Free rather than total circulating insulin-like growth factor-I determines the feedback on growth hormone release in normal subjects

Pituitary GH secretion is feedback regulated by circulating IGF-I. However, it remains to be determined whether the feedback control is mediated through circulating free or total IGF-I. To study this, we compared the temporal changes in circulating levels of GH vs. free and total IGF-I during fasting. Seventeen healthy normal-weight subjects (body mass index 23.4 +/- 0.6 kg/m(2)) were studied during 80 h of fasting. Serum was assayed for GH every 3 h; total, free, and bioactive IGF-I, IGF binding protein (IGFBP)-1, -2, and -3 as well as IGFBP-1 bound IGF-I were assayed every morning. During fasting, mean 24-h GH levels increased from 1.41 +/- 0.20 to 3.01 +/- 0.46 and 2.09 +/- 0.30 microg/liter (d 1 vs. d 2 and 3; P < 0.03). After 24 h of fasting, free and bioactive IGF-I had decreased by 40 +/- 5 and 17 +/- 5%, respectively (P < 0.02), and both concentrations remained suppressed for the rest of the study. In contrast, total IGF-I remained unchanged until the end of d 3, at which levels were slightly reduced (P < 0.007). IGFBP-1 increased from 38 +/- 2 to 137 +/- 24, 212 +/- 32, and 214 +/- 22 microg/liter (d 1 vs. d 2, d 3, and end of d 3; P < 0.0001), and these changes closely paralleled those of IGFBP-1-bound IGF-I (P < 0.0001). IGFBP-2 increased only transiently at d 2 (P < 0.05), and IGFBP-3 remained unchanged. The increase in mean 24-h GH levels from d 1 to d 2 correlated inversely with the relative reduction in free IGF-I from d 1 to d 2 (r = -0.51; P = 0.04), i.e. the larger the reduction in free IGF-I, the larger the increase in GH. None of the other IGF-related parameters correlated with GH. In conclusion, the temporal relationship between the increase in GH and the reduction in free IGF-I supports the hypothesis that circulating free IGF-I mediates the feedback regulation of GH secretion.     

Leptin does not mediate short-term fasting-induced changes in growth hormone pulsatility but increases IGF-I in leptin deficiency states

CONTEXT: States of acute and chronic energy deficit are characterized by increased GH secretion and decreased IGF-I levels. Objective: The objective of the study was to determine whether changes in levels of leptin, a key mediator of the adaptation to starvation, regulate the GH-IGF system during energy deficit. DESIGN, SETTING, PATIENTS, AND INTERVENTION: We studied 14 healthy normal-weight men and women during three conditions: baseline fed and 72-h fasting (to induce hypoleptinemia) with administration of placebo or recombinant methionyl human leptin (r-metHuLeptin) (to reverse the fasting associated hypoleptinemia). We also studied eight normal-weight women with exercise-induced chronic energy deficit and hypothalamic amenorrhea at baseline and during 2-3 months of r-metHuLeptin treatment. MAIN OUTCOME MEASURES: GH pulsatility, IGF levels, IGF and GH binding protein (GHBP) levels were measured. RESULTS: During short-term energy deficit, measures of GH pulsatility and disorderliness and levels of IGF binding protein (IGFBP)-1 increased, whereas leptin, insulin, IGF-I (total and free), IGFBP-4, IGFBP-6, and GHBP decreased; r-metHuLeptin administration blunted the starvation-associated decrease of IGF-I. In chronic energy deficit, total and free IGF-I, IGFBP-6, and GHBP levels were lower, compared with euleptinemic controls; r-metHuLeptin administration had no major effect on GH pulsatility after 2 wk but increased total IGF-I levels and tended to increase free IGF-I and IGFBP-3 after 1 month. CONCLUSIONS: The GH/IGF system changes associated with energy deficit are largely independent of leptin deficiency. During acute energy deficit, r-metHuLeptin administration in replacement doses blunts the starvation-induced decrease of IGF-I, but during chronic energy deficit, r-metHuLeptin administration increases IGF-I and tends to increase free IGF-I and IGFBP-3.     

Free and total insulin-like growth factor (IGF)-I levels decline during fasting: relationships with insulin and IGF-binding protein-1

