Altered psychomotor behaviors in mice lacking pituitary adenylate cyclase-activating polypeptide (PACAP)
Pituitary adenylate cyclase-activating polypeptide (PACAP) has been conserved remarkably during evolution and is widely expressed in the mammalian brain. In Drosophila, mutation of the PACAP homologue results in behavioral defects, including impaired olfaction-associated learning and changes in ethanol sensitivity. Here, we report the generation of mice lacking the PACAP gene (PACAP ؊/؊ ). PACAP ؊/؊ mice were born in the expected Mendelian ratios but had a high early-mortality rate. The surviving adult PACAP ؊/؊ mice displayed remarkable behavioral changes; they exhibited hyperactive and explosive jumping behaviors in an open field, increased exploratory behavior, and less anxiety in the elevated plus maze, emergence, and novel-object tests. Analysis of PACAP ؊/؊ mice brains revealed that the serotonin metabolite 5-hydroxyindoleacetic acid was slightly decreased in the cortex and striatum compared with wild-type mice. The present study provides evidence that PACAP plays a previously uncharacterized role in the regulation of psychomotor behaviors. P ituitary adenylate cyclase-activating polypeptide (PACAP) is a member of the vasoactive intestinal peptide (VIP)͞ secretin͞glucagon family of peptides and exists in two amidated forms, PACAP38 and PACAP27, that share an identical 27-aa N terminus and are alternatively processed from a 176-aa precursor called preproPACAP (1, 2). The primary structure of PACAP38 has been conserved significantly during evolution from protochordates to mammals, suggesting that the peptide exerts important activities throughout the vertebrate phylum (1, 2). In Drosophila, recent molecular cloning and transgenic rescue experiments in the memory-mutant amnesiac, which has behavioral defects that include impaired olfaction-associated learning and changes in ethanol sensitivity, demonstrated that the amnesiac gene encodes a neuropeptide homologous to vertebrate PACAP (3, 4). In addition, mammalian PACAP activated both the cAMP and Ras͞Raf signal-transduction pathways in Drosophila neurons, suggesting a neuromodulatory role of amnesiac (Drosophila PACAP) in specific neuronal populations (5). In mammals, PACAP occurs in neuronal elements, where it acts as a pleiotropic neuropeptide via three heptahelical G protein-linked receptors-one PACAP-specific (PAC 1 ) receptor and two receptors that it shares with VIP (VPAC 1 and VPAC 2 ). PACAP stimulates several different signaling cascades in neurons, leading to the activation of adenylate cyclase, phospholipase C, and mitogen-activated protein kinase and the mobilization of calcium (1, 2, 6). Histochemical studies have shown that PACAP immunoreactivity is observed in several brain regions, including the dopamine (DA) and serotonin (5-HT) systems, with high concentrations found in the nucleus accumbens, hypothalamus, amygdala, substantia nigra, and dorsal raphe (7-9). PAC 1 receptor also is expressed throughout the target areas of both the mesocorticolimbic and nigrostriatal DA systems as well as 5-HT system (10). In addition, VPAC 1 and VPAC 2 recepto...
