Gillian Conde scite author profile

The behavioural and endocrine responses to a 10 min white noise stress have been characterized in female virgin and undisturbed lactating Sprague-Dawley rats. Animals were continuously video-taped and frequent blood samples were collected using an automated sampling system. Noise stress caused hypothalamo-pituitary-adrenal (HPA) activation, as indicated by a rapid increase in plasma corticosterone and ACTH in the virgins: corticosterone concentrations peaked 20 min after initiation of the stress before declining rapidly back to basal concentrations. In contrast, noise stress had no significant effect on either plasma corticosterone or ACTH concentrations in the lactating animals. However, 72 h after weaning the corticosterone response of the ex-lactating rats was of comparable magnitude, but longer duration to that seen in the virgins. Plasma prolactin concentrations were significantly higher in the lactating animals and declined in response to the noise whereas, a transient but reproducible increase was seen in the virgin group. In situ hybridization revealed a significantly lower basal expression of CRF mRNA in the paraventricular nucleus of lactating rats as compared to the virgins, but noise stress had no further effect. Virgin animals showed behavioural responses to the stress, including an increase in the total activity, exploratory behaviours (rearing) and displacement behaviours (grooming). Lactating animals also showed behavioural responses to the noise, but their activities were principally directed towards the pups. These data show that although lactating rats showed normal behavioural reactivity to a psychological stress they showed no statistically significant activation of the HPA axis, suggesting a dissociation of behavioural and neuroendocrine responses to this mild stress.

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The Hypothalamic‐Pituitary‐Adrenal Axis in Autoimmunity

Harbuz

Conde

Martı́

et al. 1997

Annals of the New York Academy of Sciences

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We have characterized the activation of the HPA axis in the chronic inflammatory stress model of adjuvant-induced arthritis. Alteration in the hypothalamic control mechanism, where CRF is no longer the major corticotrophin-releasing factor, has been noted in a number of other immune-mediated disease models, including experimental allergic encephalomyelitis, eosinophilia myalgia syndrome, systemic lupus erythematosus, and leishmaniasis. These changes occur in both the mouse and the rat, suggesting this may be a common mechanism to chronic immune activation. We have good evidence to suggest that AVP takes over as the major stimulator of the axis. The arthritic rat is unable to mount a response to acute stressors, such as restraint or ip hypertonic saline. However, these animals are able to mount a response to an acute immune challenge. These data provide further evidence for a differential activation of the HPA by acute stress or acute immune stimulation. This presumably reflects an adaptive response to the development of chronic inflammation. We have demonstrated that central neurotransmitter systems are able to influence the severity of peripheral inflammation. In particular we have shown that depletion of serotonin at the time of the development of the inflammatory episode reduces the severity of the inflammation. These findings suggest the possibility of novel therapeutic strategies targeting neurotransmitter systems to alleviate inflammation.

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Changing patterns of Fos expression in brainstem catecholaminergic neurons during the rat oestrous cycle

1995

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Central LPS-Induced <i>c-fos</i> Expression in the PVN and the A1/A2 Brainstem Noradrenergic Cell Groups Is Altered by Adrenalectomy

et al. 1999

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The A1 and A2 brainstem noradrenergic cell groups project to the hypothalamic paraventricular nucleus (PVN), which is involved in integrating the stress response. Bi-directional communication between the brain and immune system is well established, with both neuroendocrine and immune responses being activated by lipopolysaccharide (LPS). The mechanisms underlying such activation and differences between alternative routes of administration remain unclear. We examined activation of the PVN and A1/A2 cell groups, by assessing c-fos mRNA, or counting Fos-positive neurons in either the PVN or in brainstem A1/A2 cell groups 3 h after intracerebroventricular (i.c.v.) LPS, in control and adrenalectomized (ADX) rats. We also measured corticotropin-releasing hormone (CRH) mRNA in the PVN, and plasma corticosterone (CORT) levels. A group of ADX/CORT-replaced animals received i.c.v. LPS, and CRH mRNA and Fos peptide in the PVN were analysed. ADX increased CRH mRNA in the PVN, as did LPS, but no enhancement of this response was seen in LPS/ADX animals. C-fos mRNA also increased in both the PVN and the A2 cell group following LPS, but this response was potentiated by ADX. Fos peptide-containing cells increased in the PVN and A2 following LPS, and this change was amplified by ADX. Only 11.25% of Fos was found in DBH-positive (putative noradrenergic) neurons, suggesting activation of neurons containing other transmitters. ADX/LPS/CORT animals showed numbers of Fos neurons in the brainstem, and CRH mRNA levels in the PVN which were comparable to intact/LPS animals. Central LPS activates the hypothalamo-pituitary-adrenal axis, a process mediated partly by brainstem noradrenergic neurons, suggesting the involvement of afferent/efferent pathways within the brain. Peripheral administration of LPS involves activation of vagal inputs leading to the nucleus tractus solitarius. We suggest that centrally administered LPS activates the A2 cell group by a mechanism independent of the vagus. In the absence of CORT, despite the lack of a CRH mRNA response, an exaggerated c-fos and peptide response to LPS is observed, which is reversed following CORT pretreatment.

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Gillian Conde

Endocrine and Behavioural Responses to Noise Stress:Comparison of Virgin and Lactating Female Ratsduring Non‐Disrupted Maternal Activity

The Hypothalamic‐Pituitary‐Adrenal Axis in Autoimmunity

Changing patterns of Fos expression in brainstem catecholaminergic neurons during the rat oestrous cycle

Central LPS-Induced <i>c-fos</i> Expression in the PVN and the A1/A2 Brainstem Noradrenergic Cell Groups Is Altered by Adrenalectomy

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