THE HIGHER THE GROWTH HORMONE RESPONSE TO GROWTH HORMONE RELEASING HORMONE THE LOWER THE RESPONSE TO BROMOCRIPTINE AND THYROTROPHIN RELEASING HORMONE IN ACROMEGALY

In acromegaly a direct relationship has been demonstrated between GH responsiveness to TRH and to the dopaminergic agent bromocriptine (Br). Recent data show an inverse relationship between GH responsiveness to Br and to GH releasing hormone (GHRH), but not between the GH responses to GHRH and TRH. Thirty-one acromegalic patients, 18 women and 13 men (age 46.2 +/- (SD) 13 years) were studied. Four patients had been treated, but all still had active disease. The GH responses to GHRH (hpGHRH1-44, Bachem 100 micrograms i.v. bolus), TRH (Thyroliberin, Hoechst 200 micrograms i.v. bolus) and Br (Parlodel 5 mg orally) were assessed in most of the patients. The GH responses to GHRH showed a wide interindividual variation (delta GH 1-995 ng/ml), which correlated significantly with the basal GH levels (r = +0.85, P less than 0.0001, n = 31). GH increments in response to GHRH were inversely related to the responses to Br, i.e. the lower the GH increase after GHRH the greater the GH decrease after Br (r = -0.49, P less than 0.01, n = 30). This decrease correlated with the basal PRL level (r = +0.45, P less than 0.02, n = 29) and also the GH response to TRH (r = +0.66, P less than 0.0001, n = 30). An inverse correlation was also found between the GH responses to TRH and to GHRH (r = -0.43, P less than 0.02, n = 29). The data are consistent with the existence of GH-secreting adenomas which are more sensitive to GHRH and less to Br and TRH (pure somatotroph adenomas) and of mixed (lactotroph-like adenomas) responsive to TRH and Br but less responsive to GHRH.     

CHOLINERGIC MUSCARINIC RECEPTOR BLOCKADE WITH PIRENZEPINE ABOLISHES SLOW WAVE SLEEP-RELATED GROWTH HORMONE RELEASE IN YOUNG PATIENTS WITH INSULIN-DEPENDENT DIABETES MELLITUS

Cholinergic receptor blockade has been shown to abolish GH secretion in a variety of physiological and pharmacological situations in normal subjects. We have investigated the effect of pirenzepine on nocturnal GH secretion in young adult patients with Type I insulin-dependent diabetes mellitus. Five patients (three male, two female; aged 20-27 years) were studied in a randomized order on two days separated by at least 1 week. All patients showed episodes of slow wave sleep on each occasion and this was followed by peaks of GH release when placebo alone was administered (range of GH peaks 6-115 mU/l). In contrast, cholinergic muscarinic receptor blockade with pirenzepine (100 mg orally at 2200 and 2400 h) completely abolished nocturnal GH release in each individual without altering the occurrence of slow wave sleep itself. Mean plasma glucose levels at each sampling time between each study did not differ significantly. The ability to abolish nocturnal GH secretion may be important in the field of diabetes, since excess GH secretion is implicated in several acute metabolic and chronic microvascular complications of the disease.     

THE EFFECT OF OXANDROLONE ON THE GROWTH HORMONE RESPONSE TO GROWTH HORMONE RELEASING HORMONE IN CHILDREN WITH CONSTITUTIONAL GROWTH DELAY

The effect of treatment with oxandrolone, an anabolic steroid, on GH response to GH-releasing hormone (GHRH) has been evaluated in children with constitutional growth delay. Five subjects, four males and one female, aged 11.0-17.1 years were given oxandrolone 0.1 mg/kg p.o. daily for 2 months, and underwent acute administration of GHRH (GRF 1-40, 1 microgram/kg i.v.) before and after withdrawal of oxandrolone therapy. GHRH administration induced a much greater GH response, evaluated either as a peak plasma GH levels or plasma GH integrated area, after than it did before oxandrolone treatment. These findings indicate that in children with constitutional growth delay oxandrolone increases the sensitivity of somatotrophs to exogenous GHRH and, likely, to the endogenously-released neurohormone.     

