The prevalence of nonalcoholic Fatty Liver Disease, NAFLD, is rising in American children, with kids of Latino ancestry being hit disproportionately hard by the disease. This chronic condition can progress to more severe forms of liver disease, but experts are not yet able to determine which children are at greatest risk of progression. There are currently no approved treatments for NAFLD in children, apart from modifications in diet and physical activity.
In order to better understand this disease, researchers from the Translational Genomics Research Institute (TGen), part of City of Hope, and Arizona State University’s Edson College of Nursing and Health Innovation have partnered with clinicians from Phoenix Children’s and Cincinnati Children’s on a new study.
Professor Johanna DiStefano, head of TGen’s Metabolic and Fibrotic Disease Program and a lead investigator on the project, will be using advanced molecular techniques to identify signatures of fatty liver disease in children. DiStefano has been investigating NAFLD for over fifteen years.
“Pediatric NAFLD is associated with poor long-term outcomes such as diabetes, cardiovascular disease, and even increased liver-related mortality in adulthood. How exactly this happens-;what cellular and molecular mechanisms contribute to this metabolic dysfunction and what roles are played by diet, lifestyle, and environment-;are still poorly understood,” DiStefano said, adding, “NAFLD is typically a silent disease and is often not discovered until it has reached advanced stages; therefore, there is a real need for this kind of work.”
This study was made possible through a 5-year R01 grant of $3.9 million from the National Institute of Diabetes and Digestive and Kidney Disease (NIDDK), part of the National Institutes of Health (NIH). Specifically, the study will examine and characterize the cargo of circulating extracellular vesicles (EVs) in NAFLD and determine what factors are different in kids with NAFLD compared to those without. EVs are known to exert influence over cellular signaling, wound repair, and tissue remodeling in the liver.
This study will give us a better idea why some kids get liver disease and others don’t. We will also explore how changes in liver fat storage after clinical intervention may alter molecular markers of the disease. In the future, these findings could help doctors to develop better methods to diagnose and treat fatty liver disease in kids.”
Professor Gabriel Shaibi, Director of ASU’s Center for Health Promotion and Disease Prevention and Co-Principal Investigator for the Study
Preliminary data forming the foundation for this study revealed protein signatures in EVs that appeared specific to fatty liver; and following a lifestyle intervention, these signatures began to resemble those observed in children without fatty liver disease.
Each member of the multidisciplinary team will have a distinct role in the study. ASU will provide samples and data from Latino youth with obesity and mild liver disease before and after intervention. Phoenix Children’s will provide samples and data from Latino youth with advanced liver disease, while Cincinnati Children’s will provide samples and data from Caucasian and African American youth with advanced liver disease who underwent bariatric surgery and whose liver disease was subsequently resolved. TGen will perform all of the molecular, proteomic, and statistical analyses on those samples, converting them from raw data to actionable information and investigating the mechanisms by which these NAFLD-associated factors contribute to the development and progression of disease.
Dr. Micah Olson, pediatric endocrinologist at Phoenix Children’s, said, “We are seeing a high number of pediatric patients at risk for NAFLD, and this study will help us better understand the underlying mechanisms involved in NAFLD, which will lead to improvements in our ability to diagnose and treat the disorder.”
The team hopes that their study will shed fresh light on the disease processes that make NAFLD so dangerous in children and identify improved methods for detecting the disease in earlier stages.