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      Human umbilical cord-derived mesenchymal stem cells conditioned medium attenuate interstitial fibrosis and stimulate the repair of tubular epithelial cells in an irreversible model of unilateral ureteral obstruction : Conditioned medium in renal fibrosis

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          Chronic kidney disease as a risk factor for cardiovascular disease and all-cause mortality: a pooled analysis of community-based studies.

          Chronic kidney disease (CKD) is a major public health problem. Conflicting evidence exists among community-based studies as to whether CKD is an independent risk factor for adverse cardiovascular outcomes. After subjects with a baseline history of cardiovascular disease were excluded, data from four publicly available, community-based longitudinal studies were pooled: Atherosclerosis Risk in Communities Study, Cardiovascular Health Study, Framingham Heart Study, and Framingham Offspring Study. Serum creatinine levels were indirectly calibrated across studies. CKD was defined by a GFR between 15 and 60 ml/min per 1.73 m(2). A composite of myocardial infarction, fatal coronary heart disease, stroke, and death was the primary study outcome. Cox proportional hazards models were used to adjust for study, demographic variables, educational status, and other cardiovascular risk factors. The total population included 22,634 subjects; 18.4% of the population was black, and 7.4% had CKD. There were 3262 events. In adjusted analyses, CKD was an independent risk factor for the composite study outcome (hazard ratio [HR], 1.19; 95% confidence interval [CI], 1.07-1.32), and there was a significant interaction between kidney function and race. Black individuals with CKD had an adjusted HR of 1.76 (95% CI, 1.35-2.31), whereas whites had an adjusted HR of 1.13 (95% CI, 1.02-1.26). CKD is a risk factor for the composite outcome of all-cause mortality and cardiovascular disease in the general population and a more pronounced risk factor in blacks than in whites. It is hypothesized that this effect may be due to more frequent or more severe subclinical vascular disease secondary to hypertension or diabetes in black individuals.
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            Fibroblasts in kidney fibrosis emerge via endothelial-to-mesenchymal transition.

            Fibroblasts are key mediators of fibrosis in the kidney and other organs, but their origin during fibrosis is still not completely clear. Activated fibroblasts likely arise from resident quiescent fibroblasts via epithelial-to-mesenchymal transition and from the bone marrow. Here, we demonstrate that endothelial cells also contribute to the emergence of fibroblasts during kidney fibrosis via the process of endothelial-to-mesenchymal transition (EndMT). We examined the contribution of EndMT to renal fibrosis in three mouse models of chronic kidney disease: (1) Unilateral ureteral obstructive nephropathy, (2) streptozotocin-induced diabetic nephropathy, and (3) a model of Alport renal disease. Approximately 30 to 50% of fibroblasts coexpressed the endothelial marker CD31 and markers of fibroblasts and myofibroblasts such as fibroblast specific protein-1 and alpha-smooth muscle actin. Endothelial lineage tracing using Tie2-Cre;R26R-stop-EYFP transgenic mice further confirmed the presence of EndMT-derived fibroblasts. Collectively, our results demonstrate that EndMT contributes to the accumulation of activated fibroblasts and myofibroblasts in kidney fibrosis and suggest that targeting EndMT might have therapeutic potential.
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              Stromal cells protect against acute tubular injury via an endocrine effect.

              Emerging evidence suggests that the intravenous injection of bone marrow-derived stromal cells (BMSC) improves renal function after acute tubular injury, but the mechanism of this effect is controversial. In this article, we confirm that intravenous infusion of male BMSC reduced the severity of cisplatin-induced acute renal failure in adult female mice. This effect was also seen when BMSC (or adipocyte-derived stromal cells (AdSC)), were given by intraperitoneal injection. Infusion of BMSC enhanced tubular cell proliferation after injury and decreased tubular cell apoptosis. Using the Y chromosome as a marker of donor stromal cells, examination of multiple kidney sections at one or four days after cell infusion failed to reveal any examples of stromal cells within the tubules, and only rare examples of stromal cells within the renal interstitium. Furthermore, conditioned media from cultured stromal cells induced migration and proliferation of kidney-derived epithelial cells and significantly diminished cisplatin-induced proximal tubule cell death in vitro. Intraperitoneal administration of this conditioned medium to mice injected with cisplatin diminished tubular cell apoptosis, increased survival, and limited renal injury. Thus, marrow stromal cells protect the kidney from toxic injury by secreting factors that limit apoptosis and enhance proliferation of the endogenous tubular cells, suggesting that transplantation of the cells themselves is not necessary. Identification of the stromal cell-derived protective factors may provide new therapeutic options to explore in humans with acute kidney injury.
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                Author and article information

                Journal
                Nephrology
                Nephrology
                Wiley
                13205358
                August 2018
                August 2018
                July 29 2018
                : 23
                : 8
                : 728-736
                Affiliations
                [1 ]Department of Urology; Children's Hospital of Chongqing Medical University; Chongqing China
                [2 ]Ministry of Education Key Laboratory of Child Development and Disorders, Chongqing Key Laboratory of Pediatrics; Chongqing International Science and Technology Cooperation Center for Child Development and Disorders; Chongqing China
                [3 ]Department of Respiratory Medicine, Chongqing Key Laboratory of Pediatrics; Chongqing International Science and Technology Cooperation Center for Child Development and Disorders; Chongqing China
                [4 ]Wake Forest Institute for Regenerative Medicine; Wake Forest School of Medicine; Winston-Salem NC USA
                Article
                10.1111/nep.13099
                28667820
                81ef583e-9be0-4cd0-9cb8-1b36b91cef8c
                © 2018

                http://doi.wiley.com/10.1002/tdm_license_1.1

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