THE EFFECT OF PLASMA GLUCOSE ON THE GROWTH HORMONE RESPONSE TO HUMAN PANCREATIC GROWTH HORMONE RELEASING FACTOR IN NORMAL SUBJECTS

Pituitary responsiveness to 44 amino acid human pancreatic growth hormone releasing factor was tested under conditions of euglycaemia and hyperglycaemia in six normal subjects. A 100 μg dose of growth hormone releasing factor was given at a fasting blood glucose of 5.1 ± 0.4 mmols/1 (mean ± S.D.), and at a blood glucose level of 10.9 ± 1.5. Under conditions of hyperglycaemia, the GH response to releasing factor was significantly depressed when compared to results obtained at fasting blood glucose ( n = 6, t = 3.902, P = 0.0114). This is in keeping with the hypothesis that hyperglycaemia, mediated by the hypothalamus, causes decreased pituitary sensitivity to natural growth hormone releasing hormone.     

THE EFFECTS OF IMPROVED BLOOD GLUCOSE ON GROWTH HORMONE AND CORTISOL SECRETION IN INSULIN-DEPENDENT DIABETES MELLITUS

Growth hormone and cortisol secretion were studied in 25 patients with insulin-dependent diabetes before (Study 1) and 2 weeks after improved glucoregulation (Study 2). Blood samples for serum growth hormone (GH) and blood glucose determination were collected at hourly intervals whilst blood samples for cortisol and C-peptide were collected every 6 h during the 24-h period in Study 1 and Study 2. Glycaemic control was significantly improved in Study 2 compared to that in Study 1 (8.5 vs 13.3 mmol/l; P less than 0.001). With improved control, growth hormone levels rose by 21% (5.7 vs 4.7 mU/l; P less than 0.05). Throughout both study periods growth hormone levels were higher in patients with no residual C-peptide secretion (10 CpN patients) compared with patients with residual beta-cell function (15 CpP patients) (7.1 vs 3.2 mU/l in Study 1; 8.9 vs 4.2 mU/l in Study 2; P less than 0.001). Characteristic shapes of the 24-h blood glucose profile curves during both study periods were significantly different between the CpN and CpP group. Plasma cortisol decreased in both groups with improved metabolic control (P less than 0.001) but the observed different diurnal pattern did not change. These results demonstrate the importance of residual endogenous insulin secretion in determining growth hormone secretion in insulin-dependent diabetes and have important implications for glycaemic control and risk of microvascular complications.     

GROWTH HORMONE RESPONSE TO LOW DOSE INTRAVENOUS INJECTIONS OF GROWTH HORMONE RELEASING FACTOR IN OBESE AND NORMAL WEIGHT WOMEN

We have recently reported an impaired growth hormone (GH) response to a single i.v. bolus dose of growth hormone releasing factor (1 microgram/kg body weight) in obese women. We have now investigated whether the i.v. administration of low dose GHRF(1-29)NH2 (0.33 microgram/kg/h) by 15 min pulsed injections for 3 h followed by an i.v. bolus (1 microgram/kg) to four normal weight women and six obese women results in an enhancement of GH release. In the control women low dose GHRF, given either as a single 10 microgram injection or in pulses of equivalent total dosage, produced a GH response identical to that seen after a single bolus of 60 micrograms (mean peak GH low dose 30 +/- 2 mU/l, peak GH large dose 30 +/- 0.5 mU/l). In the obese women GH release was significantly less than the controls after low doses of GHRF (P less than 0.01) and the peak was delayed compared to that following a single large bolus dose (peak GH 7 +/- 1.2 mU/l). However, three of the obese women who previously showed no response to a large dose of GHRF did release GH after low dose pulsed injections. The final bolus of GHRF after 3 h of pulsed injections did not elicit any additional GH release in the subjects irrespective of body weight. We conclude that obesity may be characterized by impaired GH release to i.v. GHRF. The finding that some obese women do not respond to a single large dose injection of GHRF but do release GH after low dose pulsed injections supports the hypothesis of a hypothalamic disorder in these women.(ABSTRACT TRUNCATED AT 250 WORDS)     

