Integrin/ECM gating of adult neural stem cell activity
Stanford University, Stanford CA
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Abstract
DESCRIPTION (provided by applicant): Integrins and their interactions with extracellular matrix proteins (ECM) regulate many cellular processes but their role in neural stem cell biology is poorly defined. Here we focus on a novel integrin-ECM interaction that defines a permissive environment for stem cell self-renewal and neurogenesis in the adult brain. Neural stem cells persist in the adult mammalian brain and support the continuing production of neurons and glia. Although glia are produced in all areas of the brain, native neurogenesis is restricted to the subventricular zone (SVZ) and hippocampal subgranular zone (SGZ). Neurogenesis can be triggered in other areas of the brain, for example by injury, but the production and retention of new neurons is inefficient and abortive at best. A better understanding of local environments that naturally support the maintenance of a stem cell pool as well as their efficient use in neurogenesis could lead to significant advances in neural repair/regeneration. Toward this end, we have identified several integrin-ECM interactions that are selectively localized to the native neurogenic areas of the brain. In vitro, we show that these interactions gate neural stem and progenitor cell response to mitogens and here we propose studies to define the specific mechanisms used within the adult neurogenic niche to: 1) maintain and regulate stem cell self-renewal and stem cell pool size; 2) regulate the transient amplification and survival of newly generated neuroblasts; and 3), mediate physiological signaling that controls hippocampal neurogenesis in response to physical exercise or learning experiences.
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