Chronic bronchitis frequently leads to irreversible airway obstruction. Alteration of airway architecture with abnormal airway connective tissue is thought to play an important role in this process. We hypothesized that the epithelial cells that line the airways modulate the development of peribronchial fibrosis and fixed airway obstruction by directing fibroblast proliferation. To assess this, we examined stimulatory activities for human lung fibroblast proliferation in bovine bronchial epithelial cell-conditioned medium. The conditioned medium stimulated the proliferation of fibroblasts in a serum-free culture system in a concentration-dependent manner. The fibroblast growth stimulatory activity was heterogenous, with molecular masses of > 50 and approximately 10 kDa. Bronchial epithelial cell-conditioned medium also contained fibroblast growth inhibitory factors, including both transforming growth factor (TGF)-beta and, based on indomethacin sensitivity, cyclooxygenase products. TGF-beta appeared to contribute to the morphological change of fibroblasts induced by the conditioned medium. Co-culture of human lung fibroblasts with bronchial epithelial cells resulted in a stimulation of fibroblast proliferation. In summary, airway epithelial cells appear to regulate fibroblast proliferation and may play a role in peribronchial fibrosis in chronic bronchitis.
Skeletal muscle atrophy is associated with mortality and poor prognosis in patients with chronic kidney disease (CKD). However, underlying mechanism by which CKD causes muscle atrophy has not been completely understood. The quality of lipids (lipoquality), which is defined as the functional features of diverse lipid species, has recently been recognized as the pathology of various diseases. In this study, we investigated the roles of the stearoyl CoA desatu rase (SCD), which catalyzes the conversion of saturated fatty acids into monounsaturated fatty acids, in skeletal muscle on muscle atrophy in CKD model animals. In comparison to control rats, CKD rats decreased the SCD activity and its gene expression in atrophic gastrocnemius muscle. Next, oleic acid blocked the reduction of the thickness of C2C12 myotubes and the increase of the endo plasmic reticulum stress induced by SCD inhibitor. Furthermore, endoplasmic reticulum stress inhibitor ameliorated CKD induced muscle atrophy (the weakness of grip strength and the decrease of muscle fiber size of gastrocnemius muscle) in mice and the reduction of the thickness of C2C12 myotubes by SCD inhibitor. These results suggest that the repression of SCD activity causes muscle atrophy through excessive endoplasmic reticulum stress in CKD.
Inorganic phosphate (Pi) homeostasis is regulated by intestinal absorption via type II sodium-dependent co-transporter (Npt2b) and by renal reabsorption via Npt2a and Npt2c. Although we previously reported that vitamin A-deficient (VAD) rats had increased urine Pi excretion through the decreased renal expression of Npt2a and Npt2c, the effect of vitamin A on the intestinal Npt2b expression remains unclear. In this study, we investigated the effects of treatment with all-trans retinoic acid (ATRA), a metabolite of vitamin A, on the Pi absorption and the Npt2b expression in the intestine of VAD rats, as well as and the underlying molecular mechanisms. In VAD rats, the intestinal Pi uptake activity and the expression of Npt2b were increased, but were reduced by the administration of ATRA. The transcriptional activity of reporter plasmid containing the promoter region of the rat Npt2b gene was reduced by ATRA in NIH3T3 cells overexpressing retinoic acid receptor (RAR) and retinoid X receptor (RXR). On the other hand, CCAAT/enhancer-binding proteins (C/EBP) induced transcriptional activity of the Npt2b gene. Knockdown of the C/EBP gene and a mutation analysis of the C/EBP responsible element in the Npt2b gene promoter indicated that C/EBP plays a pivotal role in the regulation of Npt2b gene transcriptional activity by ATRA. EMSA revealed that the RAR/RXR complex inhibits binding of C/EBP to Npt2b gene promoter. Together, these results suggest that ATRA may reduce the intestinal Pi uptake by preventing C/EBP activation of the intestinal Npt2b gene.
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