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A blueprint for the spatiotemporal origins of mouse hippocampal interneuron diversity.

Although vastly outnumbered, inhibitory interneurons critically pace and synchronize excitatory principal cell populations to coordinate cortical information processing. Precision in this control relies upon a remarkable diversity of interneurons primarily determined during embryogenesis by genetic restriction of neuronal potential at the progenitor stage. Like their neocortical counterparts, hippocampal interneurons arise from medial and caudal ganglionic eminence (MGE and CGE) precursors. However, while studies of the early specification of neocortical interneurons are rapidly advancing, similar lineage analyses of hippocampal interneurons have lagged. A "hippocampocentric" investigation is necessary as several hippocampal interneuron subtypes remain poorly represented in the neocortical literature. Thus, we investigated the spatiotemporal origins of hippocampal interneurons using transgenic mice that specifically report MGE- and CGE-derived interneurons either constitutively or inducibly. We found that hippocampal interneurons are produced in two neurogenic waves between E9-E12 and E12-E16 from MGE and CGE, respectively, and invade the hippocampus by E14. In the mature hippocampus, CGE-derived interneurons primarily localize to superficial layers in strata lacunosum moleculare and deep radiatum, while MGE-derived interneurons readily populate all layers with preference for strata pyramidale and oriens. Combined molecular, anatomical, and electrophysiological interrogation of MGE/CGE-derived interneurons revealed that MGE produces parvalbumin-, somatostatin-, and nitric oxide synthase-expressing interneurons including fast-spiking basket, bistratified, axo-axonic, oriens-lacunosum moleculare, neurogliaform, and ivy cells. In contrast, CGE-derived interneurons contain cholecystokinin, calretinin, vasoactive intestinal peptide, and reelin including non-fast-spiking basket, Schaffer collateral-associated, mossy fiber-associated, trilaminar, and additional neurogliaform cells. Our findings provide a basic blueprint of the developmental origins of hippocampal interneuron diversity.

Pubmed ID: 21795545

Authors

  • Tricoire L
  • Pelkey KA
  • Erkkila BE
  • Jeffries BW
  • Yuan X
  • McBain CJ

Journal

The Journal of neuroscience : the official journal of the Society for Neuroscience

Publication Data

July 27, 2011

Associated Grants

  • Agency: NICHD NIH HHS, Id: ZIA HD001205-18

Mesh Terms

  • Animals
  • Animals, Newborn
  • Basic Helix-Loop-Helix Transcription Factors
  • Cell Differentiation
  • Cell Movement
  • Cluster Analysis
  • Embryo, Mammalian
  • Gene Expression Regulation, Developmental
  • Green Fluorescent Proteins
  • Hippocampus
  • Interneurons
  • Membrane Potentials
  • Mice
  • Mice, Transgenic
  • Nerve Tissue Proteins
  • Neural Pathways
  • Organizers, Embryonic
  • Peptides
  • RNA, Messenger
  • Time Factors
  • gamma-Aminobutyric Acid