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Query: UMLS:C0848237 (
acute stress
)
4,619
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Changes of angiotensin II and cAMP in plasma, brain tissue, adrenal gland and cardiovascular tissue during the acute and chronic stress were studied in rats. The
acute stress
group was subjected to compulsive cold water swimming for 20 min, while the chronic stress group was exposed to an ambient temperature of 4-8 degrees C for 5 days. The results indicated that plasma angiotensin II levels were significantly increased in both stress groups, reaching up to 900% and 134% of the control in the acute and chronic groups, respectively.
Angiotensin II
contents in the anterior hypothalamus, medulla oblongata, myocardium, vasculature and adrenals were also elevated in both groups. With the exception of the adrenals, the contents of tissue angiotensin II in the chronic stress animals were significantly higher than those of the
acute stress
animals. In contrast, cAMP levels in plasma and tissue (hypothalamus and adrenals) and corticosterone levels in plasma in the
acute stress
group were all higher than those in the chronic stress animals, although the levels of the latter group were also increased compared with the control group. These results suggest that circulating and tissue angiotensin II may play an important role in the acute and chronic stress responses and that angiotensin II should be classified as a stress hormone.
...
PMID:Changes in circulating and tissue angiotensin II during acute and chronic stress. 800 55
Angiotensin II
(
Ang II
) AT(1) receptors are involved in the regulation of the stress response. In adult male rats, acute restraint increased AT(1A) mRNA in paraventricular nucleus. Repeated restraint increased AT(1A) mRNA and AT(1) binding in paraventricular nucleus and AT(1) binding in subfornical organ and median eminence. AT(1B) and AT(2) receptors were not expressed in brain areas involved in the stress response. Acute restraint increased anterior pituitary AT(1A) mRNA and AT(1) binding and decreased AT(1B) mRNA. During repeated restraint, the increase in AT(1A) mRNA in the anterior pituitary was maintained, but AT(1B) mRNA and AT(1) binding returned to normal levels. In adrenal zona glomerulosa, AT(1B) mRNA, AT(1) binding, AT(2) mRNA and AT(2) binding decreased during acute restraint. Receptor mRNA and binding returned to normal after repeated stress, with the exception of rebound increase in adrenal zona glomerulosa AT(2) mRNA. In adrenal medulla, AT(1A) mRNA increased and AT(2) mRNA decreased during acute restraint. AT(1A) mRNA remained increased during repeated restraint, while alterations in AT(2) mRNA were no longer present. Expression of AT(1A), AT(1B) and AT(2) receptors in the hypothalamic-pituitary-adrenal axis is tissue specific and is different in acute and repeated stress. Increased brain, pituitary and adrenomedullary AT(1A) receptor expression correlates with hypothalamic-pituitary-adrenal axis stimulation, supporting the hypothesis of
Ang II
, through selective AT(1A) receptor stimulation, as an important determinant of the acute and repeated stress response. Decreased adrenal zona glomerulosa and anterior pituitary AT(1B) receptors during
acute stress
can be interpreted as compensatory to increased stimulation by
Ang II
. There may be additional roles for adrenal AT(2) receptors during
acute stress
, possibly related to interaction or cross-talk with AT(1) receptors.
...
PMID:Restraint stress modulates brain, pituitary and adrenal expression of angiotensin II AT(1A), AT(1B) and AT(2) receptors. 1197 53
Physical or emotional stress can affect the female reproductive physiology and angiotensin II (
Ang II
) is a hormone that participates in the stress response and also in the control of reproductive hormones. The present study aimed at evaluating the effects of
acute stress
in the morning and afternoon of proestrus on sexual behavior and ovulation and the participation of
Ang II
in the stress-induced effects. Female rats with regular estrous cycles were used. Several different stress protocols were tested in the morning and in the afternoon of proestrus: restraint stress 10 min; restraint stress 1 h and ether stress, respectively. The participation of
Ang II
was evaluated by injecting
Ang II
receptor antagonists (losartan and PD123319) 15 min before stress. The lordosis quotient was recorded and the number of oocytes was counted. Plasma levels of luteinizing hormone, progesterone, prolactin and corticosterone were measured. All types of stress in the morning of proestrus induced a reduction in the number of oocytes. Restraint stress (1 h) in the afternoon of proestrus induced a significant reduction in the lordosis quotient. Peripheral and central losartan, but not PD123319, injections partly reverted the effects of stress on ovulation in the morning of proestrus. Acute stress in the morning of proestrus also reduced luteinizing hormone, progesterone and prolactin surges later on the same day. In conclusion,
acute stress
on the day of proestrus can affect female reproductive physiology. Moreover, the angiotensinergic system, through AT(1) receptors, participates in the effects of
acute stress
in the morning of proestrus.
