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Literature DB >> 29089360

Cortical interneuron development: a tale of time and space.

Jia Sheng Hu^1,2, Daniel Vogt^1,2, Magnus Sandberg^1,2, John L Rubenstein^3,2.

Abstract

Cortical interneurons are a diverse group of neurons that project locally and are crucial for regulating information processing and flow throughout the cortex. Recent studies in mice have advanced our understanding of how these neurons are specified, migrate and mature. Here, we evaluate new findings that provide insights into the development of cortical interneurons and that shed light on when their fate is determined, on the influence that regional domains have on their development, and on the role that key transcription factors and other crucial regulatory genes play in these events. We focus on cortical interneurons that are derived from the medial ganglionic eminence, as most studies have examined this interneuron population. We also assess how these data inform our understanding of neuropsychiatric disease and discuss the potential role of cortical interneurons in cell-based therapies.

Entities: Disease Species

Keywords: Cell fate; Cortical interneurons; MGE; Parvalbumin; Somatostatin; Transcription factors

Mesh：

Year: 2017 PMID： 29089360 PMCID： PMC5702067 DOI： 10.1242/dev.132852

Source DB: PubMed Journal: Development ISSN： 0950-1991 Impact factor: 6.868

124 in total

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2. Genetic disruption of Met signaling impairs GABAergic striatal development and cognition.

Authors: G J Martins; M Shahrokh; E M Powell
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3. Lhx6 and Lhx8 coordinately induce neuronal expression of Shh that controls the generation of interneuron progenitors.

Authors: Pierre Flandin; Yangu Zhao; Daniel Vogt; Juhee Jeong; Jason Long; Gregory Potter; Heiner Westphal; John L R Rubenstein
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10. Clonally Related Forebrain Interneurons Disperse Broadly across Both Functional Areas and Structural Boundaries.

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10. Targeting Gamma-Related Pathophysiology in Autism Spectrum Disorder Using Transcranial Electrical Stimulation: Opportunities and Challenges.

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