Ginseng treatment attenuates autophagic cell death in chronic cyclosporine nephropathy.

AIMS: Chronic cyclosporine (CsA) treatment induces autophagic cell death characterized by excessive autophagosome formation and decreased autophagic clearance. In this study, we evaluated the influence of ginseng treatment on autophagy in chronic CsA nephropathy. METHODS: Mice were treated with CsA (30 mg/kg) with or without Korean red ginseng (KRG) extract (0.2, 0.4 g/kg) for 4 weeks. The effect of KRG on CsA-induced autophagosome formation was measured using phospholipid-conjugated form of LC3-II, beclin-1, and autophagic vacuoles were visualized with electron microscopy. Autophagic clearance was evaluated by accumulation of p62/sequestosome 1 (p62) and ubiquitin, then double immunolabeling for p62 and either LC3-II or ubiquitin. To demonstrate the association between the effects of KRG treatment on autophagy and apoptosis, double immunolabelling for LC3-II and active caspase-3 was performed. Multiple autophagy pathways were also examined. RESULTS: KRG co-treatment significantly decreased the expression of LC3-II, beclin-1, and the number of autophagic vacuoles compared with the CsA group, and these changes were accompanied by improvements in renal dysfunction and fibrosis. CsA-induced accumulation of p62 and ubiquitin was also decreased by KRG treatment, and these proteins were colocalized with LC3-II and with each other. KRG treatment simultaneously reduced the expression of both active caspase-3 and LC3-II in the injured area. KRG treatment during chronic CsA nephropathy induced the expression of AKT/mTOR, which is a pathway that inhibits autophagy, and reduced AMPK expression. CONCLUSION: Ginseng treatment attenuated CsA-induced excessive autophagosome formation and autophagic aggregates. These findings suggest that ginseng has a renoprotective effect against CsA-induced autophagic cell death.

Oral administration of ginseng ameliorates cyclosporine-induced pancreatic injury in an experimental mouse model.

BACKGROUND: This study was performed to investigate whether ginseng has a protective effect in an experimental mouse model of cyclosporine-induced pancreatic injury. METHODS: Mice were treated with cyclosporine (30 mg/kg/day, subcutaneously) and Korean red ginseng extract (0.2 or 0.4 g/kg/day, oral gavage) for 4 weeks while on a 0.01% salt diet. The effect of ginseng on cyclosporine-induced pancreatic islet dysfunction was investigated by an intraperitoneal glucose tolerance test and measurements of serum insulin level, ß cell area, macrophage infiltration, and apoptosis. Using an in vitro model, we further examined the effect of ginseng on a cyclosporine-treated insulin-secreting cell line. Oxidative stress was measured by the concentration of 8-hydroxy-2'-deoxyguanosine in serum, tissue sections, and culture media. RESULTS: Four weeks of cyclosporine treatment increased blood glucose levels and decreased insulin levels, but cotreatment with ginseng ameliorated the cyclosporine-induced glucose intolerance and hyperglycemia. Pancreatic ß cell area was also greater with ginseng cotreatment compared with cyclosporine monotherapy. The production of proinflammatory molecules, such as induced nitric oxide synthase and cytokines, and the level of apoptotic cell death also decreased in pancreatic ß cell with ginseng treatment. Consistent with the in vivo results, the in vitro study showed that the addition of ginseng protected against cyclosporine-induced cytotoxicity, inflammation, and apoptotic cell death. These in vivo and in vitro changes were accompanied by decreases in the levels of 8-hydroxy-2'-deoxyguanosine in pancreatic ß cell in tissue section, serum, and culture media during cotreatment of ginseng with cyclosporine. CONCLUSIONS: The results of our in vivo and in vitro studies demonstrate that ginseng has a protective effect against cyclosporine-induced pancreatic ß cell injury via reducing oxidative stress.

Ginseng treatment attenuates chronic cyclosporine nephropathy via reducing oxidative stress in an experimental mouse model.

BACKGROUND: This study was performed to investigate whether ginseng extract has a protective effect in an experimental mouse model of chronic cyclosporine (CsA) nephropathy. METHODS: Mice were treated with CsA (30 mg/kg/day, subcutaneously) with or without Korean red ginseng extract (KRG) (0.2, 0.4 g/kg/day, orally) on a 0.01% salt diet for 4 weeks. The effect of KRG on CsA-induced renal injury was evaluated by assessing renal function and pathology, mediators of inflammation, tubulointerstitial fibrosis and apoptotic cell death. Using an in vitro model, we also examined the effect of KRG on CsA-treated proximal tubular cells (HK-2). Oxidative stress was measured by assessing 8-hydroxy-2'-deoxyguanosine (8-OHdG) levels in 24-hour urine, tissue sections, and culture media. RESULTS: Four weeks of CsA treatment caused renal dysfunction, typical pathologic lesions and apoptotic cell death. KRG treatment reduced serum creatinine and blood urea nitrogen and histopathology and increased creatinine clearance. Proinflammatory and profibrotic molecules such as induced nitric oxide synthase, cytokines, transforming growth factor (TGF)-ß1 and TGF-ß1-inducible gene h3 and apoptotic cell death, also decreased with KRG treatment. Consistent with these results, in vitro studies showed that addition of KRG protected against CsA-induced morphological changes, cytotoxicity, inflammation, and apoptotic cell death as demonstrated by annexin V binding. These changes were accompanied by decrease in the level of 8-OHdG in urine and culture supernatant after KRG treatment. CONCLUSION: The results of our in vivo and in vitro studies demonstrate that KRG has a protective effect in CsA-induced renal injury via reducing oxidative stress.

STAT3 and NF-kappaB signal pathway is required for IL-23-mediated IL-17 production in spontaneous arthritis animal model IL-1 receptor antagonist-deficient mice.

IL-23 is a heterodimeric cytokine composed of a p19 subunit and the p40 subunit of IL-12. IL-23 has proinflammatory activity, inducing IL-17 secretion from activated CD4(+) T cells and stimulating the proliferation of memory CD4(+) T cells. We investigated the pathogenic role of IL-23 in CD4(+) T cells in mice lacking the IL-1R antagonist (IL-1Ra(-/-)), an animal model of spontaneous arthritis. IL-23 was strongly expressed in the inflamed joints of IL-1Ra(-/-) mice. Recombinant adenovirus expressing mouse IL-23 (rAd/mIL-23) significantly accelerated this joint inflammation and joint destruction. IL-1beta further increased the production of IL-23, which induced IL-17 production and OX40 expression in splenic CD4(+) T cells of IL-1Ra(-/-) mice. Blocking IL-23 with anti-p19 Ab abolished the IL-17 production induced by IL-1 in splenocyte cultures. The process of IL-23-induced IL-17 production in CD4(+) T cells was mediated via the activation of Jak2, PI3K/Akt, STAT3, and NF-kappaB, whereas p38 MAPK and AP-1 did not participate in the process. Our data suggest that IL-23 is a link between IL-1 and IL-17. IL-23 seems to be a central proinflammatory cytokine in the pathogenesis of this IL-1Ra(-/-) model of spontaneous arthritis. Its intracellular signaling pathway could be useful therapeutic targets in the treatment of autoimmune arthritis.