Brady Maher Laboratory

  • The Brady Maher Laboratory is interested in understanding the cellular and circuit pathophysiology that underlies neurodevelopmental and psychiatric disorders. Our lab focuses on trying to understand the function of genes that are associated with neurodevelopment problems by manipulating their expression level in utero during the peak of cortical development. We then use a variety of approaches and technologies to identify resulting phenotypes and molecular mechanisms including cell and molecular biology, optogenetics, imaging and electrophysiology. Current projects in the lab are focused on understanding the function of transcription factor 4 (TCF4), a clinically pleiotropic gene. Genome-wide association studies have identified genetic variants of TCF4 that are associated with schizophrenia, while autosomal dominant mutations in TCF4 result in Pitt Hopkins syndrome. Using our model system, we have identified several interesting electrophysiological and cell biological phenotypes associated with altering the expression of TCF4 in utero. We hypothesize that these phenotypes represent cellular pathophysiology related to these disorders and by understanding the molecular mechanisms responsible for these phenotypes we expect to identify therapeutic targets for drug development.

    Research Areas: cell biology, neurodevelopment, imaging, schizophrenia, psychiatric disorders, Pitt Hopkins syndrome, elecrophysiology, genomics, drugs, optogenetics, molecular biology, phenotypes