THE INTERACTION OF HUMAN PANCREATIC GROWTH HORMONE RELEASING FACTOR 1–44 WITH SOMATOSTATIN IN VIVO IN NORMAL MAN

The interaction between the stimulatory effects of hpGRF 1-44 and the inhibitory effects of somatostatin on GH release have been investigated in six normal male subjects receiving continuous 4 h infusions of these peptides alone and in combination. hpGRF 1-44 0.3 microgram/kg/h alone produced a peak GH response of 27.0 +/- 7.6 mU/l (mean +/- SEM). Somatostatin 1.0 microgram/kg/h markedly inhibited the GH response to hpGRF 1-44 with mean levels less than 4.0 mU/l during the infusion, though a rebound rise in GH levels to 26.1 +/- 9.0 mU/l was observed at the end of the infusion period. Somatostatin 0.2 microgram/kg/h inhibited the GH response to hpGRF 1-44 to a lesser degree (peak GH during the infusion 11.7 +/- 2.5 mU/l) and the rebound rise in GH levels (maximum 13.2 +/- 4.3 mU/l) was less than that observed with high dose somatostatin. During somatostatin 1.0 microgram/kg/h alone GH levels were suppressed less than 1.0 mU/l followed by a rebound at the end of the infusion in only two subjects. These data demonstrate a dose-dependent inhibition of hpGRF 1-44 by somatostatin in vivo in man.     

THE EFFECT OF OESTROGEN PRETREATMENT ON SUBSEQUENT RESPONSE TO LUTEINIZING HORMONE RELEASING HORMONE IN NORMAL WOMEN

Twenty-two normal, regularly menstruating female subjects had an LHRH test performed before and after pretreatment with 0.5 mg, 1 mg or 2.5 mg of oestradiol benzoate during the follicular phase of their menstrual cycles (days 4–8). Two further women acted as controls and received no oestrogen; they showed identical responses for both LH and FSH release when LHRH tests were performed at intervals of 48 h. Oestrogen pretreatment induced a biphasic effect upon subsequent LHRH response. Four subjects retested 20 h after 0.5 mg oestradiol benzoate showed either no change or a slight suppression of LH and FSH release. Fifteen of the eighteen women pretreated with oestradiol benzoate and retested 44 h later showed significantly increased LH release and fourteen significantly increased FSH release when compared to their control responses. The responses appeared to be dose related with a positive correlation between sum of LH increments and basal oestradiol levels (r= 0.61; P<0.001) and a similar correlation (r= 0.67; P<0.001) between sum of FSH increments and basal oestradiol levels. The physiological significance of this biphasic action of oestrogen upon pituitary sensitivity is discussed in relation to the control of the menstrual cycle.     

EFFECT OF ORAL GLUCOSE ON THE LATE GROWTH HORMONE RISE AND GROWTH HORMONE RESPONSES TO GHRH IN NORMAL SUBJECTS

A late rise in serum GH occurs 3-5 h following oral glucose in man. In order to investigate the mechanisms through which this occurs we have studied the late GH rise after oral glucose during administration of a supramaximal dose of GHRH. In eight normal subjects, oral glucose (100 g) greatly enhanced the GH responses to a supramaximal dose of GHRH (50 micrograms bolus, followed immediately by 100 micrograms/h infusion for 3 h) given 3.5 h after the glucose. GH peak (mean +/- SEM) elicited by GHRH (bolus + infusion) rose from 55.2 +/- 20.4 to 133.4 +/- 29.6 mU/l (P less than 0.02) after glucose pretreatment. In conclusion, it is likely that the late rise in GH secretion induced by oral glucose occurs via a non-GHRH-dependent mechanism. These data are consistent with the hypothesis that the delayed GH response to glucose is a consequence of reduced release of somatostatin from the hypothalamus.     

