Astrocytes (AS) are the most numerous cells in the central nervous system and are increasingly recognized as key players in the pathology of neurodevelopmental and neurodegenerative diseases including the autism- associated disorders Rett Syndrome and Fragile X syndrome, Amyotrophic Lateral Sclerosis (ALS), and Huntington's Disease. The goal of this research program is to define the role of AS in guiding the formation of functional neural circuits. The applicant for this K08 Mentored Clinical Scientist Research Career Development Award is a Psychiatrist and Clinical Instructor in the Department of Psychiatry, and a postdoctoral fellow with Dr. David Rowitch at the University of California San Francisco. This proposal outlines a 4-year career development plan and research strategy that includes mentorship by Dr. Rowitch, Dr. John Rubenstein and Dr. Erik Ullian to accomplish the research aims described below. Together, these will enable the applicant to fulfill a career goal of running an independent laboratory spanning the interface of glial biology and neuropsychiatric disease. Preliminary data that forms the basis for this proposal demonstrates that the guidance molecules Sema3a and EphA5 are uniquely expressed by ventral, but not dorsal spinal cord AS. AS-encoded Sema3a secreted from ventral AS has local effects on motor neuron position, postnatal survival, and synaptogenesis, demonstrating molecularly defined AS heterogeneity for the first time. The research strategy expands these findings in mechanistic and functional directions to determine how these heterogeneous AS modulate the formation of a sensorimotor circuit.
Aim one will investigate the mechanism by which AS-encoded Sema3a protein polarizes motor neurons and its effects on motor neuron dendrite outgrowth.
Aim two will study the effects of AS- encoded Sema3a in motor neuron circuit function, via additional training in slice electrophysiology.
Aim three will determine the role of AS in guiding incoming sensory afferents that synapse on motor neurons through function of AS-encoded positional molecule EphA5. Together, these aims will greatly expand our understanding of the role of AS on the maturation of a defined monosynaptic CNS circuit. The training and mentorship proposed will prepare the candidate for an independent investigator position addressing the role of AS in neural circuit formation throughout the CNS. Ultimately, this strategy and training plan will open new avenues of research on glial-based treatments for neuropsychiatric disorders.
Normal brain development depends on an intricate interplay between neurons and their glial support cells - known as astrocytes; that interplay is disrupted in diseases such as autism and schizophrenia. I will test the hypothesis that astrocytes serve as a 'roadmap' for the developing brain, encoding unique signals that help neurons to find their targets and make functioning circuits. This knowledge will be crucial to one day developing treatments that can alter the course of schizophrenia, autism, and other developmental diseases.
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| Molofsky, Anna V; Kelley, Kevin W; Tsai, Hui-Hsin et al. (2014) Astrocyte-encoded positional cues maintain sensorimotor circuit integrity. Nature 509:189-94 |
