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DLK1 Expressed in Mouse Orexin Neurons Modulates Anxio-Depressive Behavior but Not Energy Balance.

Citation
Harris, T., et al. “Dlk1 Expressed In Mouse Orexin Neurons Modulates Anxio-Depressive Behavior But Not Energy Balance.”. Brain Sciences.
Center University of Michigan
Author Tatiyana Harris, Raluca Bugescu, Jaylyn Kelly, Anna Makela, Morgan Sotzen, Cheryl Sisk, Graham Atkin, Rebecca Pratt, Elahé Crockett, Gina Leinninger
Keywords Anxiety, body weight, delta-like-1 homolog (DLK1), depression, feeding, Lateral hypothalamic area, locomotor activity, orexin/hypocretin
Abstract

Lateral hypothalamic area (LHA) neurons expressing the neuropeptide orexin (OX) are implicated in obesity and anxio-depression. However, these neurons release OX as well as a host of other proteins that might contribute to normal physiology and disease states. We hypothesized that delta-like homolog 1 (DLK1), a protein reported to be co-expressed by all OX neurons, contributes to the regulation of energy balance and/or anxio-depression. Consistent with previous reports, we found that all rat OX neurons co-express DLK1. Yet, in mice and humans only a subset of OX neurons co-expressed DLK1. Since human OX-DLK1 distribution is more similar to mice than rats, mice are a comparable model to assess the human physiologic role of DLK1. We therefore used a viral lesion strategy to selectively delete DLK1 within the LHA of adult mice (DLK1) to reveal its role in body weight and behavior. Adult-onset DLK1 deletion had no impact on body weight or ingestive behavior. However, DLK1 mice engaged in more locomotor activity than control mice and had decreased anxiety and depression measured via the elevated plus maze and forced swim tests. These data suggest that DLK1 expression via DLK1-expressing OX neurons primarily contributes to anxio-depression behaviors without impacting body weight.

Year of Publication
2020
Journal
Brain sciences
Volume
10
Issue
12
Date Published
12/2020
ISSN Number
2076-3425
DOI
10.3390/brainsci10120975
Alternate Journal
Brain Sci
PMID
33322758
PMCID
PMC7764426
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