The American journal of physiology
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Reperfusion of acutely ischemic skeletal muscle is associated with neutrophil activation, which may augment local injury or cause damage to distant organs. Polymorphonuclear neutrophil glycoprotein CD18 plays a role in this injury, since its blockade substantially reduces damage; however, its mechanisms of control during reperfusion are poorly understood. The purpose of this study was to investigate the importance of circulating plasma factors to CD18-dependent neutrophil function during reperfusion and to relate these to quantitative expression of CD18. ⋯ CD18 expression increased only at 24 h and did not increase proportional to increases in adherence and oxidant production. Control plasma (nonischemic, n = 5) elicited no significant differences of any inflammatory measure during sham ischemia or reperfusion. These results indicate that endogenous mediators may evoke a progressive systemic inflammatory response after ischemia by stimulating CD18-dependent neutrophil function in a delayed but prolonged manner.
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The mechanism for neutrophil (PMN) influx into infected airspaces of the lung is not known. To determine whether alveolar macrophage products are important in the initiation of chemotaxis, we depleted rats of alveolar macrophages by aerosolizing negatively charged oligolamellar liposomes complexed to clodronate disodium. Ninety-five percent of the alveolar macrophages were depleted, and lung injury and inflammation were minimized with this depletion technique. ⋯ Levels of bioactive tumor necrosis factor-alpha and immunoreactive proteins CINC/gro (cytokine-induced PMN chemoattractant) in the lavage fluids obtained from infected rats depleted of alveolar macrophages were significantly decreased compared with the levels in the lavage fluids obtained from normal infected rats. MIP-2 mRNA expression, as detected by Northern analysis, was also decreased in the infected lungs of depleted rats, and the lavage fluid from these rats had significantly decreased chemotactic activity. Therefore these results suggest that alveolar macrophage products play a direct role in the initial recruitment of PMN into infected lungs.
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The purpose of this paper was to obtain probes to study the structure and function of mucins in rat models of airway cell differentiation and disease. We report the isolation and characterization of the rat cDNA homologue of the human airway secretory mucin, MUC5. Furthermore, we demonstrate the coordinate regulation of the expression of MUC5 and MUC1 (a membrane-bound mucin) and mucous differentiation. ⋯ Furthermore, neither mucin gene was expressed in retinoid-deficient cultures that undergo squamous instead of mucous differentiation. These studies demonstrate that expression of MUC1 and MUC5 is coordinately regulated with airway mucous cell differentiation. These cDNAs should provide useful tools to study mucin synthesis during differentiation and disease.