Guglielmina Speroni

Low-dose ovine corticotropin-releasing hormone stimulation test in diabetes mellitus with or without neuropathy

The function of the hypothalamic-pituitary-adrenal (HPA) axis was evaluated in insulin-dependent diabetics without (group I, n = 10) or with (group II, n = 10) established symptomatic neuropathy and in age- and weight-matched normal controls (n = 11). Since the corticotropin (ACTH)/cortisol response to the minimal-effective dose of corticotropin-releasing hormone ([CRH] 0.03 microgram/kg body weight) represents a useful tool for HPA axis examination, all subjects were tested with the low-dose ovine CRH stimulation test. Experiments started at 8:30 AM, when CRH was injected after two basal blood samples were withdrawn, and lasted 2 hours. Basal serum levels of ACTH were similar in the three groups. Administration of CRH induced a small but significant increase in ACTH levels in all subjects; however, the CRH-induced ACTH increase was significantly higher in normal controls than in diabetic groups I and II. Furthermore, a significantly lower ACTH response was observed in group II than in group I. In contrast, basal and CRH-induced cortisol levels were significantly higher in diabetics than in normal controls. Comparisons between diabetic groups showed that both basal and stimulated cortisol secretion was significantly higher in group II than in group I. When peak ACTH responses to CRH and basal cortisol levels were combined, a significant negative correlation was found (r = .545, P < .02). These data show that even uncomplicated diabetes mellitus is associated with adrenal hyperfunction. Such an alteration is more pronounced in the presence of neuropathy.

Hypoglycemia-Induced Arginine Vasopressin and Oxytocin Release Is Mediated by Glucoreceptors Located Inside the Blood-Brain Barrier

Arginine vasopressin (AVP) and oxytocin (OT) responses during an insulin (0.15 IU/kg body weight) tolerance test (ITT) were evaluated in normal men while they were infused with normal saline, glucose or fructose. Insulin-induced hypoglycemia produced significant plasma AVP and OT increments in the control test. The infusion of fructose was unable to change the posterior pituitary hormonal responses to hypoglycemia. In contrast, AVP and OT responses during ITT were completely abolished when the concomitant infusion of glucose prevented insulin-induced hypoglycemia. These data exclude a direct role of hyperinsulinemia in the mechanism underlying the AVP and OT responses during ITT. Furthermore, since glucose, but not fructose, crosses the blood-brain barrier (BBB), the posterior pituitary hormone responses to hypoglycemia appear to be generated by stimulations of glucosensitive areas located inside the BBB.

Reduced sensitivity to pirenzepine-induced blockade of growth hormone responses to arginine, exercise, and growth hormone-releasing hormone in type I diabetic subjects

The present study was performed to establish whether the mechanism by which the cholinergic system influences growth hormone (GH) release was altered in type I diabetic patients. Therefore, we investigated in a dose-response fashion the inhibitory effect of the muscarinic cholinergic receptor antagonist pirenzepine on the GH responses to arginine infusion (30 g infused intravenously (IV) in 30 minutes), exercise (bicycle ergometer test at an intensity of 75 W for 30 minutes), or 1-44 GH-releasing hormone (GHRH) (1 microgram/kg in an IV bolus). In a preliminary study, IV injection of 17.5 mg pirenzepine failed to produce modification in the GH response to arginine infusion in both diabetic (N = 4) and normal subjects (N = 4), and to exercise (diabetics, N = 4; normals, N = 4). Therefore, other subjects were tested without and with 20, 25, and 30 mg pirenzepine during arginine (diabetics, N = 7; normals, N = 7) or exercise (diabetics, N = 7; normals, N = 7) tests. Each subject was tested four times. Diabetic patients presented higher GH responses to stimulation with arginine or exercise than normal controls. In both groups, pirenzepine administered at doses ranging from 20 to 30 mg produced a dose-related inhibition of the GH response to arginine and exercise, which was almost complete when 30 mg pirenzepine was administered. However, the percent inhibition produced by 20 or 25 mg pirenzepine in the arginine test and by 20 mg in the exercise test was significantly lower in the diabetic patients than in the normal controls.(ABSTRACT TRUNCATED AT 250 WORDS)

Abnormal growth hormone and cortisol, but not thyroid-stimulating hormone, responses to an intravenous glucose tolerance test in normal-weight, bulimic women.

