Skye E. Smith scite author profile

Skye E. Smith

3Publications

23Citation Statements Received

166Citation Statements Given

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West Virginia University, Blanchette Rockefeller Neurosciences Institute

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JNK signaling is required for proper tangential migration and laminar allocation of cortical interneurons

Myers

Cunningham

Smith

et al. 2020

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The precise migration of cortical interneurons is essential for the formation and function of cortical circuits, and disruptions to this key developmental process are implicated in the etiology of complex neurodevelopmental disorders, including schizophrenia, autism and epilepsy. We have recently identified the Jun N-terminal kinase (JNK) pathway as an important mediator of cortical interneuron migration in mice, regulating the proper timing of interneuron arrival into the cortical rudiment. In the current study, we demonstrate a vital role for JNK signaling at later stages of corticogenesis, when interneurons transition from tangential to radial modes of migration. Pharmacological inhibition of JNK signaling in ex vivo slice cultures caused cortical interneurons to rapidly depart from migratory streams and prematurely enter the cortical plate. Similarly, genetic loss of JNK function led to precocious stream departure ex vivo, and stream disruption, morphological changes and abnormal allocation of cortical interneurons in vivo. These data suggest that JNK signaling facilitates the tangential migration and laminar deposition of cortical interneurons, and further implicates the JNK pathway as an important regulator of cortical development.

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JNK Signaling Regulates Cellular Mechanics of Cortical Interneuron Migration

Smith

Coker

Tucker

2020

eNeuro

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c-Jun NH2-terminal kinase signaling controls cellular mechanisms of guided cortical interneuron migration

Smith¹

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Skye E. Smith

JNK signaling is required for proper tangential migration and laminar allocation of cortical interneurons

JNK Signaling Regulates Cellular Mechanics of Cortical Interneuron Migration

c-Jun NH2-terminal kinase signaling controls cellular mechanisms of guided cortical interneuron migration

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