Dorsal and ventral mossy cells differ in their axonal projections throughout the dentate gyrus of the mouse hippocampus

Dorsal and ventral mossy cells differ in their axonal projections throughout the dentate gyrus of the mouse hippocampus

Glutamatergic hilar mossy cells (MCs) have axons that terminate both near and far from their cell body but stay within the DG, making synapses primarily in the molecular layer. The long‐range axons are considered the primary projection, and extend throughout the DG ipsilateral to the soma, and proje...

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Bibliographic Details
Published in:Hippocampus Vol. 31; no. 5; pp. 522 - 539
Main Authors: Botterill, Justin J., Gerencer, Kathleen J., Vinod, K. Yaragudri, Alcantara‐Gonzalez, David, Scharfman, Helen E.
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-05-2021
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Subjects:
Animals
axon
Axons
Cell body
commissural
Dentate gyrus
Dentate Gyrus - physiology
Dopamine D2 receptors
GABA
Glutamatergic transmission
hilus
Hippocampus
long‐range
Mice
molecular layer
Mossy Fibers, Hippocampal - physiology
Synapses
virus
hilus
long-range
commissural
molecular layer
GABA
axon
virus
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Summary:Glutamatergic hilar mossy cells (MCs) have axons that terminate both near and far from their cell body but stay within the DG, making synapses primarily in the molecular layer. The long‐range axons are considered the primary projection, and extend throughout the DG ipsilateral to the soma, and project to the contralateral DG. The specificity of MC axons for the inner molecular layer (IML) has been considered to be a key characteristic of the DG. In the present study, we made the surprising finding that dorsal MC axons are an exception to this rule. We used two mouse lines that allow for Cre‐dependent viral labeling of MCs and their axons: dopamine receptor D2 (Drd2‐Cre) and calcitonin receptor‐like receptor (Crlr‐Cre). A single viral injection into the dorsal DG to label dorsal MCs resulted in labeling of MC axons in both the IML and middle molecular layer (MML). Interestingly, this broad termination of dorsal MC axons occurred throughout the septotemporal DG. In contrast, long‐range axons of ventral MCs terminated in the IML, consistent with the literature. Taken together, these results suggest that dorsal and ventral MCs differ significantly in their axonal projections. Since MC projections in the ML are thought to terminate primarily on GCs, the results suggest a dorsal–ventral difference in MC activation of GCs. The surprising difference in dorsal and ventral MC projections should therefore be considered when evaluating dorsal–ventral differences in DG function.
Bibliography:Funding information
American Epilepsy Society; National Institute of Mental Health, Grant/Award Number: R01 MH‐109305; New York State Office of Mental Health
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Funding information American Epilepsy Society; National Institute of Mental Health, Grant/Award Number: R01 MH‐109305; New York State Office of Mental Health
ISSN:1050-9631
1098-1063
DOI:10.1002/hipo.23314