Overturning previous assumptions, study also provides new, more realistic model for liver cancer research and drug development —
Some cancers are caused by loss of enzymes that should keep cell growth in check. On the flip side, some are caused by over-activation of enzymes that enhance cell growth. Yet drugs that inhibit the overactive enzymes have failed to work against liver cancer. In mouse models, researchers at University of California San Diego School of Medicine have discovered a potential reason — counterintuitively, lack of both types of these enzymes can lead to liver disease and cancer. In human liver tumor samples, they also found that deficiencies in these two enzymes, called Shp2 and Pten, are associated with poor prognosis.
The study, published December 13 by Cell Reports, provides a new understanding of how liver cancer develops, a new therapeutic approach and new mouse model for studying the disease. … Read the Full Story from the UC San Diego Newsroom
The study team includes Rohit Loomba, MD, MHSc, Director of the NAFLD Research Center and Director of Hepatology in the Division of Gastroenterology, Department of Medicine at UC San Diego. Dr. Loomba is Professor of Medicine (with tenure) and Vice Chief, Division of Gastroenterology.
Dr. Loomba is also Adjunct Professor, Division of Epidemiology, Department of Family Medicine and Public Health.