THE PITUITARY-ADRENAL RESPONSE TO CRF-41 IS UNALTERED BY INTRAVENOUS SOMATOSTATIN IN NORMAL SUBJECTS

We have previously reported that the hypothalamo-pituitary-adrenal response to insulin-induced hypoglycaemia is normal while the cortisol release to pituitary stimulation by corticotrophin releasing factor (CRF-41) is reduced in obesity. Impaired growth hormone (GH) secretion is also found in obesity which may result from altered central levels of somatostatin (SMS). We have investigated, by giving a simultaneous infusion of SMS to six volunteer normal weight men during a CRF test, whether it is possible for SMS to modify pituitary-adrenal function. Each subject received intravenous CRF-41 (0.5 micrograms/kg) on two occasions during an infusion of isotonic saline or SMS (4 micrograms/min) in a randomized double-blind study. Plasma GH, cortisol, ACTH and SMS were measured. Three subjects demonstrated GH peaks during saline infusion but no peaks were seen in any subject during SMS infusion. No significant difference was found between peak cortisol responses during saline or SMS infusion (SMS cortisol 443 +/- 61 nmol/l, saline cortisol 485 +/- 52 nmol/l); neither was there any difference in the ACTH responses. We conclude that SMS does not alter the pituitary response to CRF in normal weight men and is thus less likely to be responsible for the altered pituitary-adrenal function seen in obesity. Further studies of alternative mechanisms are required to explain the cause of this abnormality.     

THE RESPONSE OF NORMAL SUBJECTS AND PATIENTS WITH IDIOPATHIC GROWTH HORMONE DEFICIENCY TO CONTINUOUS INFUSION OF HUMAN PANCREATIC GROWTH HORMONE RELEASING FACTOR 1–44

The GH response to a prolonged continuous infusion of human pancreatic growth hormone releasing factor (hpGRF 1–44), 0.3 μg/kg/h was evaluated in seven patients with severe idiopathic GH deficiency, one patient with partial deficiency and in seven normal controls. Normal controls had a multiphasic response with a first peak between 15 and 90 min of 13.6 to 88.5, mean 45.6 mU/l and a second peak between 105 and 195 min of 8.8 to 73.1, mean 33.8 mU/l. However, the magnitude and pattern of response were highly variable. Six of the seven patients with severe GH deficiency had a response with a maximum level between 30 and 90 min of 3.3 to 7.5, mean 4.8 mU/l. Mean levels remained greater than 2.0 mU/l throughout the infusion but further peaks were absent or minimal. The patient with partial GH deficiency responded in a normal manner. hpGRF 1–44 by continuous infusion thus induced GH release in seven of eight patients with idiopathic GH deficiency though the response was impaired and the pattern of secretion abnormal in severely deficient patients.     

RESPONSES TO ANALOGUES OF GROWTH HORMONE-RELEASING HORMONE IN NORMAL SUBJECTS, AND IN GROWTH-HORMONE DEFICIENT CHILDREN AND YOUNG ADULTS

Three analogues of growth hormone-releasing hormone (GHRH) have been compared in normal subjects. GHRH(1-29)NH2 is equipotent to GHRH(1-40); increasing doses from 10-200 micrograms per subject augments the duration of stimulated growth hormone (GH) release, but the peak serum GH shows only a poor correlation with dose. The derivative D-Ala2-GHRH(1-29)NH2 is no more potent than the unsubstituted GHRH(1-29)NH2. In 20 children and young adults with growth hormone deficiency by conventional criteria, eight showed normal or only slightly subnormal peak serum GH responses to GHRH(1-40) or GHRH(1-29)NH2. These included two patients with tumours of the hypothalamus, as well as six with idiopathic isolated growth hormone deficiency or panhypopituitarism. A poor response to GHRH was generally seen in patients on long-term GH therapy. Priming with GHRH, in either a single bolus or a continuous infusion, did not increase the GH response to GHRH. It is concluded that GHRH(1-29)NH2 is a useful analogue in the testing of GH reserve in patients with growth hormone deficiency, and has considerable potential for long-term therapy.     

