Gene Regulation in Intellectual Disability and Autism Spectrum Disorders With the Emphasis on Disease-Associated Transcription Factors TCF4, SATB2, FOXP1, and Neurotrophic Factor BDNF

Neural plasticity is the ability of nervous system to change its activity in response to stimuli by reorganizing its structure, functions, or connections and this is the main cellular basis for memory. Activity-regulated genes play crucial roles in the formation of neuronal plasticity, and dysregulation of this process gives rise to various nervous system disorders. The neurotrophin BDNF is among the best-studied activity-regulated genes, and its polymorphisms are associated with impairments in human cognition. Our results also place the basic helix-loop-helix transcription factor TCF4, that is implicated in a variety of psychiatric and autism spectrum disorders, to the group of activity-regulated transcription factors. The aim of this project is to study gene regulation in intellectual disability and autism spectrum disorders with emphasis on disease-associated transcription factors TCF4, SATB2, FOXP1, and neurotrophin BDNF for finding new drug targets.