Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0848237 (acute stress)
4,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epinephrine has been implicated in the genesis of some forms of hypertension. We have investigated the effects of epinephrine on vasoconstrictor responses evoked by adrenergic stimuli in the isolated perfused rat kidney. Low concentrations of epinephrine (2.5 - 5 X 10(-9) M) increased the amplitude of vasoconstrictor responses evoked by electrical stimulation of the renal adrenergic nerves. These concentrations of epinephrine had no effect on the basal perfusion pressure of the kidney or on the amplitude of vasoconstrictor responses evoked by exogenous norepinephrine. The potentiating effect of epinephrine persisted after infusion of the amine had ceased. Kidneys that had been perfused with 3H-epinephrine accumulated radioactivity, which could then be released by renal nerve stimulation. Cocaine (3 X 10(-5) M) reduced the renal accumulation of 3H-epinephrine and abolished both the persistent potentiating effect of the amine and the release of radioactivity evoked by subsequent nerve stimulation. The potentiating effect of epinephrine infusion was abolished by the beta 2-selective adrenergic receptor antagonist ICI 118,551 (3 X 10(-8) M), but not by the beta 1-selective adrenergic receptor antagonist atenolol (10(-6) M). These results indicate that concentrations of epinephrine that can be achieved during acute stress can enhance the amplitude of neurogenic vasoconstrictor responses. This effect appears to be mediated via a prejunctional beta 2-adrenergic receptor. The persistent nature of this effect may be due to the neuronal accumulation and subsequent release of epinephrine.
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PMID:Epinephrine enhances neurogenic vasoconstriction in the rat perfused kidney. 398 58

Cocaine is known to produce life-threatening cardiovascular complications in some but not all individuals. This review considers the premise that an appropriate animal model for cocaine-induced cardiotoxicity should be characterized by varying sensitivity in the population to the deleterious effects of cocaine. We have studied such a model in which physiological, biochemical, and pathological sensitivity to cocaine varies in rats. Our studies have identified a subset of rats that respond to cocaine with a decrease in cardiac output and a substantial increase in systemic vascular resistance (named vascular responders). In contrast, another group, designated mixed responders, is characterized by a smaller increase in systemic vascular resistance and a small increase in cardiac output. We reported that vascular responders are more likely to develop hypertension and cardiomyopathies with repeated cocaine administration. Under chloralose anesthesia, vascular responders have more profound pressor responses to cocaine and an initial brief spike in renal sympathetic nerve activity not usually noted in mixed responders. Vascular responders have higher resting and cocaine-induced dopamine turnover in the striatum. In addition, vascular responders have higher alpha-adrenergic vasoconstrictor tone, whereas mixed responders have higher adrenergic cardiac tone. The difference in cardiac output and systemic vascular resistance responses to cocaine in these two subsets of the population can be prevented by L-type calcium channel, muscarinic, or alpha-adrenergic blockade. Similar hemodynamic response variability is noted with other psychoactive agents and with acute stress, suggesting that the response patterns are not unique to cocaine. We propose that individual hemodynamic response variability is dependent on differences in CNS responsiveness and correlated with the incidence of cardiovascular disease.
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PMID:Review of evidence for a novel model of cocaine-induced cardiovascular toxicity. 1041 92

Cocaine or air jet stress evokes pressor responses due to either a large increase in systemic vascular resistance (vascular responders) or small increases in both cardiac output and vascular resistance (mixed responders) in conscious rats. Repeated cocaine administration results in elevated arterial pressure in vascular responders but not in mixed responders. The present study examined the hypothesis that the pattern of cardiovascular responses to an unconditioned stimulus (UCS; air jet) is related to responses to a conditioned stimulus (CS; tone followed by brief foot shock) in individual rats. Our data demonstrate that presentation of the UCS produced variable cardiac output responses that correlated with responses to the CS (n = 60). We also determined whether individual cardiovascular response patterns to acute stress correlated with predisposition to a sustained stress-induced elevation in arterial pressure. Rats were exposed to three different stressors presented one per day successively for 4 wk and during a poststress period of 3 wk while arterial pressure was recorded periodically. Mean arterial pressure was elevated in all rats during chronic stress but, during the poststress period, remained at significantly higher levels in vascular responders but not mixed responders. Therefore, we conclude that acute behavioral stress to a conditioned stimulus elicits variable hemodynamic responses that predict the predisposition to a sustained stress-induced elevation in arterial pressure.
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PMID:Hemodynamic response pattern predicts susceptibility to stress-induced elevation in arterial pressure in the rat. 1140 76

