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Mice heterozygous for a null mutation of CPE show reduced expression of carboxypeptidase e mRNA and enzyme activity but normal physiology, behavior, and levels of neuropeptides.

Publication ,  Journal Article
Fricker, LD; Lemos Duarte, M; Jeltyi, A; Lueptow, L; Fakira, AK; Tashima, AK; Hochgeschwender, U; Wetsel, WC; Devi, LA
Published in: Brain Res
August 15, 2022

Carboxypeptidase E (CPE) is an essential enzyme that contributes to the biosynthesis of the vast majority of neuropeptides and peptide hormones. There are several reports claiming that small decreases in CPE activity cause physiological changes in animals and/or cultured cells, but these studies did not provide evidence that neuropeptide levels were affected by decreased CPE activity. In the present study, we tested if CPE is a rate-limiting enzyme in neuropeptide production using CpeNeo mice, which contain a neomycin cassette within the Cpe gene that eliminates enzyme expression. Homozygous CpeNeo/Neo mice show defects found in Cpefat/fat and/or Cpe global knockout (KO) mice, including greatly decreased levels of most neuropeptides, severely impaired fertility, depressive-like behavior, adult-onset obesity, and anxiety-like behavior. Removal of the neomycin cassette with Flp recombinase under a germline promoter restored expression of CPE activity and resulted in normal behavioral and physiological properties, including levels of neuropeptides. Mice heterozygous for the CpeNeo allele have greatly reduced levels of Cpe mRNA and CPE-like enzymatic activity. Despite the decreased levels of Cpe expression, heterozygous CpeNeo mice are behaviorally and physiologically identical to wild-type mice, with normal levels of most neuropeptides. These results indicate that CPE is not a rate-limiting enzyme in the production of most neuropeptides, casting doubt upon studies claiming small decreases in CPE activity contribute to obesity or other physiological effects.

Duke Scholars

Published In

Brain Res

DOI

EISSN

1872-6240

Publication Date

August 15, 2022

Volume

1789

Start / End Page

147951

Location

Netherlands

Related Subject Headings

  • RNA, Messenger
  • Obesity
  • Neuropeptides
  • Neurology & Neurosurgery
  • Neomycin
  • Mice, Knockout
  • Mice
  • Loss of Function Mutation
  • Carboxypeptidase H
  • Behavior, Animal
 

Citation

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Fricker, L. D., Lemos Duarte, M., Jeltyi, A., Lueptow, L., Fakira, A. K., Tashima, A. K., … Devi, L. A. (2022). Mice heterozygous for a null mutation of CPE show reduced expression of carboxypeptidase e mRNA and enzyme activity but normal physiology, behavior, and levels of neuropeptides. Brain Res, 1789, 147951. https://doi.org/10.1016/j.brainres.2022.147951
Fricker, Lloyd D., Mariana Lemos Duarte, Andrei Jeltyi, Lindsay Lueptow, Amanda K. Fakira, Alexandre K. Tashima, Ute Hochgeschwender, William C. Wetsel, and Lakshmi A. Devi. “Mice heterozygous for a null mutation of CPE show reduced expression of carboxypeptidase e mRNA and enzyme activity but normal physiology, behavior, and levels of neuropeptides.Brain Res 1789 (August 15, 2022): 147951. https://doi.org/10.1016/j.brainres.2022.147951.
Fricker, Lloyd D., et al. “Mice heterozygous for a null mutation of CPE show reduced expression of carboxypeptidase e mRNA and enzyme activity but normal physiology, behavior, and levels of neuropeptides.Brain Res, vol. 1789, Aug. 2022, p. 147951. Pubmed, doi:10.1016/j.brainres.2022.147951.
Fricker LD, Lemos Duarte M, Jeltyi A, Lueptow L, Fakira AK, Tashima AK, Hochgeschwender U, Wetsel WC, Devi LA. Mice heterozygous for a null mutation of CPE show reduced expression of carboxypeptidase e mRNA and enzyme activity but normal physiology, behavior, and levels of neuropeptides. Brain Res. 2022 Aug 15;1789:147951.
Journal cover image

Published In

Brain Res

DOI

EISSN

1872-6240

Publication Date

August 15, 2022

Volume

1789

Start / End Page

147951

Location

Netherlands

Related Subject Headings

  • RNA, Messenger
  • Obesity
  • Neuropeptides
  • Neurology & Neurosurgery
  • Neomycin
  • Mice, Knockout
  • Mice
  • Loss of Function Mutation
  • Carboxypeptidase H
  • Behavior, Animal