To analyse further the ACTH(1-24) low-dose test, which is of clinical interest, we have examined the dose-response relationship between plasma ACTH(1-24) and cortisol concentrations after i.v. administration of increasing doses (1, 5 or 250 mg) of ACTH(1-24) as a bolus. In addition, we have measured plasma ACTH(1-39) and cortisol levels after an insulin tolerance test (ITT). Although there was a dose-response relationship between plasma ACTH(1-24) immunoreactivity and the dose injected, cortisol peaks were comparable, but lower than those reached after an ITT. Under these experimental conditions, an increase in plasma ACTH as low as 13 pmol/l (i.e. the increase obtained with the 1 mg dose) induced a near maximal cortisol response. Following injection of 1 mg ACTH(1-24), peak ACTH values were short lasting, similar to physiological daily bursts. After injection of 5 mg ACTH(1-24), plasma ACTH concentrations were higher than those reached during an ITT, but clearly shorter lasting. Injection of 250 mg ACTH(1-24) induced strikingly supraphysiological levels of plasma ACTH. We conclude that neither regular nor low-dose ACTH tests can fully reproduce the ITT. Our observations strongly suggest that the low-dose ACTH(1-24) test (1 mg) can be useful to estimate the adrenal sensitivity under basal, physiological conditions.
Endotoxin has been shown to stimulate GH secretion in human and sheep. However, changes in hypothalamic neurohormones involved in the GH regulation by endotoxin have never been studied in vivo. In sheep it is possible to collect hypophysial portal blood (HPB) and quantify GH-releasing hormone (GHRH) and somatostatin (SRIH) secretion under physiological conditions. The purpose of this study was to determine the effect of an acute i.v. endotoxin administration on the secretion of these peptides in sheep. Endotoxin induced a sustained increase of GH (x6.2 +/- 1.3) in intact rams. This stimulation was delayed and less marked when compared with the hypothalamic-pituitary-adrenal axis. Surprisingly, the GH increase was associated with an important rise of jugular (x10.6 +/- 2.4) and portal (x7.9 +/- 3) SRIH levels, without a significant GHRH increase. To determine if the portal SRIH increase was a consequence of an increased short feedback of GH, we studied GH response to endotoxin after a previous GHRH injection to deplete the pituitary pools of GH. In that case, despite the absence of increase of GH after endotoxin treatment, SRIH levels was markedly increased. For the first time we have observed an experimental situation in sheep with a simultaneous and closed amplitude increase in jugular and portal SRIH. The source of jugular SRIH is likely the gastrointestinal tract and the increased jugular SRIH release in systemic circulation might be in part responsible for the increase of hypophysial portal SRIH. Ultimately our results show that endotoxin induced a complex reaction at multiple levels with a specific increase in both portal and peripheral SRIH levels. The surprising association of a lack of change in GHRH release and an increased secretion of SRIH with the increase of GH suggests that the effect of endotoxin on GH axis is mainly a pituitary one. The selective blockade of somatostatin should be useful for a better knowledge of the role of SRIH stimulation in the physiopathology of septic shock.
Acute myocardial infarction (AMI) is associated with a stimulation of cortisol which lasts 24 hours in patients treated by thrombolysis. Percutaneous transluminal coronary angioplasty (PTCA) is an alternative treatment for AMI which reduces the length of myocardial ischemia. Our objective was the determination of the amplitude and duration of cortisol and other hormones of the hypothalamo-pituitary-adrenal (HPA) axis release in patients undergoing PTCA. These responses were also analyzed in relation with the time of onset of AMI. The effect of coronarography with or without angioplasty in patients without AMI was also studied. Plasma ACTH, cortisol, corticotropin-releasing hormone and arginine vasopressin levels were determined during the first 48 hours in 20 patients with first AMI, treated by PTCA and in 10 patients without AMI undergoing coronarography (and angioplasty in five of them). A strong stimulation of the HPA axis was observed in AMI patients, but the duration of cortisol secretion was significantly reduced (less than 8 hours) as compared with previous studies in patients treated with thrombolysis. A clear-cut ACTH-cortisol dissociation was also observed after the third hour. ACTH and cortisol stimulation was higher in patients admitted between 04:00 h and 16:00 h than in patients admitted between 16:00 h and 04:00 h In patients without AMI, coronarography induced a moderate, but significant short-lasting ACTH and cortisol stimulation. In conclusion, our data suggest that the degree of stimulation of the HPA axis may depend upon the type of treatment and the circadian rhythm of this axis.
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