Morphine was demonstrated to exacerbate infections. Experiments were performed to evaluate variations of phagocytic physiology during morphine treatment. In mice, morphine drastically reduced reticuloendothelial system activity, phagocyte count, phagocytic index, killing properties, and superoxide anion production in polymorphonuclear leukocytes and macrophages. Similar effects on alveolar macrophage count, phagocytosis, and killing were found in rabbits, a result which suggested a lack of species specificity. Additional experiments demonstrated that morphine (1) induces a reduction of lymphoid organ weight, (2) impairs the ability to eradicate infections and (3) is counteracted in its depressing activity on phagocytic physiology by small amounts of Corynebacterium parvum. The results suggest that there is a close relationship between the fact that morphine exacerbates infections and the fact that morphine depresses phagocytic functions; therefore, the negative effect of morphine on phagocytosis is at least one of the reasons for its negative effect on the development of infections.
A new, orally active de-N-acetylated lysoglycosphingolipid (WILD20) was evaluated as antiinflammatory agent using a model of chemically-induced inflammatory bowel disease (IBD) in the rat to mimic human ulcerative colitis and Chron's disease. IBD was induced by hapten trinitrobenzenesulphonic acid (TNB). WILD20, orally administered as preventive or curative, was demonstrated to be efficacious at daily dosages of 0.1-1 mg/kg for 4-5 days. Damage scores, body weight, spleen weight, colonic tissular levels of LTB4, myeloperoxidase (MPO) and malondialdehyde (MDA) are influenced and brought into parameters of normality. Histological observation demonstrated quicker healing, better repair, reduced inflammation, and poor eosinophil degranulation. The mechanisms underlying WILD20 antiinflammatory effects were investigated: whereas WILD20 fails to show a direct effect on PKC, it reduces PKC translocation to the membrane; cellular PLA2 was consequently greatly reduced through this mechanism and thought to be responsible for WILD20 efficacy towards chemically-induced IBD.
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