Connective tissue growth factor (CTGF) has been reported to play an important role in mediating the profibrotic effects of transforming growth factor-beta (TGF-beta) in various renal diseases. To elucidate the role of CTGF in renal tubular epithelial-myofibroblast transdifferentiation, we examined the expression of alpha-smooth muscle actin (alpha-SMA), vimentin, tenascin-C, and collagen IV expression upon the stimulation of CTGF in cultured human proximal tubular epithelial cell line (HKC), and further investigated the effects of endogenous CTGF blockade on the transdifferentiation process induced by TGF-beta. It is revealed that upon the stimulation of recombinant human CTGF (rhCTGF, 2.5 or 5.0 microg/L), the expression of alpha-SMA and tenascin-C mRNA increased significantly (p<0.01), while collagen IV gene expression decreased significantly (p<0.01), all in a dose-dependent manner. The percentage of alpha-SMA-positive cells was significantly larger in the rhCTGF-stimulated groups than that in negative control (38.9%, 65.5% vs. 2.4%, respectively, p<0.01) as confirmed by flow cytometry. Both cytoplasmic and secretory tenascin-C expression was upregulated by the stimulation of rhCTGF (p<0.01). Under this condition, collagen IV secreted into the culture media was lowered markedly (p<0.01). On RT-PCR analysis, TGF-beta1 upregulated CTGF gene expression, preceding that of alpha-SMA. The alpha-SMA mRNA expression induced by TGF-beta1 was significantly inhibited by CTGF antisense oligodeoxynucleotide (ODN) transfection (p<0.01). With prolonged incubation time, CTGF antisense ODN also inhibited intracellular alpha-SMA protein synthesis, as demonstrated by indirect immuno-fluorescence. So it is concluded that CTGF could promote the transdifferentiation of human renal tubular epithelial cells towards myofibroblasts in vitro, both directly and as a downstream mediator of TGF-beta, and CTGF blockade would be a possible therapeutic target against tubulointerstitial fibrosis.
W/Cu multilayer nanofilms and pure W nanofilms were prepared in pure Ar and He/Ar mixing atmosphere by radio frequency magnetron sputtering method. The defect evolution of the samples was characterized by Doppler broadening positron annihilation spectroscopy (DB-PAS).The results show that plenty of defects can be produced by introducing helium (He) into W/Cu multilayer nanofilms. With the natural storage time increasing, the helium located in the near surface of W/Cu multilayer nanofilm would be released gradually and induce the coalescence of the helium related defects due to the diffusion of the helium and defects. In addition, the pure W nanofilms were irradiated by 30 keV helium ions and 40 keV hydrogen (H) ions in sequence at room temperature. From the DB-PAS analysis, it can be shown that a large number of vacancy-type defects are produced due to the He and/or H irradiation. H ions would be trapped by He related defects and produced He-H-V complexes.
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