International journal of experimental pathology
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Murine leprosy is a chronic disease of the mouse, the most popular animal model used in biomedical investigation, which is caused by Mycobacterium lepraemurium (MLM) whose characteristic lesion is the macrophage-made granuloma. From onset to the end of the disease, the granuloma undergoes changes that gradually transform the environment into a more appropriate milieu for the growth of M. lepraemurium. The mechanisms that participate in the formation and maturation of the murine leprosy granulomas are not completely understood; however, microbial and host-factors are believed to participate in their formation. ⋯ We found that a pro-inflammatory environment predominates in the early granulomas while an anti-inflammatory environment predominates in late granulomas. No obvious signs of bacillary destruction were observed during the entire period of infection, but nitrosylation products and cell alterations were observed in granulomas in the advanced stages of disease. The change from a pro-inflammatory to an anti-inflammatory environment, which is probably driven by the bacillus itself, results in a more conducive environment for both bacillus replication and the disease progression.
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Liver function failure is one of the characteristics of critically ill, septic patients and is associated with worse outcome. Our previous studies have demonstrated that heat-shock response protects cells and tissue from subsequent insults and improves survival during sepsis. In this study, we have shown that mitochondrial cytochrome c oxidase (CCO) is one of the major sources of that protective effect. ⋯ Heat-shock treatment led to heat-shock protein 72 overexpression and prevented the downregulation of Grp75 during sepsis. On the contrary, the expression of the enzyme complex and its activity were preserved, associated with the minimization of ultrastructural deformities. In conclusion, the maintenance of mitochondrial function, especially the CCO, may be an important strategy in therapeutic interventions of a septic liver.
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Sepsis in patients receiving chemotherapy may result in acute respiratory distress syndrome, despite decreased number of blood neutrophils [polymorphonuclear neutrophils (PMNs)]. In the present study, we investigated the correlation of cyclophosphamide (CY)-induced neutropenia with the destructive potential of lung PMN in respect to formation of septic acute lung injury (ALI). Mice were treated with 250 mg/kg of CY or saline (control) and subjected to cecal ligation and puncture (CLP) or sham operation. ⋯ This might relate to only a partial suppression of PMN: CY has significantly reduced PMN influx into the lungs (P = 0.008) and suppressed their oxidative metabolism, but had no suppressive effect on degranulation (P = 0.227) and even induced MMP-9 activity (P = 0.0003). In CY-untreated animals, peak of CLP-induced ALI coincided with massive PMN influx (P = 0.013), their maximal degranulation (P = 0.014) and activation of lung MMP-9 (P = 0.002). These findings may indicate an important role of the residual lung PMN and activation of MMP-9 in septic lung injury during CY chemotherapy.
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Cardiopulmonary bypass surgery (CPB) causes lung injury and at least 2% of adult patients and more children develop the most severe from acute respiratory distress syndrome (ARDS). Pulmonary surfactant deficiency contributes to the pathogenesis of ARDS. It has been proposed that surfactant therapy immediately after CPB might arrest progression to ARDS. ⋯ Lung histology showed that the main damage was interstitial oedema located around the bronchioles and their associated vessels. A single instilled dose of surfactant phospholipids in 5 animals caused excess in vivo supplementation and did not reduce the early pathophysiologic changes. Our findings suggest that surfactant phospholipid deficiency does not make a major contribution in the initial stages of lung injury after CPB, and that excessive phospholipid supplementation at this stage can be deleterious.
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Comparative Study
Effects of cigarette smoke on the clearance of short asbestos fibres from the lung and a comparison with the clearance of long asbestos fibres.
Long asbestos fibres are generally considered to have greater disease-producing potential than short asbestos fibres. However, recent reports have suggested that short fibre asbestos appears to be as effective an inducer of macrophage growth factors and toxic oxygen species as long fibre asbestos, but that short fibres are readily removed from lung and do not gain access to tissues. Because smoke is believed to impair the clearance of asbestos fibres from lung, we examined the clearance of a short (geometric mean length 1.3 microns) amosite preparation administered by intratracheal instillation to guinea-pigs. ⋯ By contrast, a long fibre amosite preparation (geometric mean length 8.9 microns) showed approximately the same increase in fibre retention in macrophages, but only a twofold increase in tissue retention. We conclude that (1) cigarette smoke markedly impairs the clearance of short amosite fibres from the lung with enhanced retention of fibres in both macrophages and tissue; (2) the effects of smoke on short fibre tissue retention appear to be greater than those on long fibre retention; (3) with the long fibre preparation, smoke causes increased tissue retention of relatively shorter fibres; (4) for both fibre size experiments, the increase in total fibres in macrophages in smoke-exposed animals reflects an increase in the total number of fibre-containing macrophages, rather than an increase in the number of fibres phagocytized per macrophage; (5) enhanced short fibre retention markedly increases total fibre surface area, a parameter which has been suggested as a measure of fibre toxicity, to the point where short fibres might under some circumstances have roughly the same potential toxicity as long fibres. These observations suggest that short asbestos fibres could play an important role in the pathogenesis of some types of asbestos-related disease in cigarette smokers.