies on the function of tissue macrophages in diabetes in humans. We have therefore studied peritoneal macrophages from diabetic type 2-like db/db mice. We found that the release of tumor necrosis factor-␣ and interleukin-1 from lipopolysaccharide plus interferon-␥-stimulated macrophages and vascular endothelial growth factor from both stimulated and nonstimulated macrophages was significantly reduced in diabetic animals compared with nondiabetic controls. Nitric oxide production from the stimulated db/db macrophages was significantly higher than that in the db/+ cultures, whereas there was no difference in their ability to generate reactive oxygen species. When studied both at light and electron microscopic levels, macrophages in diabetic animals had an altered morphological appearance compared with those of normal controls. We conclude that the function and morphology of the macrophages are disturbed in db/db mice and that this disturbance is related to the mechanisms underlying common inflammatory and degenerative manifestations in diabetes.
A method is described for the separation of fish leucocytes and the establishment of pure monolayers offish macrophages in vitro. The method makes it possible to study the important role of cellular immunity in fish. Fish leucocytes were obtained from the pronephros of rainbow trout, Salmo gairdneri Richardson, and compared to those obtained from the pronephros of Atlantic salmon, Salmo salar L. Single cell suspensions were separated by density gradient centrifugation and seeded on glass cover slips for maintenance in culture. After 20 h in culture a subpopulation of the cells had adhered and spread out on the cover slips and were macrophage-like by morphological criteria. About 90-99/O of these cells had the ability to phagocytose a variety of particles, including fixed sheep erythrocytes, latex, carbon particles, yeast and Vibrio anguillarum. Opsonization of particles with mammalian immunoglobulins and mammalian complement did not enhance the phagocytic activity.
Monocytes isolated from human blood were maintained in vitro on plastic culture dishes. After 3-4 days, adherent cells displayed morphological changes previously attributed to differentiation of the cells into histiocytes. 35S-labelled glycosaminoglycans were isolated after incubation of the cells with inorganic [35S]sulphate. Polysaccharide recovered from the culture medium after labelling from day 0 to day 2 or from day 5 to day 7 in vitro was approximately 90% galactosaminoglycan (resistant to deamination by HNO2), irrespective of labelling period. Whereas day-0-2 material was extensively degraded to disaccharide on incubation with the bacterial eliminase chondroitinase AC, a significant portion, about 30%, of the day-5-7 material resisted degradation under the same conditions. The resistant portion was readily depolymerized by treatment with chondroitinase ABC and may be dermatan sulphate. Paper electrophoresis and paper chromatography of the disaccharides obtained by eliminase digestion identified the day-0-2 labelled galactosaminoglycan as chondroitin 4-sulphate. In contrast, the corresponding day-5-7 material yielded approximately 20% disulphated disaccharide, both on digestion with chondroitinase AC and on subsequent enzymic degradation of the chondroitinase AC-resistant fraction. Further treatment of the disulphated disaccharide with chondro-4-sulphatase and chondro-6-sulphatase indicated that both sulphate groups were located on the N-acetylgalactosamine residue. In accordance with these findings, the day-5-7 polysaccharide showed a higher negative charge density than the day-0-2 material on ion-exchange chromatography. It is concluded that the novel properties acquired by the monocyte during prolonged culturing on plastic include the ability to synthesize glycosaminoglycan(s) containing 4,6-disulphated N-acetylgalactosamine units.
. The stimulatory effect of LPS (Vibrio anguillarum), laminaran and sulphated laminaran, aqueous soluble β(1,6)‐branched β(l,3)‐D‐glucan obtained from Laminaria hyperborea, on head kidney macrophages of Atlantic salmon, Salmo salar L., is reported. The macrophages, after stimulation with LPS or laminaran, showed pronounced spreading, membrane ruffling and increased organellc content when examined by light microscopy. LPS stimulation induced enhanced phagocytic and pinocytic activity, higher intraccllular production of superoxide anion, and higher activity of acid phosphatase compared to control cells. Native laminaran stimulated the cells to pinocytose more fluid phase, increase the intracellular production of superoxide anion and to elevate the activity of acid phosphatase. Sulphated laminaran induced higher production of superoxide anion and higher activity of acid phosphatase by macrophages than in control cells.
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