INTERACTION BETWEEN GROWTH HORMONE RELEASING FACTOR (GRF) AND SOMATOSTATIN ANALOGUE (SMS 201–995) IN NORMAL SUBJECTS

Continuous infusion or pulsatile administration of growth hormone releasing factor leads to decreasing GH levels and GH responses in normal subjects. We have given 50 micrograms GRF 1-44 i.v. four times in 2-hourly intervals to five normal subjects. After 1 week the same protocol was repeated after s.c. administration of 50 micrograms of the synthetic octapeptide somatostatin (SMS 201-995). The GH response to the same GRF doses was higher after the initial GRF pulse and blunted to the following GRF pulses (pulse I: 37:0 +/- 11.2 ng/ml; Pulse II: 5.3 +/- 1.2 ng/ml; pulse III: 5.9 +/- 2.5 ng/ml; pulse IV: 5.9 +/- 3.2 ng/ml; mean +/- SE). When SMS 201-995 was given 60 min before pulsatile GRF administration, the GH secretion pattern was reversed (pulse I: 2.4 +/- 0.7 ng/ml; pulse II: 2.0 +/- 0.9 ng/ml; pulse III: 4.4 +/- 2.1 ng/ml; pulse IV: 11.4 +/- 3.6 ng/ml). Radioimmunoassayable GRF levels were not different before and after administration of SMS 201-995. The half time of disappearance was 8.6 +/- 0.4 min before and 8.0 +/- 0.5 min after SMS 201-995. Basal thyrotrophin and insulin levels, which remained constant over the 8 h period with GRF only, decreased significantly after SMS 201-995 administration. These findings are compatible with a limited releasable GH pool which is exhausted by chronic GRF stimulation but can be conserved by prior administration of the somatostatin analogue. Thus, when somatostatin bioactivity tapers off, there is recovery of GRF-stimulated GH secretion.     

GROWTH HORMONE RELEASING FACTOR STIMULATES and SOMATOSTATIN INHIBITS PROLACTIN RELEASE FROM HUMAN MIXED SOMATOTROPH-LACTOTROPH ADENOMAS IN PERIFUSION

The effects of human growth hormone-releasing factor (hGRF) and somatostatin on growth hormone (GH) and prolactin (PRL) secretion in perifusion of dispersed cells of human GH-secreting adenomas, obtained from seven acromegalic patients with hyperprolactinaemia, were examined. Six adenomas stained for both GH and PRL on immunohistochemical examination, and one contained only GH. GH release was consistently stimulated in a dose-dependent manner by hGRF (0.01, 0.1 and 1.0 nM) in all seven adenomas studied. PRL release was undetectable in two adenomas. In the other five, hGRF stimulated PRL release and the response was dose related. Furthermore, the PRL response was significantly correlated with the GH response to hGRF. When cells were perfused with somatostatin (1 nM), GH and PRL secretion induced by hGRF was completely antagonized. We also evaluated the effect of hGRF pretreatment on the subsequent GH response to hGRF in two adenomas. hGRF pretreatment (1 nM) for 210 min reduced the GH response to a subsequent hGRF challenge (100 nM) in one tumour but not in the other. In conclusion, the PRL response is similar to the GH response in mixed GH and PRL-secreting adenomas after exposure to GH release-stimulating and inhibiting hormones. After prolonged exposure to hGRF, some adenomas remain responsive to further stimulation with hGRF, whereas others do not.     

