Background: Neutrophil releases several mediators during inflammation, including neutrophil elastase (NE) that impairs bronchial epithelial function. The stress response and stress proteins protect cells against a variety of cytotoxic conditions. Accordingly, we tested the hypothesis that bronchial epithelial heat shock protein (Hsp-70) would protect a NE-induced cell injury.
Methods: Bronchial epithelial cells (BECs) obtained by bronchial brushing under bronchoscopy were cultured and used for experiments. Expression of Hsp-70 in BECs was confirmed by Western blot and flowcytometric analysis. To test Hsp-70 in BECs, induction of Hsp-70 protein into BECs was carried out by liposome-based delivery system. Introduction of Hsp-70 into BECs were examined by direct fluorescence microscope examination and flowcytometric analysis. NE-induced cytotoxicity was evaluated by cell culture supernatant LDH assay and cell detachment assay.
Results: Higher expressions of Hsp-70 were observed in BECs, which were induced by sodium arsenite. Over expression of Hsp-70 in BECs reduced NE-induced cell injury. Introduction of Hsp-70 protein into BECs by liposomal delivery decreased LDH release, and inhibited necrosis and apoptosis of the cells by NE as compared to untreated control.
Conclusion: These data suggested that Hsp-70 in BECs may inhibit NE-induced airway epithelial damage. Liposomal delivery of Hsp-70 into BECs may be a possible means of protecting bronchial epithelium against inflammatory airway diseases including acute and chronic bronchitis.
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Background: Neutrophil releases several mediators during inflammation, including neutrophil elastase (NE) that impairs bronchial epithelial function. The stress response and stress proteins protect cells against a variety of cytotoxic conditions. Accordingly, we tested the hypothesis that bronchial epithelial heat shock protein (Hsp-70) would protect a NE-induced cell injury.
View Article and Find Full Text PDFUrsodeoxycholic acid reduces expression of heat shock proteins in primary biliary cirrhosis.
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February 2000
Second Department of Medicine, Kurume University School of Medicine, Japan.
Background: To identify injured cells in the liver of patients with primary biliary cirrhosis (PBC) and to determine the effects of ursodeoxycholic acid (UDCA) on these cells, we examined the cellular expression of heat shock proteins (HSPs) in PBC both before and after treatment with UDCA.
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