Pituitary adenylate cyclase-activating polypeptide (PACAP), a member of the vasoactive intestinal peptide/secretin/glucagon family, stimulates insulin secretion from islets in a glucose-dependent manner at femtomolar concentrations. To assess PACAP's pancreatic function in vivo, we generated transgenic mice overexpressing PACAP in the pancreas under the control of human insulin promoter. Northern blot and immunohistochemical analyses showed that PACAP is overexpressed in pancreatic islets, specifically in transgenic mice. Plasma glucose and glucagon levels during a glucose tolerance test were not different between PACAP transgenic mice and nontransgenic littermates. However, plasma insulin levels in transgenic mice were higher after glucose loading. Also, increases of streptozotocin-induced plasma glucose were attenuated in transgenic compared with nontransgenic mice. Notably, an increase in 5-bromo-2-deoxyuridine-positive -cells in the streptozotocin-treated transgenic mice was observed but without differences in the staining patterns by terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling. Morphometric analysis revealed that total islet mass tends to increase in 12-month-old transgenic mice but showed no difference between 12-weekold transgenic and nontransgenic littermates. This is the first time that PACAP has been observed to play an important role in the proliferation of -cells. Diabetes
Abstract:Pituitary adenylate cyclase-activating polypeptide (PACAP) gene expression was analyzed in PC12 cells. PC12 cells transfected with a PACAP promoter-luciferase reporter construct were utilized to investigate the effects of PACAP, either alone or in combination with nerve growth factor (NGF), on PACAP transcriptional response. PACAP induced transcription from the PACAP promoter through PACAP type I receptor (PAC 1 receptor). PACAP gene transcription was also induced by NGF. Simultaneous treatment with PACAP and NGF resulted in a synergistic transcriptional response that was more than three times the predicted response, based on a simple additive effect of both agents. This synergism in transcriptional response paralleled the PACAP mRNA levels, as determined by RT-PCR and northern blotting. The level of PACAP mRNA peaked 3 h after stimulation and gradually returned to basal levels by 48 h. PC12 cells are known to express predominantly the hop isoform of the PAC 1 receptor, which positively couples to both adenylate cyclase and phospholipase C. To determine the role of the cyclic AMP and protein kinase C pathways in PACAP gene expression, the effects of forskolin and phorbol 12-myristate 13-acetate (PMA) were then examined. PMA did not alter PACAP mRNA levels but enhanced forskolin-induced PACAP mRNA expression. Down-regulation of protein kinase C blocked the ability of PACAP to stimulate PACAP mRNA expression. The mitogen-activated protein kinase extracellular signal-regulated kinase (ERK) kinase 1/2 (MEK1/2) inhibitor PD98059 also blocked the PACAP mRNA expression induced by either PACAP or NGF but not that induced by a combination of PACAP and NGF. These results suggest that PACAP stimulates the PACAP gene expression in PC12 cells at least in part through activation of adenylate cyclase and protein kinase C signaling pathways and that the ERK1/2 cascade is involved in PACAP and NGF-induced PACAP gene expression, although redundant signaling pathways may also be involved. The present finding showing that PACAP in combination with NGF causes a synergistic increase in PACAP gene expression in PC12 cells supports the idea that PACAP acts as an autocrine regulatory factor. Key Words: Pituitary adenylate cyclaseactivating polypeptide-Promoter activity-mRNANerve growth factor.
Abstract:In an attempt to study the pituitary adenylate cyclase-activating polypeptide (PACAP) type 1 (PAC 1 ) receptor (PAC 1 R) function in vivo and to produce a mouse model with altered expression of PAC 1 R, we have used gene targeting in embryonic stem cells to disrupt exon 2 of the PAC 1 R gene, which contains the ATG translation start site and the signal peptide. Unexpectedly, active transcription of PAC 1 R mRNA was detected in the mutant mice; however, exon 1 was spliced to exon 3 (skipping exon 2), and 125 I-PACAP27 binding in brain was greatly reduced. PAC 1 R exon 2 Ϫ/Ϫ mice were viable, fertile, and morphologically and histologically indistinguishable from their wild-type counterparts. We next examined the ligand binding and cell surface expression of the mutant receptor lacking the signal peptide in transfected COS-7 cells.125 I-PACAP27 binding of the mutant receptor was approximately one-tenth of that in the wild-type receptor. Although the wild-type receptor was expressed abundantly in both the plasma membrane and the cytoplasm around the nucleus, the mutant receptor was expressed in the plasma membrane with a markedly reduced level. Digestion of the membranes with endoglycosidase F greatly reduced the size of the wildtype receptor but only slightly reduced that of the mutant receptor. These results demonstrate that the signal peptide is required for efficient cell surface expression and N-linked glycosylation of the PAC 1 R. However, the mutant receptors still functionally coupled to adenylate cyclase in COS-7 cells, suggesting the presence of sufficient spare receptors such that the mutant receptors are capable of activating the second messenger system. We suggest that the mutant mice with markedly reduced PAC 1 R expression can serve as a useful animal model or cell culture system for further studies in PAC 1 R function.
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