The Origin of Glucocorticoid Hormone Oscillations

Characterization of a peripheral hormonal system identifies the origin and mechanisms of regulation of glucocorticoid hormone oscillations in rats

Deletion of the ventral noradrenergic bundle obliterates the early ACTH response after systemic LPS, independently from the plasma IL-1β surge

International audienceWe have recently shown that total lesion of the ventral noradrenergic bundle (VNAB-X), enhanced the short-lived (<120 min) triggering effect of intra-arterially (i.a.) given IL-1β on plasma ACTH levels. In the present study we used the same VNAB-X paradigm to explore the mechanisms of the long-lived (480 min) LPS stimulatory effect on plasma ACTH, corticosterone (CORT) and IL-1β levels. In control rats, 25 μg kg(-1) LPS induced a 20-fold increase in ACTH and a 7-fold increase in CORT concentrations at 30 min, which continued to rise until 60 min, before receding to baseline at 480 min. In contrast, the plasma IL-1β concentration started to increase above undetectable levels only at 120 min. In VNAB-X animals, the early (30 min) ACTH/CORT response to LPS was completely blunted, and the ACTH surge was reduced by 75% at 60 min. However, the sustained hormonal response (120 to 480 min) was unaltered. Both the temporal pattern and the amplitude of the plasma IL-1β response were normal. We conclude that (1) the VNAB is involved in the early (first 60 min) ACTH/CORT response to systemic LPS, (2) plasma IL-1β does not appear to be associated with this early corticotropic activation and (3) the later stages of the ACTH/CORT response to LPS (60 to 480 min) appear to be independent of the VNAB control and may therefore involve different control mechanisms, in which the IL-1β, by this stage massively released in the blood, may play a major role

Serotoninergic and suprachiasmatic nucleus involvement in the corticotropic response to systemic endotoxin challenge in rats.

International audienceWe have investigated whether the serotonin system participates in the mechanisms underlying the corticotropic response in experimentally infected rats. Intra-arterial injection of lipopolysaccharide (LPS; 25 microg/kg b.w.) resulted in a slight but significant increase in serotonin (5-HT) metabolism, detectable 60 min after the stimulus and lasting more than 480 min. Adrenocorticotropin (ACTH) and corticosterone (CORT) responses in intact rats conformed to earlier reports, increasing as early as 30 min after LPS injection and reaching maximal concentrations in the circulation 60 min after the bacterial endotoxin injection. Plasma concentrations of interleukin-1beta (IL-1beta) increased only after 60 min, reaching maximal levels 120 min after LPS. Depletion of hypothalamic 5-HT (-93%) by pretreatment of the animals with para-chlorophenylalanine (p-CPA), resulted in a halved ACTH response to LPS, despite an overall unchanged secretory pattern. Neither CORT nor IL-1beta secretory patterns were affected in these rats pretreated with p-CPA. Complete bilateral electrochemical lesions of the suprachiasmatic nucleus (SCN), which is innervated by mesencephalic 5-HT, impaired the early phase of the ACTH (-75% at 30 min) and CORT (-40% at 30 min) responses but did not affect the later increases of the corticotropic and the plasma IL-1beta responses following the LPS injection. These results indicate that serotonin pathways and SCN are involved in the earlier mechanisms of corticotropic axis recruitment following systemic LPS endotoxemia

Short-term but not long-term adrenalectomy modulates amplitude and frequency of the CRH41 episodic release in push-pull cannulated median eminence of free-moving rats.

