Constitutive and conditional deletion reveals distinct phenotypes driven by developmental versus neurotransmitter actions of the neuropeptide PACAP

Author:

Bakalar Dana1ORCID,Gavrilova Oksana2,Jiang Sunny Z.1,Zhang Hai‐ying1,Roy Snehashis3,Williams Sarah K.3ORCID,Liu Naili2,Wisser Stephen3,Usdin Ted B.3,Eiden Lee E.1ORCID

Affiliation:

1. Section on Molecular Neuroscience, National Institute of Mental Heath – Intramural Research Program Bethesda Maryland USA

2. Mouse Metabolism Core Laboratory, National Institute of Diabetes and Kidney Disease‐ Intramural Research Program Bethesda Maryland USA

3. Systems Neuroscience Imaging Resource, National Institute of Mental Heath – Intramural Research Program Bethesda Maryland USA

Abstract

AbstractNeuropeptides may exert trophic effects during development, and then neurotransmitter roles in the developed nervous system. One way to associate peptide‐deficiency phenotypes with either role is first to assess potential phenotypes in so‐called constitutive knockout mice, and then proceed to specify, regionally and temporally, where and when neuropeptide expression is required to prevent these phenotypes. We have previously demonstrated that the well‐known constellation of behavioral and metabolic phenotypes associated with constitutive pituitary adenylate cyclase‐activating peptide (PACAP) knockout mice are accompanied by transcriptomic alterations of two types: those that distinguish the PACAP‐null phenotype from wild‐type (WT) in otherwise quiescent mice (cPRGs), and gene induction that occurs in response to acute environmental perturbation in WT mice that do not occur in knockout mice (aPRGs). Comparing constitutive PACAP knockout mice to a variety of temporally and regionally specific PACAP knockouts, we show that the prominent hyperlocomotor phenotype is a consequence of early loss of PACAP expression, is associated with Fos overexpression in hippocampus and basal ganglia, and that a thermoregulatory effect previously shown to be mediated by PACAP‐expressing neurons of medial preoptic hypothalamus is independent of PACAP expression in those neurons in adult mice. In contrast, PACAP dependence of weight loss/hypophagia triggered by restraint stress, seen in constitutive PACAP knockout mice, is phenocopied in mice in which PACAP is deleted after neuronal differentiation. Our results imply that PACAP has a prominent role as a trophic factor early in development determining global central nervous system characteristics, and in addition a second, discrete set of functions as a neurotransmitter in the fully developed nervous system that support physiological and psychological responses to stress.

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience,Endocrine and Autonomic Systems,Endocrinology,Endocrinology, Diabetes and Metabolism

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