...
PMID:Effects of acute stress on the day of proestrus on sexual behavior and ovulation in female rats: participation of the angiotensinergic system. 1757 75
Angiotensin II
(
Ang II
) induces reactive oxygen species (ROS) production by human vascular smooth muscle cells (hVSMCs). ROS have been implicated in the development of both
acute stress
-induced premature senescence (SIPS) and chronic replicative senescence. Global oxidative DNA damage triggers SIPS and telomere DNA damage accelerates replicative senescence, both mediated via p53. This study tests the hypothesis that DNA is an important target for
Ang II
-induced ROS leading to senescence via telomere-dependent and independent pathways. DNA damage was quantified using the Comet assay, telomere DNA length by Southern blotting and hVSMC senescence by senescence-associated beta-galactosidase staining. Exposure to
Ang II
increased DNA damage in hVSMCs within 4 hours. Inhibition by an AT1 receptor antagonist (losartan metabolite: E3174) or catalase, confirmed that
Ang II
-induced DNA damage was AT1 receptor-mediated, via the induction of ROS. Acute exposure to
Ang II
resulted in SIPS within 24 hours that was prevented by coincubation with E3174 or catalase. SIPS was associated with increased p53 expression but was not dependent on telomere attrition because overexpression of human telomerase did not prevent
Ang II
-induced SIPS. Exposure to
Ang II
over several population doublings accelerated the rate of telomere attrition (by >2-fold) and induced premature replicative senescence of hVSMCs--an effect that was also attenuated by E3174 or catalase. These data demonstrate that
Ang II
-induced ROS-mediated DNA damage results in accelerated biological aging of hVSMCs via 2 mechanisms: (1) Acute SIPS, which is telomere independent, and (2) accelerated replicative senescence which is associated with accelerated telomere attrition.
...
PMID:Angiotensin II-mediated oxidative DNA damage accelerates cellular senescence in cultured human vascular smooth muscle cells via telomere-dependent and independent pathways. 1799 83
Stress might influence the reproductive behavior in females, and central angiotensin II (
Ang II
) is a peptide that plays a role in stress response and in the modulation of sexual behavior. The medial amygdala (MeA), an important structure that regulates this behavior, is strongly involved in stress response. The aim of the present study was to evaluate the effect of acute restraint stress on the night of proestrus on sexual receptivity in female rats and the participation of
Ang II
and MeA in this effect. Adult female Wistar rats with regular estrous cycles were utilized. The
acute stress
protocol utilized was the restraint stress for 15 min on the night of proestrus. The participation of
Ang II
was evaluated by injecting
Ang II
and
Ang II
receptor antagonists (losartan and PD12319) into the MeA. The lordosis quotient was recorded. The stress or the microinjection of
Ang II
into the MeA significantly reduced sexual behavior. The blockade of AT(1) or AT(2) receptors in the MeA prevented the effect of stress and the effect of
Ang II
microinjection into this nucleus on sexual receptivity. We concluded that acute restraint stress on the night of proestrus reduces sexual behavior in rats, and this effect is mediated by both AT(1) and AT(2) receptors in the MeA.
...
PMID:Effect of acute stress on sexual behavior in female rats: participation of the central angiotensinergic system. 1987 4
A change from group housing to isolation in unfamiliar metabolic cages represents, for rodents, a significant emotional stress. We studied the effect of candesartan, a peripheral and central angiotensin II AT1-receptor antagonist, on the hormonal and sympathetic response to acute isolation. We pretreated rats with 1 mg/kg/day candesartan for 13 days via subcutaneously implanted osmotic minipumps, followed by 24-hour isolation in individual metabolic cages. We measured brain, pituitary and adrenal angiotensin II (
Ang II
) receptor binding by quantitative autoradiography and adrenal hormones and catecholamines by RIA and HPLC. Isolation increased adrenal catecholamines, aldosterone and corticosterone, AT1-receptor binding in the zona glomerulosa and AT2-receptor binding in the adrenal medulla. Candesartan pretreatment decreased adrenal catecholamines, aldosterone and corticosterone, AT1-receptor binding in adrenal zona glomerulosa and medulla, pituitary gland and the hypothalamic paraventricular nucleus, and AT2-receptor binding in adrenal medulla, but increased AT2-receptor binding in zona glomerulosa. We conclude that peripheral and central AT1-receptor blockade with candesartan decreases the sympatho-adrenal and hormonal response to
acute stress
. Our results indicate that
Ang II
is an important stress hormone and suggest that blockade of the physiologically active AT 1-receptors could influence stress-related disorders.
...
PMID:Candesartan decreases the sympatho-adrenal and hormonal response to isolation stress. 2809 44
