Dr. Heuckeroth investigates mechanisms controlling bowel motility in order to find new ways to treat, diagnose, and prevent intestinal motility disorders. He works to define genetic, biochemical, and cellular processes that impact bowel function, with a special interest in the enteric nervous system and intestinal smooth muscle cells.
Dr. Anderson’s research interests focus on the molecular and cellular mechanisms that govern the development of the mammalian forebrain. In his research on the development of the cerebral cortex, he is particularly interested in understanding the molecular underpinnings behind the fate determination and axon targeting of subclasses of GABAergic interneurons implicated in the neuropathology of schizophrenia.
Dr. Worthen's research program focuses on the mechanisms of acute inflammation in the lung. For more than 30 years he has worked to develop concepts, tools, and approaches to understand how neutrophils are mobilized from the bone marrow, retained within pulmonary capillaries, and migrate into the lung parenchyma and airspaces.
Differences in mitochondrial function are a major factor in understanding the origins of autism spectrum disorders (ASD), according to a new study led by Douglas Wallace, PhD, director of the Center for Mitochondrial and Epigenomic Medicine at Children's Hospital of Philadelphia, that points way back to genetic vulnerabilities accumulated during ancient human migrations.