Besides corticotropin releasing factor, central stress regulatory pathways utilize various neurotransmitters/neuropeptides, such as urocortin and cocaine and amphetamine-regulated transcript, which play an important role in modifying the efferent components of endocrine, immune and behavioral responses to stress. Urocortin's distribution in the rat's brain has been demonstrated, with the most abundant urocortin-ir perikarya present in Edinger-Westphal nucleus. Cocaine and amphetamine-regulated transcript is widely expressed in the rat brain, with a dominant seat of cellular expression also in the Edinger-Westphal nucleus. Since immediate early gene expressions were seen in several midbrain regions, such as in the Edinger-Westphal nucleus, following various acute stresses, the Edinger-Westphal nucleus has been postulated to exert a regulatory/modulatory control over stress responses. Based on these data we decided to investigate the possible colocalization of urocortin and cocaine and amphetamine-regulated transcript-ir in the Edinger-Westphal nucleus using semithin double-label immunofluorescence technique. Furthermore, we also studied whether urocortinergic neurons colocalizing with cocaine and amphetamine-regulated transcript are recruited by lipopolysaccharide stress. Our experiments revealed that urocortin and cocaine and amphetamine-regulated transcript immunoreactivities colocalize in the Edinger-Westphal nucleus. In addition, our studies using the inducible immediate early gene c-fos as a marker of activated neurons demonstrated a significant stress-induced activation in perikarya colocalizing urocortin- and cocaine and amphetamine-regulated transcript-ir in the Edinger-Westphal nucleus. In view of these data it can be postulated that neurons colocalizing cocaine and amphetamine-regulated transcript and urocortin immunoreactivities respond to acute stress, and may play a role in modulating various physiological functions, such as feeding behaviors.
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PMID:Neurons colocalizing urocortin and cocaine and amphetamine-regulated transcript immunoreactivities are induced by acute lipopolysaccharide stress in the Edinger-Westphal nucleus in the rat. 1255 87

Decreasing response to stress has been one goal of interventions aimed at reducing relapse to substances of abuse. A laboratory stress test that can be repeated would be helpful in testing the efficacy of interventions in decreasing the response to stress before more extensive trials are begun. The effects of two types of psychological stress tests, the Trier Social Stress Test (TSST) and a stress imagery test, on psychological, physiological, and hormonal responses (salivary cortisol and DHEA) were examined when each test was given twice to cocaine- or methamphetamine-dependent human subjects, 24 of whom completed at least one session. The stress imagery test produced significant changes in several of the subjective response measures in both first and second sessions, including several measures of negative affect and a craving measure. The TSST produced significant changes only in the second session. The stress imagery protocol showed better replicability across two sessions. Cocaine users and methamphetamine users did not respond similarly in their craving responses. Reported craving for methamphetamine after stress testing showed decreases or much smaller increases compared to that for cocaine. Neither stress test significantly increased salivary cortisol or DHEA, and changes in hormone concentrations were not related to subjective responses. These results suggest that stress imagery testing procedures may be useful as provocative tests of stress-induced affect and stimulant drug craving. Although less convincing because of the heterogeneity of the subjects, they also suggest that HPA axis responsivity is not clearly linked to acute stress-induced stimulant craving or affective response.
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PMID:Repeated psychological stress testing in stimulant-dependent patients. 1591 69

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

Cocaine and amphetamine-regulated transcript (CART) peptides are suggested to play a role in several physiological processes including feeding, reward, neuroendocrine modulation, and the stress response. Although some studies implicate the modulation of CART peptide expression by glucocorticoids, direct evidence relating CART to the stress response is limited. The present study was undertaken to evaluate the possible involvement of CART peptides during acute stress in male and female rats. Forced swim was used as the stress procedure. Following stress, serum adrenocorticotropic hormone (ACTH), and corticosterone (CORT) levels were determined, and CART immunocytochemistry was performed in the paraventricular (PVN) and arcuate (ARC) nuclei of the hypothalamus. Our results depict the following changes: (1) Serum ACTH and CORT levels were increased by stress and CORT levels were higher in female rats than males. (2) Stress modulated the number of CART expressing neurons. The degree and direction of this modulation varied according to the hypothalamic region and the sex of the subject. Forced swim stress increased CART peptide expression significantly in the PVN of female rats. In males, although there was a tendency for an increase in CART-immunoreactive cells by forced swim stress, the difference was not statistically significant. In the ARC nucleus, forced swim stress did not affect CART peptide expression in either sex. Our results suggest differential and sexually dimorphic modulation of CART expression in the PVN and ARC by forced swim stress.
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PMID:Sex differences in the regulation of cocaine and amphetamine-regulated transcript expression in hypothalamic nuclei of rats by forced swim stress. 1744 58