Abnormal growth hormone (GH) and adrenocorticotropic hormone (ACTH)/cortisol secretory patterns in response to a glucose load have been observed in underweight anorectic women. The present study was performed in an attempt to establish whether changes in the hypothalamic/pituitary sensitivity to hyperglycemia occur in bulimia in the absence of weight disturbance. Therefore, serum GH, plasma cortisol, and plasma insulin concentrations were measured in eight women with normal weight bulimia and in eight normal women during an intravenous glucose (0.33 g/kg as an IV bolus) tolerance test (IGTT). In addition, since abnormal pituitary hormone responses to a glucose load might reflect alterations in somatostatin (SRIH) release, TSH secretion also was measured, in view of its sensitivity to SRIH inhibition. Both GH and cortisol levels progressively and significantly declined during IGTT in the normal subjects. In the bulimic women, cortisol levels remained unchanged, whereas GH concentrations rose significantly after glucose injection. Plasma cortisol and serum GH levels were significantly higher in the bulimic than in the control subjects. No significant differences between groups were observed in hyperglycemia-induced insulin increments or in TSH decrements. These data indicate that an altered sensitivity to hyperglycemia affects the hypothalamic/pituitary centers controlling the secretion of the counterregulatory hormones GH and ACTH/cortisol in bulimia nervosa. The lack of a simultaneous change in the TSH secretory pattern argues against a possible involvement of SRIH in the pathophysiology of this disorder.

Influence of thyroid status on the paradoxical growth hormone response to thyrotropin-releasing hormone in human obesity☆

Thyrotropin-releasing hormone (TRH) tests were performed in 38 age- and weight-matched obese but otherwise healthy men. In all subjects, total thyroxine (T4) and triiodothyronine (T3) concentrations were in the normal range. According to basal and TRH-stimulated serum thyrotropin (TSH) levels, subjects were divided into the following three groups: group I (n = 14), euthyroid subjects; group II (n = 11), euthyroid subjects with normal basal but abnormally elevated TSH responses to TRH; group III (n = 13), subjects with elevated basal and TRH-induced TSH levels (subclinical hypothyroidism). Basal TSH levels were 1.8 +/- 0.4 mU/L in group I, 1.7 +/- 0.3 in group II, and 6.0 +/- 0.7 in group III. In both groups II and III, TRH-induced TSH increments were above the normal range (maximal increment > 14 mU/L) and were significantly higher than in group I. The definition of euthyroidism for groups I and II and of subclinical hypothyroidism for group III according to the basal levels of TSH was confirmed by clinical (Billewicz index), hormonal (serum free-T4 levels), and metabolic (serum apoprotein [apo] AI levels) parameters. Basal concentrations of growth hormone (GH) were similar in all groups. When GH levels after TRH stimulation were measured, significant increments (peak minus baseline > 5 micrograms/L) were observed in nine of 13 hypothyroid obese men. The overall mean peak GH increase in group III was 4.5 times higher than baseline and was observed at 45 minutes. None of the euthyroid obese subjects of groups I and II showed any significant change in GH levels in response to TRH.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of Dexamethasone on TSH Secretion Induced by TRH in Human Obesity

Background The presence of an abnormally high thyroid-stimulating hormone (TSH) response to thyrotropin-releasing hormone (TRH) makes it difficult to distinguish some euthyroid obese subjects from subclinically hypothyroid obese patients. Here, we examine whether such distinction may be achieved after treatment with glucocorticoids, which inhibit TSH secretion at the hypothalamic-pituitary level. Methods TRH tests (200 μg as an intravenous bolus injection) were performed in 30 age- and weight-matched, obese, but otherwise healthy, men. All subjects were tested again with TRH after treatment with dexamethasone (dex) (2 mg/d in four divided doses orally for 3 days). Results In all subjects, total thyroxine and triiodothyronine concentrations were in the normal range. According to basal and TRH-stimulated serum thyrotropin (TSH) levels, subjects were divided into the following three groups: group I (n=10), euthyroid subjects; group II (n=10), euthyroid subjects with normal basal but abnormally elevated TSH responses to TRH; group III (n=10), subjects with elevated basal and TRH-induced TSH levels (subclinical hypothyroidism). Basal TSH levels were 1.8±0.4 mU/L in group I, 1.7±0.3 in group II, and 6.0±0.7 in group III. In both groups II and III, TRH-induced TSH increments were above the normal range (maximal increment>15 mU/L) and were significantly higher than in group I. After the second treatment with TRH, pretreatment with dex significantly decreased both basal TSH levels and peak TSH responses to TRH in all groups. However, a striking percentage decrease (>50%) in TRH-induced peak TSH responses was observed in euthyroid obese subjects of groups I and II, whereas hypothyroid subjects of group III showed only a slight decrement (<25%). Conclusions The sensitivity of the TSH secretory system to glucocorticoid inhibitory action is preserved in obese subjects with abnormally elevated TSH response to TRH, but not in subclinically hypothyroid obese patients. The TRH plus dex test might be useful in future studies to understand the mechanisms underlying alterations in TSH secretion in obesity.

