Polymorphonuclear neutrophils' chemotaxis, surface charge, superoxide anions generation, NBT (nitro blue tetrazolium) reduction and intracellular lysozyme, and beta-glucuronidase content were estimated in patients with type I diabetes mellitus in a similar state of metabolic control. The chemotaxis of diabetic cells toward bacterial chemotactic factors was similar to controls, whereas migration toward complement-derived chemoattractants was significantly reduced. Polymorphonuclear neutrophils isolated from diabetic patients, when unstimulated, produced significantly greater amounts of superoxide anions and reduced NBT more efficiently. They also revealed reduced surface charge and lower intracellular content of lysozyme, whereas beta-glucuronidase content was similar to controls. The results obtained seem to indicate that neutrophils in patients with insulin-dependent diabetes manifest signs of being in the activated state. The possible mechanisms of such stimulation are discussed.
Thirty patients with chronic renal failure on maintenance hemodialysis (HD) were studied. Plasma chemotactic activity was estimated using the "under agarose" chemotaxis assay during the first 2 h of HD. It was found that in the fifth minute of HD, patients' plasma became chemotactic, reaching the maximum activity at the tenth minute. The chemotactic activity appearance correlated significantly with the decline in the number of the peripheral neutrophils. Patients' neutrophils, after a single passage through the cellophane coil of the dialyzer, revealed significant impairment of directed migration toward both complementary and bacterial chemoattractants. Moreover, the chemotactic properties of neutrophils obtained from dialyzed patients before HD were significantly lower than had been estimated in 15 nondialyzed patients with chronic renal failure. The results confirm HD-induced complement activation and might explain the mechanisms of the increased susceptibility of dialyzed patients to bacterial infections.
Morphologically mature polymorphonuclear neutrophils (PMN) isolated from the peripheral blood of 30 patients were examined. These cells manifested the diminution of phagocytosis, random migration, chemotaxis, thermotaxis and bactericidal capacity. The surface charge of circulating PMN and the percent representation of cells with receptor for Fc IgG were significantly decreased. Stimulated as well as unstimulated oxygen consumption, production of O2– and H2O2 were significantly decreased, whereas the hexose monophosphate shunt activity was similar to that noticed in controls. The aggregation of leukemic PMN was practically normal, however their adherence was significantly higher. The possible mechanisms responsible for the observed PMN defects are discussed.
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