International audienceCRH 41 release in push-pull cannulated median eminence (ME) was measured in unanesthetized male rats, 3 and 7 days after adrenalectomy (ADX) and in sham-lesioned controls. Perfusion started at 13.30 h and perfusate samples were collected at 5 min intervals for 3 h to estimate the mean release rate of CRH41. The major parameters of the neurohormone's episodic release pattern were analyzed using the Ultra algorithm. In a parallel study, 3 groups of similarly treated rats were used to measure plasma ACTH and hypothalamic CRH41. Three days after ADX, the plasma ACTH titers had risen 14-fold, the hypothalamic CRH41 content had decreased by 40%, while the CRH41 release in the ME had doubled as a result of a significant increase in most variables of the pulsatile release pattern: pulse frequency (+34%; P < 0.01), mean amplitude (+36%; P < 0.05), mean peak levels (+67%; P < 0.01) and mean pulse nadirs (x2.5; P < 0.01). Seven days after ADX, even though plasma ACTH had further increased to 30-times control levels, hypothalamic CRH41 content and CRH41 release in the ME had returned to almost control levels. The possible mechanisms of the discrepancy between the CRH and ACTH response time-courses following ADX are discussed

[The corticotropic axis response after subcutaneous endotoxin injection is not associated with the increase of plasma interleukin-1 beta].

International audienceWhen injected through an intra-arterial (i. a.) cannula, LPS induced a rapid (15-30 min) and long-lasting (> 300 min) increase in plasma ACTH and corticosterone (CORT) levels. The duration of these responses depended on the LPS dose, and except for very small LPS doses, their amplitudes appeared independent of the dose of endotoxin. ACTH peaks (2,200 pg.ml-1) occurred between 30 and 120 min, whereas CORT always reached maximal levels at 120 min. Plasma Interleukin-1 beta (IL-1 beta) levels were always undetectable during the early phase of corticotropic stimulation, but increased strikingly 120 min after LPS injection. Increasing LPS doses, resulted in enhanced and prolonged IL-1 beta plasma circulating levels (up to 3.0 +/- 0.2 ng.ml-1). By contrast, no sub-cutaneous LPS dose used induced early increases in ACTH and CORT levels, whereas time-course of the hormonal response was evocative of the sustained phase of the corticotropic response to i. a. LPS, with both peaks occurring 120 min post-LPS. Increasing the s. c. LPS bolus 50-fold vs the i. a. dose did not affect the maximal amplitude of the ACTH response, whereas the amplitude of the CORT response, instead, appeared dependent on the LPS dose. On the other hand, even for the largest LPS doses, plasma IL-1 beta levels remained undetectable. Sub-cutaneous injection of LPS therefore appears as a new model for the study of the mechanisms of corticotropic responses to endotoxin without a direct involvement of bloodborne IL-1 beta

Early hypothalamic activation of combined fos and CRH41 immunoreactivity and of CRH41 release in push-pull cannulated rats after systemic endotoxin challenge

International audienceWe previously showed that intra-arterial endotoxin infusion (lipopolysaccharide [LPS]: 25 micrograms.kg-1) induced an early (15 min) and sustained (480 min) rise in plasma ACTH associated with delayed (60-120 min) increases in plasma concentrations of TNF alpha, IL-6, and IL-1 beta. In the present study, we followed the post-LPS time-course of immunocytochemical expression of Fos-like activity in CRH41 neurons whose immunolabeling was enhanced by icv colchicine pretreatment 48 h before the LPS, and CRH41 release in the push-pull cannulated median eminence of free-moving rats, in parallel with the ACTH response. The earliest Fos-like activity in IR-CHR41 neurons was detected 30 min post-LPS. Colchicine strongly inhibited the LPS-induced activation of Fos expression in single-labeled paraventricular neurons. CRH41 release in the median eminence displayed a biphasic stimulation pattern, with a first peak (+60%) at 15 min together with the ACTH surge, followed by a second rise beginning at 45 min and lasting more than 2 h. Thus, the early stage of the ACTH surge following a nonlethal endotoxin challenge (< 60 min) already involves the activation of CRH41-producing neurons

Different responses of plasma ACTH and corticosterone and of plasma interleukin-1 beta to single and recurrent endotoxin challenges.

