Antonio Armario scite author profile

Objective Despite increasing awareness of the many important roles played by brain-derived neurotrophic factor (BDNF) activation of TrkB, a fuller understanding of this system and the use of potential TrkB-acting therapeutic agents has been limited by the lack of any identified small-molecule TrkB agonists that fully mimic the actions of BDNF at brain TrkB receptors in vivo. However, 7,8-dihydroxyflavone (7,8-DHF) has recently been identified as a specific TrkB agonist that crosses the blood-brain barrier after oral or intra-peritoneal administration. The authors combined pharmacological, biochemical, and behavioral approaches in a preclinical study examining the role of 7,8-DHF in modulating emotional memory in mice. Method The authors first examined the ability of systemic 7,8-DHF to activate TrkB receptors in the amygdala. They then examined the effects of systemic 7,8-DHF on acquisition and extinction of conditioned fear, using specific and well-characterized BDNF-dependent learning paradigms in several models using naive mice and mice with prior traumatic stress exposure. Results Amygdala TrkB receptors, which have previously been shown to be required for emotional learning, were activated by systemic 7,8-DHF (at 5 mg/kg i.p.). 7,8-DHF enhanced both the acquisition of fear and its extinction. It also appeared to rescue an extinction deficit in mice with a history of immobilization stress. Conclusions These data suggest that 7,8-DHF may be an excellent agent for use in understanding the effects of TrkB activation in learning and memory paradigms and may be attractive for use in reversing learning and extinction deficits associated with psychopathology.

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Effects of chronic stress on food intake in rats: Influence of stressor intensity and duration of daily exposure

Martı́

Martí

Armario

1994

Physiology & Behavior

262

153

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Hypothalamic-Pituitary-Adrenal Response to Chronic Stress in Five Inbred Rat Strains: Differential Responses Are Mainly Located at the Adrenocortical Level

Gómez

Lahmame

Kloet³

et al. 1996

Neuroendocrinology

248

137

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The effects of chronic stress on the hypothalamic-pituitary-adrenocortical (HPA) axis were studied in five inbred rat strains, i.e. Brown Norway (BN), Fischer (FIS), Lewis (LEW), Spontaneously Hypertensive (SHR) and Wistar Kyoto (WKY). Previously, these rat strains had been shown to display clear behavioral differences in the forced swimming test that presumably measures depression-like behavior, BN and WKY being more passive than the other strains. Here we test the hypothesis that the differences in behavioral immobility might be associated with an abnormal HPA response to chronic immobilization (IMO) stress. In stress-naive rats under basal conditions (morning) there were no differences among strains in adrenal weight, serum adrenocorticotropin hormone (ACTH) and corticosterone (B) levels, corticotropin-releasing factor (CRF) mRNA in the hypothalamic paraventricular nucleus (PVN) and hippocampal glucocorticoid and mineralocorticoid receptor (GR and MR) mRNA. After chronic IMO, basal serum ACTH levels were increased in LEW, SHR and WKY, but not in BN or FIS rats, whereas basal B levels were increased in BN, FIS, SHR and WKY rats, but not in LEW. The increase in adrenal weight was also strain dependent and correlated negatively with chronic IMO-induced hypercorticosteronemia. These peripheral differences among strains were not observed at central levels. Thus, chronic IMO increased the CRF mRNA content in the PVN, analyzed by in situ hybridization, similarly in all strains. In addition, after chronic IMO no differences were found among strains in hippocampal GR mRNA and RM mRNA contents. Considering data from all strains together, chronic IMO reduced the GR mRNA (50-60%) content in the hippocampal CA1, CA3 and DG areas, and slightly diminished (11–13%) MR mRNA levels in CA1 and CA3 areas. The present results indicate that: (i) chronic IMO down-regulates GR mRNA in the hippocampus and slightly up-regulates CRF mRNA in the hypothalamic PVN similarly in all strains; (ii) after chronic IMO interstrain differences were observed in serum ACTH and B levels as well as adrenal hypertrophy; (iii) some changes are probably located at the adrenal level since changes in serum B level and adrenal weight were not related to changes in ACTH; (iv) in LEW and WKY rats, B hyporesponsiveness to chronic IMO might be linked to low adrenal sensitivity to ACTH, and (v) HPA axis changes induced by the chronic IMO procedure are not related to previously reported data on depressive-like behavior of BN and WKY in the forced swimming test.

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Comparison of the behavioural and endocrine response to forced swimming stress in five inbred strains of rats

Armario

Gavaldà

Martí

1995

Psychoneuroendocrinology

200

118

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The Hypothalamic-Pituitary-Adrenal Axis: What can it Tell us About Stressors?

Armario

2006

CNSNDDT

199

108

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The hypothalamic-pituitary-adrenal (HPA) axis is an extremely sensitive physiological system whose activation, with the consequent release of ACTH and glucocorticoids, is triggered by a wide range of psychological experiences and physiological perturbations (stressors). The HPA axis is also activated by a high number of pharmacological agents that markedly differ in structure and function, although the precise mechanisms remain in most cases unknown. Activation of the HPA axis is the consequence of the convergence of stimulatory inputs from different brain regions into the paraventricular nucleus of the hypothalamus (PVN), where the most important ACTH secretagogues (corticotrophin releasing factor, CRF, and arginin-vasopressin, AVP) are formed. Plasma levels of ACTH and corticosterone (the latter under more restricted conditions), are considered as good markers of stress for three main reasons: (a) their plasma levels are proportional to the intensity of emotional and systemic stressors, (b) daily repeated exposure to a stressor usually resulted in reduced ACTH response to the same stressor, that is termed adaptation or habituation; and (c) chronic exposure to stressful situations results in tonic changes in the HPA axis that can be used as indices of the accumulative impact of these situations. These changes can be evaluated under resting conditions (i.e. adrenal weight, CRF and AVP gene expression in the PVN) or after some challenges (administration of CRF, ACTH or dexamethasone) that are classical endocrinological tests. There is also evidence that the activation of the HPA axis may also reflect subtle changes in the characteristics of the stressful situations (unpredictability, lack of control, omission of expected rewards, presence of conspecifics), although this is a topic that requires further studies.

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Antonio Armario

Effect of 7,8-Dihydroxyflavone, a Small-Molecule TrkB Agonist, on Emotional Learning

Effects of chronic stress on food intake in rats: Influence of stressor intensity and duration of daily exposure

Hypothalamic-Pituitary-Adrenal Response to Chronic Stress in Five Inbred Rat Strains: Differential Responses Are Mainly Located at the Adrenocortical Level

Comparison of the behavioural and endocrine response to forced swimming stress in five inbred strains of rats

The Hypothalamic-Pituitary-Adrenal Axis: What can it Tell us About Stressors?

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