CONTINUOUS SUBCUTANEOUS GROWTH HORMONE RELEASING FACTOR ANALOGUE AUGMENTS GROWTH HORMONE SECRETION IN NORMAL MALE SUBJECTS WITH NO DESENSITIZATION OF THE SOMATOTROPH

The effects of 8 day continuous subcutaneous (s.c.) infusions of growth hormone releasing hormone analogue (NLE27GRF(1-29)NH2 (GHRH.A)) on growth hormone (GH) secretion were studied in 14 normal adult male volunteers. GHRH.A was administered in doses which ranged from 7.5 to 120 ng/kg/min in doubling steps. Baseline GH profiles obtained during a 24 h infusion of normal saline in each subject were compared with profiles performed on days 1 and 8 of the infusion. Doses above 30 ng/kg/min augmented GH pulse amplitude and frequency. Doses of 60 ng/kg/min and 120 ng/kg/min appeared more satisfactory as these represented doses on the upwards slope of the dose response curve. However, at a dose of 120 ng/kg/min the GH secretion did not return to baseline for 12 of the 24 h. There was no evidence of desensitization or of depletion of the releasable GH pool with any dose. The possibility of treatment of short children with depot preparations of GHRH.A appears promising.     

IMMUNOCYTOCHEMICAL GROWTH HORMONE AND PROLACTIN IN PITUITARY ADENOMAS CAUSING ACROMEGALY AND THEIR RELATIONSHIP TO BASAL SERUM HORMONE LEVELS AND THE GROWTH RESPONSE TO THYROTROPHIN RELEASING HORMONE

Basal prolactin levels and the dynamics of growth hormone secretion in response to intravenous TRH in 34 untreated acromegalic patients were compared with immunocytochemical localization of growth hormone and prolactin in the adenoma cells. The serum prolactin level was elevated in 13 patients. All adenomas contained growth hormone detectable by immunocytochemistry. Twelve adenomas contained prolactin as well; of these only six were associated with hyperprolactinaemia. In six patients with a mixed adenoma the serum prolactin levels were in the normal range. In 17 patients the growth hormone value more than doubled after TRH. Eight of these patients had hyperprolactinaemia, and in only six did the adenomas contain immunoreactive prolactin; eight were associated neither with hyperprolactinaemia nor with positive immunostaining for prolactin. Eight adenomas had suprasellar extension, six of these were associated with hyperprolactinaemia. Of the seven adenomas with hyperprolactinaemia but no adenomatous prolactin immunoreactivity, four had supprasellar extension. In three patients hyperprolactinaemia was associated neither with prolactin immunoreactivity in the adenoma cells nor with suprasellar extension of the tumour. It is concluded that in acromegalics (1) there is no relation between hyperprolactinaemia, and the presence of prolactin in the adenoma cells; (2) the hyperprolactinaemia may be due either to adenomatous prolactin secretion or possibly suprasellar mass interference of hypothalamic control of normal prolactin cells; and (3) the presence of hyperprolactinaemia or immunocytochemically defined adenomatous prolactin does not correlate with the reactivity of the adenomatous growth hormone cells to TRH.     

NORMAL CIRCULATING IMMUNOREACTIVE GROWTH HORMONE RELEASING FACTOR (hGRF) CONCENTRATIONS IN PATIENTS WITH FUNCTIONAL HYPOTHALAMIC hGRF DEFICIENCY

Using a highly specific radioimmunoassay we have measured the concentrations of human growth hormone releasing factor (ir-hGRF) in the peripheral circulation of six individuals with acquired hypothalamic hGRF deficiency. Despite their hypothalamic dysfunction venous plasma ir-hGRF increased normally in every patient after the stimulus of a mixed breakfast, from an average concentration basally of 13.6 +/- 6.0 pg/ml to a maximum of 29.0 +/- 8.4 pg/ml (mean +/- SEM) at 120 min. The findings indicate that circulating hGRF is at least in large part extrahypothalamic in origin, which in turn implies a physiological role for hGRF in the periphery.     

