Xylooligosaccharide was found to have a favorable effect on human intestinal flora. Xylooligosaccharide was utilized by bifidobacteria, but it was not utilized by Escherichia coli and Clostridium spp. in vitro. In vivo, xylooligosaccharide (5 g/day) promoted the growth of bifidobacteria, lowered fecal pH and helped to maintain the fecal water content within normal range. These results showed that xylooligosaccharide can selectively promote the growth of bifidobacteria and help to establish favorable environmental conditions in the intestines.
Background and purpose: Many drugs associated with acquired long QT syndrome (LQTS) directly block human ether-a-gogo-related gene (hERG) K þ channels. Recently, disrupted trafficking of the hERG channel protein was proposed as a new mechanism underlying LQTS, but whether this defect coexists with the hERG current block remains unclear. This study investigated how ketoconazole, a direct hERG current inhibitor, affects the trafficking of hERG channel protein.Experimental approach: Wild-type hERG and SCN5A/hNa v 1.5 Na þ channels or the Y652A and F656C mutated forms of the hERG were stably expressed in HEK293 cells. The K þ and Na þ currents were recorded in these cells by using the whole-cell patch-clamp technique (231C). Protein trafficking of the hERG was evaluated by Western blot analysis and flow cytometry. Key results: Ketoconazole directly blocked the hERG channel current and reduced the amount of hERG channel protein trafficked to the cell surface in a concentration-dependent manner. Current density of the hERG channels but not of the hNa v 1.5 channels was reduced after 48 h of incubation with ketoconazole, with preservation of the acute direct effect on hERG current. Mutations in drug-binding sites (F656C or Y652A) of the hERG channel significantly attenuated the hERG current blockade by ketoconazole, but did not affect the disruption of trafficking. Conclusions and implications: Our findings indicate that ketoconazole might cause acquired LQTS via a direct inhibition of current through the hERG channel and by disrupting hERG protein trafficking within therapeutic concentrations. These findings should be considered when evaluating new drugs.
KK mice and KK-Ay mice were examined for age related changes in blood and urinary biophysiological parameters. Blood hemoglobin A1c levels were significantly higher in KK-Ay and KK mice as compared to non-diabetic ddY mice. In both diabetic mice, especially KK-Ay mice, plasma insulin levels markedly increased at 2 to 4 months of age, and the urinary glucose and microalbumin levels and albumin-to-creatinine ratios increased dependent on age. Plasma thrombomodulin levels significantly increased at 2 to 4 months of age in both KK and KK-Ay mice. Mild enlargement of mesangial matrix and segmental proliferative glomerular nephritis were revealed in KK and KK-Ay mice, respectively, at 4 months of age. KK-Ay mice with insulin resistance and high urine mAlb level might be useful as models for the early stage of diabetic nephropathy.
Abstract. We examined oxidative stress and metabolic characteristics of the spontaneously hypertensive hyperlipidemic rat (SHHR) when it was fed a high-fat diet and sucrose solution (HFDS) after N G -nitro-L-arginine methyl ester ingestion to develop a rat model of metabolic syndrome. This study was carried out to assess the effects of pioglitazone on levels of lipid peroxide (LPO), Cu,Zn superoxide dismutase (Cu,Zn-SOD), catalase (CAT), glutathione peroxidase (GPx), and non-esterified fatty acids (NEFA) in the plasma and liver tissue in HFDS-SHHR compared with Sprague-Dawley rats (SD). In the HFDS-treated groups, levels of LPO, CAT, GPx, and NEFA were elevated and levels of Cu,Zn-SOD were reduced in the plasma and liver tissue, with a marked accumulation of visceral fat. The changes induced by HFDS feeding were severe in the SHHR model that had essential hypertension and hyperlipidemia, when compared with SD that did not have these essential risk factors. Subcutaneous injection of 10 mg / kg per day of pioglitazone for 2 months significantly restored levels of LPO, CAT, GPx, Cu,Zn-SOD, and NEFA in the HFDS-SHHR group, and visceral fat accumulation was reduced. These results suggest that HFDS-SHHR is a suitable model of metabolic syndrome and that pioglitazone treatment can improve oxidative dysregulation in this rat model.
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