LASP1 signaling in dendritic spine development
Emory University, Atlanta GA
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Abstract
? DESCRIPTION (provided by applicant): Dendritic spines are micron-sized structures on dendrites that contain the majority of excitatory synapses in the brain. Synapses mediate neuronal communication, and they undergo activity- dependent modifications during development as well as during learning and memory. Defects in the morphology of dendrite spine morphology are correlated with synaptic impairment. Consequently, these defects are associated with numerous cognitive and degenerative disorders, including intellectual disability, schizophrenia, and Alzheimer's disease. Dynamic remodeling of the actin cytoskeleton is the primary driver of spine development and activity- dependent modifications. However, our understanding of the actin mechanisms underlying spine structure and dynamics remain largely limited. My overall goal is to determine the function of the small actin-binding protein, LIM and SH3 domain protein 1 (LASP1), in dendritic spine development and synaptic plasticity. To that end, I will use high resolution live-cell imaging approaches and electrophysiology in combination with genetic and pharmacological methods to examine LASP1 function. My investigation includes the following two general aims: 1) determine the role of LASP1 in synaptic plasticity and activity-dependent spine morphogenesis; and 2) examine the molecular mechanisms regulating LASP1 function in spines. This study will lead to a greater understanding of the molecular underpinnings of dendritic spine development, with important implications for our knowledge of learning and memory. In addition, because spine dysfunction is a common feature of many neurological disorders, investigating LASP1 function in spines may lead to a greater understanding of their underlying pathophysiology.
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