PLASMA GLUCAGON RESPONSE TO ARGININE INFUSION IN CHILDREN AND ADOLESCENTS WITH DIABETES MELLITUS

Plasma glucagon response to an arginine infusion was studied in children and adolescents belonging to the following groups: (I) twenty-two controls; (II) six subjects with delayed insulin peak during oral GTT; (III) ten diabetics on diet and/or oral therapy; (IV) six newly diagnosed uncompensated diabetics; and (V) eight diabetics on insulin therapy. The fasting glucagon concentrations and rise of glucagon in response to arginine in the patients of Groups II, III and V were similar to those of the controls (Group I). The basal levels and rise of glucagon in the newly diagnosed, uncompensated dibetic children (Group IV) was elevated compared to the other groups but the difference was statistically not significant. The results of this investigation favour the hypothesis that the hyperglucagonaemia in diabetes is a secondary effect to the metabolic derangement, bearing a direct relationship to the degree of homeostastic decompensation.     

GROWTH HORMONE PRETREATMENT IN MAN BLOCKS THE RESPONSE TO GROWTH HORMONE-RELEASING HORMONE; EVIDENCE FOR A DIRECT EFFECT OF GROWTH HORMONE

The effect of pretreatment with biosynthetic methionyl human GH (hGH) on the GH response to GHRH has been studied in normal subjects. Eight volunteers were given either 4 IU hGH or placebo s.c. 12-hourly for 72 h before a GHRH test, or a single s.c. dose of 4 IU hGH 12 h before a GHRH test. Somatomedin-C (Sm-C) levels at the time of the GHRH tests were significantly elevated after treatment with hGH compared to placebo, and the GH response to GHRH was significantly attenuated. A further six subjects were given 2 IU hGH or placebo i.v., and i.v. GHRH 3 h later; there was no rise in Sm-C for the 5 h of the study after either treatment; nevertheless, the response to GHRH was completely abolished by pretreatment with hGH. These results demonstrate that GH can regulate its own secretion independently of changes in Sm-C levels, through a mechanism other than the inhibition of GHRH release. The attenuated response to GHRH in the presence of elevated Sm-C levels may be related to Sm-C, or be a more direct effect of the recently elevated GH levels.     

THE GROWTH HORMONE INDEPENDENT INSULIN-LIKE GROWTH FACTOR-I BINDING PROTEIN BP-28 IS ASSOCIATED WITH SERUM INSULIN-LIKE GROWTH FACTOR-I INHIBITORY BIOACTIVITY IN ADOLESCENT INSULIN-DEPENDENT DIABETICS

The relationship between the growth hormone independent insulin-like growth factor binding protein (BP-28) and serum insulin-like growth factor-I (IGF-I) inhibitory bioactivity observed in diabetic serum was investigated in five poorly controlled adolescent type I diabetics. We have measured the in-vitro effects of purified BP-28 from amniotic fluid on serum IGF-I stimulated and basal cartilage sulphation and compared serum IGF-I bioactivity obtained from 24-h serum profiles from each diabetic subject with serum concentrations of BP-28 and IGF-I measured by specific radioimmunoassays. Purified BP-28 inhibited serum IGF-I stimulated and basal cartilage sulphation in vitro, in a dose-dependent manner. Serum IGF-I bioactivity of diabetic sera showed a change in activity over the 24-h period, with peak inhibitory bioactivity observed in each subject between 0800 and 1000 h. BP-28 concentrations in each individual showed a marked circadian rhythm with maximum peak levels occurring at 0800 h. Long-acting insulin administered in the evening in two of the diabetic subjects blunted the maximum peak level attained compared to the three diabetics who had long-acting insulin administered in the morning. IGF-I concentrations did not change over the 24-h period in each individual. The data shows that BP-28 inhibits serum IGF-bioactivity on cartilage in vitro. The changes in inhibitory bioactivity observed in diabetic serum are associated with similar changes in serum concentrations of BP-28. We propose that BP-28 is one of the IGF-I inhibitors observed in diabetic serum and that it may play a role in retarded growth and delayed puberty often seen in the adolescent diabetic.