International audienceIn a parallel study in 10 individual rats, three time series of plasma concentrations of ACTH, corticosterone (CORT), and interleukin-1 beta (IL-1 beta) were measured before (time 0) and at intervals between 15 and 480 min following intra-arterial (i.a.) infusions of 25 microgram/kg lipopolysaccharide (LPS). All LPS injections were given at 9 AM. The first time series was performed on naive rats (day 1). A sequence of six daily injections (days 3-8) of the same dose of LPS followed. The post-LPS time course of the plasma ACTH, CORT and IL-1 beta levels were studies on days 3 (second injection) and 8 (seventh injection). The first LPS injection induced a rapid (30 min) eightfold rise in plasma ACTH and CORT, culminating in concentrations 30 times the baseline at 60 min (ACTH) and 15 times baseline at 120 min (CORT). Both hormones receded back to the initial basal level at 480 min. On the other hand, IL-1 beta increased slowly to peak at 13 times baseline 120 min before declining to minimal seven- to ninefold basal levels, 480 min and even 48 h post-LPS. During the second phase of the experiment starting 48 h after the initial LPS priming sequence, the ACTH and CORT responses to daily recurrent LPS injections again differed from those of IL-1 beta. The post-LPS time courses of the ACTH and CORT reaction displayed a typical pattern of a progressive attenuation studied at days 3 and 8. The peak amplitudes at days 3 and 8 were reduced to 60 and 10%, respectively, for ACTH, and to 85 and 45% for CORT of those observed at the first LPS test. The duration of the response (both) was also shortened from 480 min (first LPS test) to 300 min at days 3 and 8. The post-LPS patterns of the IL-1 beta responses were characterized, first by basal levels seven to nine times higher than the initial baseline values (day 1), and by a rapid suppression of the post-LPS response, with only a slight (30%) increase at day 3 and no increase at day 8. Thus, after both acute and recurrent LPS administration, ACTH/CORT and IL-1 beta reacted differently to the endotoxin challenge. The two LPS reactive systems were not correlated. This is inconsistent with the often proposed role of increased plasma IL-1 beta release as an intermediary factor in the LPS-induced recruitment of the corticotropic axis in general infections

Chronic orthostatic and antiorthostatic restraint induce neuroendocrine, immune and neurophysiologial disorders in rats.

International audienceThe tail-cast suspension rat model has been developed in ground laboratories interested in space physiology for extensive study of mechanisms causing the pathophysiological syndrome associated with space flights. We used individually-caged male rats to explore the effects of acute and chronic (7d) orthostatic restraint (OR) and head-down anti-orthostatic restraint (AOR) on a series of physiological variables. The acute restraint study showed that (1) the installation of the OR device induced an acute reaction for 2 days, with a substantial rise in ACTH (x2) and CORT (x6), and that (2) the head-down tilt from OR to AOR induced (i) within 10 min and lasting 60 min a 2-fold rise in the intra-cerebro-ventricular pressure (Picv) monitored with an icv telemetric recording system, which receded to normal between 60 and 120 min; and (ii) within 30 min a short-lived 4-fold rise in plasma ACTH and CORT levels. Chronic OR induced (1) the suppression of the diurnal ACTH/CORT rhythm, with increased mean levels, especially for ACTH, (2) a degraded circadian locomotor activity rhythm manifested by a significant reduction in the spectral power of the 24h periodicity and a concomitant emergence of shorter (ultradian) periodicities, (3) an associated, but less pronounced alteration of the diurnal rhythm in body temperature; and (4) a marked increase in baseline plasma levels of IL-1 beta and an increased reactivity in cytokine release following an E. coli endotoxin (LPS) challenge. AOR induced (1) a similar obliteration of the circadian ACTH/CORT rhythm, (2) the loss of close correlation between ACTH and CORT, (3) a generalized increase in baseline plasma IL-1 beta levels and (4) more extensive degradation of the circadian periodicity for both locomotor activity and, to a lesser extent, body temperature, replaced by dominant spectral powers for ultradian periodicities (3 to 10h). In conclusion, both experimental paradigms--but AOR more than OR--caused a blockade of the circadian rhythmicity of major physiological variables, the loss of normal correlations between ACTH and CORT, and inflammatory-immune hyperreactivity. These pathophysiological disorders may all be parts of a complex chronic stress syndrome

Central regulation of ACTH release in stress.

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