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Author Notes:

Correspondence should be addressed to either of the following: Dr Anjali Rajadhyaksha, Division of Pediatric Neurology, Department of Pediatrics, Weill Cornell Medicine, 1300 York Avenue, New York, NY 10065, E-mail: amr2011@med.cornell.edu; or Dr Andrew A. Pieper, Departments of Neurology, Free Radical & Radiation Biology Program, Department of Radiation Oncology. Holden Comprehensive Cancer Center, and Veterans Affairs, University of Iowa Carver College of Medicine, 415 Newton Road, Iowa City, IA 52242, E-mail: Andrew-Pieper@uiowa.edu.

A.A.P. holds patents on the P7C3 family of neuroprotective compounds.

A.S.L., H.D.J.-C., A.M.R., and A.A.P. designed research, performed research, analyzed data, wrote the paper; Z.D.K., W.K., M.O., C.B., P.H., L.M., and J.K.B. performed research, analyzed data; F.H. contributed reagents; D.J.B. performed research, analyzed data, wrote the paper.

A.S.L. and H.D.J.-C. contributed equally to this work.

A.M.R and A.A.P co-senior authors.

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Research Funding:

This work was supported by unrestricted funds from the University of Iowa Carver College of Medicine to A.A.P, a National Science Foundation fellowship to H.DJ-C, Funding from The Hartwell Foundation to A.M.R and A.A.P., Weill Cornell Autism Research Program funding to A. M. R, NIH Ruth L. Kirschstein NRSA F31 fellowship to A.S.L.

Keywords:

  • anxiety
  • Cav
  • neurogenesis
  • neuroprotection
  • P7C3
  • P7C3A20

The Neuropsychiatric Disease-Associated Gene cacna1c Mediates Survival of Young Hippocampal Neurons,,

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Journal Title:

eNeuro

Volume:

Volume 3, Number 2

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Article | Final Publisher PDF

Abstract:

Genetic variations in CACNA1C, which encodes the Cav1.2 subunit of L-type calcium channels (LTCCs), are associated with multiple forms of neuropsychiatric disease that manifest high anxiety in patients. In parallel, mice harboring forebrain-specific conditional knockout of cacna1c (forebrain-Cav1.2 cKO) display unusually high anxiety-like behavior. LTCCs in general, including the Cav1.3 subunit, have been shown to mediate differentiation of neural precursor cells (NPCs). However, it has not previously been determined whether Cav1.2 affects postnatal hippocampal neurogenesis in vivo. Here, we show that forebrain-Cav1.2 cKO mice exhibit enhanced cell death of young hippocampal neurons, with no change in NPC proliferation, hippocampal size, dentate gyrus thickness, or corticosterone levels compared with wild-type littermates. These mice also exhibit deficits in brain levels of brain-derived neurotrophic factor (BDNF), and Cre recombinase-mediated knockdown of adult hippocampal Cav1.2 recapitulates the deficit in young hippocampal neurons survival. Treatment of forebrain-Cav1.2 cKO mice with the neuroprotective agent P7C3-A20 restored the net magnitude of postnatal hippocampal neurogenesis to wild-type levels without ameliorating their deficit in BDNF expression. The role of Cav1.2 in young hippocampal neurons survival may provide new approaches for understanding and treating neuropsychiatric disease associated with aberrations in CACNA1C.

Copyright information:

© 2016 Lee et al.

This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/).

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