Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0848237 (acute stress)
 4,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CART (Cocaine-Amphetamine-Regulated Transcript) has been shown to be regulated by corticosteroids in the hypothalamus, but its regulation by corticosteroids and stress has not been well examined in the hippocampus or the amygdala. Further, CART has been implicated in the transition to puberty. In this study we examine the effects of acute (30 min) stress on CART mRNA in prepubescent and adult rats. In addition, we examined chronic (21 day x 6 h) restraint stress upon the expression of CART mRNA in the hippocampus and the amygdala and the effects of 7 days of adrenalectomy and corticosteroid replacement upon CART expression in these regions of the adult rat brain. We found an up-regulation of CART mRNA in the central amygdala induced by acute but not chronic stress and an up-regulation in the dentate gyrus induced by chronic but not acute stress. Adrenalectomy reduced CART expression in the dentate gyrus but not the amygdala and this effect was blocked by corticosterone but not RU28,362 or aldosterone replacement, suggesting a synergism of mineralocorticoid and glucocorticoid receptors. Our data establish that CART expression is regulated by stress in a regionally and time specific manner and that CART is regulated by corticosteroid actions in the hippocampus.
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PMID:Regulation of CART mRNA by stress and corticosteroids in the hippocampus and amygdala. 1743 49

Central stress regulatory pathways utilize various neuropeptides, such as urocortin-1 (Ucn1) and cocaine- and amphetamine-regulated transcript peptide (CART). Ucn1 is most abundantly expressed in the non-preganglionic Edinger-Westphal nucleus (npEW). In addition to Ucn1, CART and nesfatin-1 are highly expressed in neurons of the npEW, but the way these three neuropeptides act together in response to acute stress is not known. We hypothesized that Ucn1, CART and nesfatin-1 are colocalized in npEW neurons and that these neurons are recruited by acute stress. Using quantitative immunocytochemistry and the reverse transcriptase polymerase chain reaction (RT-PCR), we support this hypothesis, by showing in B6C3F1/Crl mice that Ucn1, CART and nesfatin-1 occur in the same neurons of the npEW nucleus. More specifically, Ucn1 and CART revealed a complete colocalization in the same perikarya, while 90% of these neurons are also nesfatin-1-immunoreactive. Furthermore, acute (restraint) stress stimulates the general secretory activity of these npEW neurons (increased presence of Fos) and the production of Ucn1, CART and nesfatin-1: Ucn1, CART and nesfatin-1(NUCB2) mRNAs have been increased compared to controls by x1.8, x2.0 and x2.6, respectively (p<0.01). We conclude that Ucn1, CART and nesfatin-1/NUCB2 are specifically involved in the response of npEW neurons to acute stress in the mouse.
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PMID:Restraint stress alters the secretory activity of neurons co-expressing urocortin-1, cocaine- and amphetamine-regulated transcript peptide and nesfatin-1 in the mouse Edinger-Westphal nucleus. 2004 94

Orexin is a neuropeptide that has been implicated in several processes, such as induction of appetite, arousal and alertness and sleep/wake regulation. Multiple lines of evidence also suggest that orexin is involved in the stress response. When orexin is administered intracerebroventricular it activates the hypothalamic pituitary adrenal (HPA)-axis, which is the main regulator of the stress response. The HPA-axis is not the only player in the stress response evidence suggests that urocortin 1 (Ucn1), a member of the corticotropin releasing factor (CRF) neuropeptide family, also plays an important role in the stress response adaptation. Ucn1 is primarily synthetized in the centrally projecting Edinger-Westphal nucleus (EWcp), which also receives dense innervation by orexin terminals. In this study we tested the hypothesis that orexin would directly shape the response of EWcp-Ucn1 neurons to acute cold stress. To test this hypothesis, we first assessed whether orexinergic axon terminals would innervate EWcp-Ucn1/CART neurons, and next we exposed orexin deficient (orexin-KO) male mice and their male wild-type (WT) littermates to acute cold stress for 2h. We also assessed stress-associated changes in plasma corticosterone (CORT), as well as the activation of Ucn1/CART neurons in the EWcp nucleus. We found that orexin immunoreactive axon terminals were juxtaposed to EWcp-Ucn1/CART neurons, which also expressed orexin receptor 1 mRNA. Furthermore, acute stress strongly activated the EWcp-Ucn1/CART neurons and increased plasma CORT in both WT littermates and orexin-KO mice, however no genotype effect was found on these indices. Taken together our data show that orexin in general is not involved in the animal's acute stress response (plasma CORT) and it does not play a direct role in shaping the response of EWcp-Ucn1 neurons to acute stress either.
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PMID:Orexinergic innervation of urocortin1 and cocaine and amphetamine regulated transcript neurons in the midbrain centrally projecting Edinger-Westphal nucleus. 2395 28

Previous studies have shown the prominence of cocaine- and amphetamine-regulated transcript (CART) peptide in rewarding and reinforcing effects of drugs of abuse specially psychostimulants. The data regarding the effects of different stages of opioid addiction on CART expression and the interconnection between CART and opioids are not much available. Here we have studied the changes in the expression level of CART mRNA and protein in various parts of the brain reward pathway in different stages of opioid addiction. Groups of male rats received acute low-dose (10mg/kg), acute high-dose (80mg/kg) and chronic escalating doses of morphine. In addition, withdrawal and abstinence states were evaluated after injection of naloxone (1mg/kg) and long-term maintenance of addicted animals, respectively. Expression of CART mRNA in the brain was measured by real-time PCR method. Western blotting was used to quantify the protein level. CART mRNA and protein were both up-regulated in high-dose morphine-administered animals and also in the withdrawal group in the nucleus accumbens (NAc), striatum and prefrontal cortex (PFC). In the addicted group, CART mRNA and protein were both down-regulated in NAc and striatum. In the abstinent group, CART mRNA was down-regulated in NAc. In the hippocampus, the only observed change was the up-regulation of CART mRNA in the withdrawal group. We suggest that the modulatory role of CART peptide in rewarding and reinforcing effects of opioids weakens when opioids are used for a long time and is stimulated when acute stress such as naloxone-induced withdrawal syndrome or acute high-dose administration of morphine occurs to the animal.
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PMID:CART peptide and opioid addiction: Expression changes in male rat brain. 2695 82