A distinction is made between the two most important forms of self-induced cell death, namely apoptosis (programmed cell death) and necroptosis (programmed necrosis), which are based on different cellular mechanisms. Until now, it was not clear which form of cell death is decisive for the development of malignant liver tumours. The team working with Professor Dr. Tom Luedde from the RWTH Aachen University Hospital and Professor Dr. Mathias Heikenwälder from the Institute of Virology at the Helmholtz Zentrum München (HMGU) has now been able to verify that apoptosis precedes the development of abnormal liver cells. The scientists, including Florian Reisinger from the Institute of Virology (HMGU) and Dr. Kristian Unger from the Research Unit Radiation Cytogenetics (HMGU) showed this using mouse models. Moreover they discovered that in contrast, necroptosis prevents uninhibited cell proliferation and consequently the development of liver cancer.
These findings could form the basis for new approaches to therapy for liver cancer, which until now has been a form of cancer that cannot be adequately treated and that kills 800,000 patients around the world each year. "We now know which cellular signalling pathways are involved in liver tumour development," explains Heikenwälder. "In a further step we want to develop new treatment options, for example, by attempting to pharmaceutically block the apoptosis itself or its signalling pathways. But any new therapy can also cause undesirable effects: In our experiments, we saw that blocking apoptosis under inflammatory conditions can result in bililary obstruction (cholestasis) in the context of liver inflammation."
In upcoming investigations, the scientists want to verify their findings on the development of liver cancer and search for active substances that inhibit apoptosis while simultaneously causing the mildest possible side effects. The objective is to further develop the acquired knowledge in the sense of translational research in order to provide concrete benefits for society.
source : http://www.sciencedaily.com/releases/2013/08/130830091802.htm