A. Gesing scite author profile

We studied the effects of long-term (i.e. 4 wk) voluntary exercise on the hypothalamic-pituitary-adrenocortical (HPA) axis in male mice. Voluntary exercise was provided by giving mice access to a running wheel, in which they indeed ran for about 4 km/d. Exercising mice showed similar body weights as control animals but presented less abdominal fat, lighter thymuses, and heavier adrenal glands. Exercise resulted in asymmetric structural changes in the adrenal glands. Whereas control mice had larger left than right adrenals, this condition was abolished in exercising animals, mainly because of enlargement of the right adrenal cortex. Tyrosine hydroxylase mRNA expression in the adrenal medullas of exercising mice was increased. In exercising mice, early-morning baseline plasma ACTH levels were decreased, whereas plasma corticosterone levels at the start of the dark phase were twice as high as those in control animals. To forced swimming and restraint stress, exercising mice responded with higher corticosterone levels than those of the control animals but with similar ACTH levels. However, if exposed to a novel environment, then exercising mice presented decreased ACTH responses. Interestingly, exercising mice showed a decreased corticosterone response to novelty only when the novel environment contained a functioning running wheel. Glucocorticoid receptor levels were unchanged, whereas mineralocorticoid receptor levels were decreased, in hippocampus of exercising animals. Corticotropin-releasing factor mRNA levels in the paraventricular nucleus were lower in exercising mice. Thus, voluntary exercise results in complex, adaptive changes at various levels within the HPA axis as well as in sympathoadrenomedullary and limbic/neocortical afferent control mechanisms. These changes seem to underlie the differential responsiveness of the HPA axis to physical vs. emotional challenges.

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The brain mineralocorticoid receptor: greedy for ligand, mysterious in function

Reul

Gesing

Droste

et al. 2000

European Journal of Pharmacology

201

136

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Psychological Stress Increases Hippocampal Mineralocorticoid Receptor Levels: Involvement of Corticotropin-Releasing Hormone

et al. 2001

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We investigated whether acute stressors regulate functional properties of the hippocampal mineralocorticoid receptor (MR), which acts inhibitory on hypothalamic-pituitary-adrenocortical activity. Exposure of rats to forced swimming or novelty evoked a significant rise in density of MR immunoreactivity in all hippocampal subfields after 24 hr, whereas exposure to a cold environment was ineffective. Time course analysis revealed that the effect of forced swimming on MR peaked at 24 hr and returned to control levels between 24 and 48 hr. In pyramidal neurons of CA2 and CA3, marked rises were already observed after 8 hr. Radioligand binding assays showed that corticotropin-releasing hormone (CRH) injected intracerebroventricularly into adrenalectomized rats also produced a rise in hippocampal MR levels; an effect for which the presence of corticosterone, but not dexamethasone, at the time of injection was a prerequisite. Moreover, pretreatment with the CRH receptor antagonist (d-Phe(12),Nle(21,38),alpha-Me-Leu(37))-CRH(12-41) blocked the effect of forced swimming on hippocampal MR levels. To investigate whether the rise in MR levels had any functional consequences for HPA regulation, 24 hr after forced swimming, a challenge test with the MR antagonist RU 28318 was conducted. The forced swimming exposed rats showed an enhanced MR-mediated inhibition of HPA activity. This study identifies CRH as an important regulator of MR, a pathway with marked consequence for HPA axis regulation. We conclude that the interaction between CRH and MR presents a novel mechanism involved in the adaptation of the brain to psychologically stressful events.

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Vasopressin Mediates the Response of the Combined Dexamethasone/CRH Test in Hyper-anxious Rats Implications for Pathogenesis of Affective Disorders

et al. 2002

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To investigate the neuroendocrine alterations linked to inborn emotionality in two Wistar rat lines selectively bred for either high (HAB) or low (LAB) anxiety-related behavior, we administered the combined dexamethasone (DEX)/corticotropin-releasing hormone (CRH)testNeuroendocrine studies provide strong indications that hyperactivity of central corticotropin-releasing hormone (CRH) circuits, resulting in a characteristic dysregulation of the hypothalamic-pituitary-adrenocortical (HPA) system, plays a causal role in the symptomatology of affective and anxiety disorders (review: Keck and Holsboer 2001). The effects of CRH are modulated by vasopressin (AVP), which, after prolonged stress and in senescence, is increasingly coexpressed and secreted from hypothalamic CRH neurons in both humans and rodents (Antoni 1993;Tilders et al. 1993;Hatzinger et al. 2000;Keck et al. 2000). Similarly, increased numbers of CRH neurons that coexpress AVP mRNA have been found in the hypothalamus of depressed patients (Raadsheer et al. 1993;Purba et al. 1996). The excessive release of CRH and AVP into hypophysial portal blood is thought to increase the secretion of corticotropin (ACTH) from pituitary corticotrope cells, and this in turn to increase the release of corticosteroids from the adrenal gland. In this context, a variety of changes in HPA system regulation have been demonstrated in psychiatric disorders such as major depression, among them defective negative feedback of the HPA system, basal hypercortisolemia, inappropriate HPA suppression by the synthetic corticosteroid dexamethasone (DEX) and a paradoxical stimulation of ACTH secretion by CRH after DEX pretreatment (review: Holsboer and Barden 1996;Holsboer 2000). In depression, the combined DEX/CRH test, in which DEX-pretreated subjects receive a single dose of CRH, has proven to be the most sensitive tool for the detection of altered HPA regulation. Depending on age and gender, up to 90% of patients with depression show this neuroendocrine phenomenon (Heuser et al. 1994). Moreover, studies using the DEX/CRH test not only agree that normalization of an initial aberrance is predictive of a favorable treatment response but also corroborate other evidence that a persistent HPA abnormality correlates with chronicity or relapse (Heuser et al. 1996;Zobel et al. 1999). Since activation of corticosteroid receptors suppresses the synthesis and release of CRH and AVP from the hypothalamic paraventricular nucleus (PVN) , these findings are consistent with the hypothesis of functionally impaired corticosteroid receptor signaling in both depressed patients (Modell et al. 1997) and healthy subjects at genetic risk for depression Modell et al. 1998).As the mechanisms underlying the abnormal HPA reactivity in patients with certain psychiatric disorders are not fully understood, animal models are needed to further investigate the hypothesized linkage between these disorders and changes in the regulation of the HPA system. After several generations of selective breeding, we could establish ...

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A. Gesing

Effects of Long-Term Voluntary Exercise on the Mouse Hypothalamic-Pituitary-Adrenocortical Axis

The brain mineralocorticoid receptor: greedy for ligand, mysterious in function

Psychological Stress Increases Hippocampal Mineralocorticoid Receptor Levels: Involvement of Corticotropin-Releasing Hormone

Vasopressin Mediates the Response of the Combined Dexamethasone/CRH Test in Hyper-anxious Rats Implications for Pathogenesis of Affective Disorders

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