Tuesday, February 3, 2015

Penn researchers find effective way to inhibit inflammatory response during kidney dialysis

Frequent kidney dialysis is essential for the approximately 350,000 end-stage renal disease (ESRD) patients in the United States. But it can also cause systemic inflammation, leading to complications such as cardiovascular disease and anemia, and patients who rely on the therapy have a five-year survival rate of only 35 percent. Such inflammation can be triggered when the complement cascade, part of the body's innate immune system, is inadvertently activated by modern polymer-based dialysis blood filters. New work by Penn researchers has found an effective way to avoid these problems by temporarily suppressing complement during dialysis. Their work appears online in Immunobiology ahead of print.

Compstatin Ile-Cys-Val-Val-Gln-Asp-Trp-Gly-His-His-Arg-Cys-Thr-NH2 (Disulfide bridge: 2 -12)
Over the past several years, lead author John Lambris, PhD, the Dr. Ralph and Sallie Weaver Professor of Research Medicine, Perelman School of Medicine at the University of Pennsylvania, and his colleagues have developed small molecule versions of the drug compstatin, which inhibits a component of the complement immune response called C3. Lambris explains that this next-generation compound, called Cp40, "is a small peptide similar to cyclosporine in many aspects, however it uses a different mechanism of action."


Previous studies by Lambris and his team, in which modern polymer-based hemodialysis filters were perfused with human blood, showed significant complement activation and an increase in inflammatory biomarkers. This response could be suppressed using compstatin, suggesting that it might be used in dialysis to decrease the inflammatory response side effect.
The new study took place in non-human primates to validate Cp40's complement-inhibiting properties in whole animals. Even after undergoing a single session of dialysis using a pediatric hemodialysis filter with high biocompatibility, healthy animals showed strong complement activation with 5 percent of their C3 being converted to a form that can trigger inflammation and stimulate the immune system.

Ref : http://www.upenn.edu/pennnews/news/penn-researchers-tame-inflammatory-response-kidney-dialysis

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