Gonadotropin secretion in hyperthyroidism and hypothyroidism

SummaryGonadotropin patterns were evaluated in a group of 70 patients of both sexes with Graves’ disease or primary hypothyroidism. Significant variations were found only in hyperthyroidism where increased basal and stimulated values of both gonadotropins, but particularly LH, occurred. Qualitative and quantitative recovery was seen when euthyroid states were achieved after treatment of hyper and hypothyroid patients. Interactions with gonadotropin behavior were found in both sexes and in women of different ages. Direct interference on the hypothalamo-pituitary system rather than through the modulation of peripheral estrogen metabolism is suggested as the possible pathogenetic mechanism.

Reduction in the Arginine Vasopressin Responses to Metoclopramide and Insulin-Induced Hypoglycemia in Normal Weight Bulimic Women

A low plasma arginine vasopressin (AVP) responsiveness to hypertonic saline infusion has been described in bulimic women. At present, it is unknown whether this phenomenon is peculiar for the osmotic regulation of AVP secretion or whether it represents an aspect of a more general disorder of AVP secretion in bulimia nervosa. In order to answer these questions, in the present study the AVP responses to metoclopramide (MCP) (20 mg in an i.v. bolus) and insulin (0.15 IU/kg)-induced hypoglycemia were tested in normal weight bulimic women and in weight- and age-matched normal women. Basal AVP concentrations were similar in normal and bulimic women. In the normal controls, plasma AVP levels rose 2.6 times after MCP and 2.2 times in response to hypoglycemia. Both AVP increments were significantly lower in bulimic patients. In this group, plasma AVP levels rose 2 times after MCP and 1.8 times in response to hypoglycemia. When data of the MCP and insulin tolerance test were combined, regression analyses showed a significant positive correlation between AVP peak responses to MCP and hypoglycemia in the bulimic group. These data show an impaired AVP response to different releasing stimuli in bulimia, suggesting that a more general disorder than a simple change in the sensitivity to osmotic stimulation affects the AVP secretory system in bulimic patients. It is likely that bulimic subjects are affected by a neuroendocrine alteration in the control of AVP secretion, whose mechanisms are still unknown.

Luteinizing hormone responses to gonadotropin-releasing hormone and naloxone in menstruating women with type I diabetes of different duration *

Luteinizing hormone (LH) responses to gonadotropin-releasing hormone (GnRH) (100 μ g injected intravenously (IV)) or naloxone (4mg injected plus 8mg infused in 2 hours IV) were evaluated in 29 women with insulin-dependent diabetes mellitus (IDDM) (duration, group I (n=15): 10 years, range 11 to 20 years) and in 15 normal controls, on the 22nd days of normal menstrual cycles. Both GnRH- and naloxone-induced LH responses were similar in group I diabetics and normal controls, whereas they were significantly lower in group II than in group I diabetics or normal controls. Positive correlations were found between LH responses to GnRH and naloxone, whereas negative correlations were observed between maximal LH peaks in response to GnRH or naloxone and duration of diabetes. These data indicate that a hypothalamicpituitary disorder affects LH secretion with time after the onset of IDDM.

Increase by naloxone of arginine vasopressin and oxytocin responses to insulin-induced hypoglycemia in obese men

The present study was carried out to establish whether the low arginine vasopressin (AVP) and oxytocin (OT) responses to insulin-induced hypoglycemia observed in obese men was due to alteration of the opioid control of posterior pituitary function. For this purpose, the AVP and OT releasing effect of insulin (0.15 lU/kg bw) — induced hypoglycemia was tested in eight normal weight men and in 10 age-matched obese subjects, without and with the previous treatment with the specific opioid receptor antagonist naloxone (3 mg in an iv bolus). In a control study, naloxone was given alone to the same subjects. Obese men showed similar basal glucose, AVP and OT levels, which remained unmodified after treatment with naloxone alone. Insulin induced a similar decrement of blood glucose levels in all subjects, with a nadir at 30 min. Plasma levels of AVP and OT rose strikingly in normal and obese subjects with mean peak responses at 30 min for AVP and at 45 min for OT. However, both AVP and OT responses were significantly lower in obese than in control subjects. Pretreatment with naloxone did not modify the AVP and OT responses to hypoglycemia in normal weight subjects, whereas it significantly enhanced both hormonal responses in obese subjects. In the presence of naloxone normal controls and obese subjects showed similar responses of both AVP and OT to hypoglycemia. These data indicate that an abnormal activity of endogenous opioids might account for the hypothalamic posterior pituitary dysfunction, which is responsible for the low AVP and OT responses to insulin-induced hypoglycemia in obesity.