Corticotropin-releasing factor (CRF) is a peptide neurotransmitter with high numbers of cell bodies found in limbic regions of the rat brain including the oval nucleus of the bed nucleus of the stria terminalis (BNSTov) and central nucleus of the amygdala (CeA) as well as in the paraventricular nucleus of the hypothalamus (PVN). CRF systems are activated in response to acute stressors and mediate a wide variety of physiological and behavioral responses to acute stress including aversive responses and responses that support appetitive behaviors. CRF is released in the ventral tegmental area (VTA), the cell body region of the mesocorticolimbic dopaminergic neurons, in response to acute stress and plays a role in stress-activation of appetitive behavior [Wang B, Shaham Y, Zitzman D, Azari S, Wise RA, You ZB (2005) Cocaine experience establishes control of midbrain glutamate and dopamine by corticotropin-releasing factor: a role in stress-induced relapse to drug seeking. J Neurosci 25:5389-5396]. However, although it is known that the VTA region contains significant levels of CRF-immunoreactive fibers [Swanson LW, Sawchenko PE, Rivier J, Vale WW (1983) Organization of ovine corticotropin-releasing factor immunoreactive cells and fibers in the rat brain: an immunohistochemical study. Neuroendocrinology 36:165-186], the source of CRF input to the region has not been identified. We used infusions of a fluorescent retrograde tracer, fluorogold, into the VTA region, combined with fluorescent immunocytochemistry for CRF to identify sources of this input. Double-labeled cells were found in BNSTov, CeA and PVN. The percent of fluorogold-labeled cells in each region that were CRF-positive was 30.8, 28.0 and 16.7% respectively. These data point to diffusely distributed sources of CRF-containing fibers in the VTA.
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PMID:Corticotropin-releasing factor projections from limbic forebrain and paraventricular nucleus of the hypothalamus to the region of the ventral tegmental area. 1796 28

Synaptic plasticity in the ventral tegmental area (VTA) is modulated by drugs of abuse and stress and is hypothesized to contribute to specific aspects of addiction. Both excitatory and inhibitory synapses on dopamine neurons in the VTA are capable of undergoing long-term changes in synaptic strength. While the strengthening or weakening of excitatory synapses in the VTA has been widely examined, the role of inhibitory synaptic plasticity in brain reward circuitry is less established. Here, we investigated the effects of drugs of abuse, as well as acute stress, on long-term potentiation of GABAergic synapses onto VTA dopamine neurons (LTP(GABA)). Morphine (10 mg/kg i.p.) reduced the ability of inhibitory synapses in midbrain slices to express LTP(GABA) both at 2 and 24 h after drug exposure but not after 5 days. Cocaine (15 mg/kg i.p.) impaired LTP(GABA) 24 h after exposure, but not at 2 h. Nicotine (0.5 mg/kg i.p.) impaired LTP(GABA) 2 h after exposure, but not after 24 h. Furthermore, LTP(GABA) was completely blocked 24 h following brief exposure to a stressful stimulus, a forced swim task. Our data suggest that drugs of abuse and stress trigger a common modification to inhibitory plasticity, synergizing with their collective effect at excitatory synapses. Together, the net effect of addictive substances or stress is expected to increase excitability of VTA dopamine neurons, potentially contributing to the early stages of addiction.
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PMID:Drugs of abuse and stress impair LTP at inhibitory synapses in the ventral tegmental area. 2060 69

Cocaine- and amphetamine-regulated transcript (CART) and nesfatin-1/nucleobindin 2 (NUCB2) are assumed to play a role in feeding and adaptation to stress. Both peptides are highly expressed in the midbrain non-preganglionic Edinger-Westphal nucleus (npEW), a center implicated in the regulation of stress adaptation and in the pathogenesis of stress-induced brain disorders, in a sex-specific manner. The present study was undertaken to test whether CART and nesfatin are involved in these actions of the npEW in the rat. Acute restraint and chronic variable mild stress were used. Following stress, physiological parameters (serum corticosterone levels, body, adrenal and thymus weights) were determined, CART and nesfatin-like immunoreactivity (LI) as well as mRNA expression were analyzed in the npEW nucleus. Our results depict the following changes: (1) Acute stress resulted in an increase in serum corticosterone levels that was higher in females; (2) In males, data on corticosterone and body weight gain and in females, data on body weight gain revealed an effect of chronic stress; (3) Both acute and chronic stress activated npEW neurons expressing CART and nesfatin-LI, as shown by increased cFos immunoreactivity; (4) Chronic, but not acute stress increased the amount of CART and nesfatin-LI in both males and females; (5) Neither acute nor chronic stress had an effect on CART and NUCB2 mRNA contents of npEW neurons in either sex. Taken together, our data suggest that CART and nesfatin are involved in the response of npEW neurons to chronic stress.
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PMID:Stress-related changes in the activity of cocaine- and amphetamine-regulated transcript and nesfatin neurons in the midbrain non-preganglionic Edinger-Westphal nucleus in the rat. 2063 50


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