We have previously demonstrated that IGF-binding protein-1 (IGFBP-1) levels rise steadily during fasting, following an inverse relationship with insulin. The function of the IGFBP-1 rise is unknown, but it has been hypothesized that IGFBP-1 serves as a glucose counterregulatory hormone during fasting and hypoglycemia by binding free IGFs, thus inhibiting IGF interactions with IGF receptors. Our objective in this study was to determine levels of free and total IGFs during fasting together with their interrelationships with simultaneous IGFBP-1, insulin, and glucose levels. Our patient population consisted of 22 children, aged 6 months to 15 yr, who underwent diagnostic fasting studies in the General Clinical Research Center. Blood was sampled at baseline and at 6-h intervals for glucose, IGFBP-1, free and total IGF-I, and insulin. The fasting studies lasted 14-40 h and were terminated at a glucose concentration of less than 50 mg/dl (n = 11) or for the completion of the allotted fasting duration (n = 11). Of the children studied, 11 had ketotic hypoglycemia, 8 had no disorder, 2 had steroid-induced adrenal suppression, and 1 had recovered transient hyperinsulinism. During fasting, IGFBP-1 levels rose above mean initial levels of 27.1 +/- 13.4 ng/ml to a mean of 318.4 +/- 29.9 ng/ml at the end point (P < 0.001). Insulin levels declined from a mean initial level of 7.4 +/- 1.3 mU/ml to a mean level of 1.4 +/- 0.4 mU/ml at the end point (P < 0.001). Concomitantly, free and total IGF-I levels declined from initial levels of 0.48 +/- 0.08 and 180.3+/- 27 ng/ml, respectively, to mean levels of 0.10 +/- 0.02 ng/ml (P < 0.001) and 119.3 +/- 22 ng/ml (P = 0.001), respectively, at the end point. Levels of free IGF-I were inversely associated with IGFBP-1 over the course of fasting (P = 0.002). Similarly, total IGF-I was negatively associated with IGFBP-1 (P = 0.01). We conclude that free and total IGF-I levels decline steadily over the course of fasting. This decline in free IGF-I appears to be the result of the steady rise in IGFBP-1 that occurs as insulin declines. We speculate that the decline in IGF levels, controlled by the rise in IGFBP-1, serves to protect against possible insulin-like activity of the IGFs during fasting.     

Absence of proteolysis of insulin-like growth factor binding protein-3 in serum from patients with growth hormone deficiency

Insulin-like growth factor-I (IGF-I) is predominantly bound to IGF binding protein-3 (IGFBP-3), and free form of IGF-I (fIGF-I) may be bioactive in the circulation. Proteolysis of IGFBP-3, as reported in pregnant serum, results in the lowering of the affinity for IGF-I, thereby increasing the ratio of fIGF-I to total IGF-I (f/t IGF-I ratio). Conflicting results have been reported regarding the relationship between the proteolysis and growth hormone (GH)-IGF-I axis. Proteolysis of IGFBP-3 was previously reported to be present late at night in serum from pediatric subjects with GH receptor dysfunction (GHRD or "Laron-type dwarfism"). Recently, it was reported that proteolysis of IGFBP-3 could not be detected in adult patients with GH deficiency (GHD). The purpose of this study was to investigate the possible relationship between proteolysis of IGFBP-3 and GH in patients with GHD including pediatric cases. Here, proteolysis of IGFBP-3 measured by Western immunoblotting (ages 4-25 years; n=11) and f/t IGF-I ratio measured by immunoradiometric assay (ages 4-25 years; n=10) were studied in patients with GHD, which is similar to GHRD in terms of lowered GH function. There was no significant proteolysis of IGFBP-3 in the sera from the 11 patients with GHD. No proteolysis of IGFBP-3 was observed during a 24 hour period in sera obtained every two hours from two patients with GHD. f/t IGF-I ratio was not increased in plasma from the 10 patients with GHD. Our data suggest that proteolysis of IGFBP-3 is independent of the GH-IGF-I axis.     

Insulin treatment normalizes reduced free insulin-like growth factor-I concentrations in diabetic children

OBJECTIVE We have recently demonstrated multiple aberrations in the GH–IGF axis in the sera of children with untreated insulin-dependent diabetes mellitus (IDDM) which were restored after insulin replacement. However, the net result of these alterations in the IGF system on the concentrations of free/biologically available IGF-I in the serum have not been examined directly in diabetic children. In the present study, the effect of diabetes and subsequent insulin replacement on the circulating free IGF-I concentrations are assessed. DESIGN Fasting venous serum samples were obtained longitudinally, before and at various times after the initiation of insulin treatment in untreated diabetic subjects. SUBJECTS Ten prepubertal, aged (mean ± SEM) 6.3±1.0 years, and six adolescent, aged 12.7±1.1 years, subjects with newly diagnosed and untreated IDDM, and age and pubertal status-matched control children and adolescents were recruited. METHODS The serum samples were collected before initiating insulin treatment and 12–24h, 1 week, and 1 month thereafter in subjects with IDDM. Insulin doses ranged from 0.5 to 1.2 U/kg/day. MEASUREMENTS Free IGF-I concentration was assayed by a recently developed two-site immunoradiometric assay. Total IGF-I was measured by radioimmunoassay after acid–ethanol extraction of binding proteins. Differences in free and total IGF-I concentrations in IDDM subjects before and during insulin treatment were analysed by repeated measures analysis of variance followed by pairwise multiple comparisons test. In seven subjects with IDDM, where serum IGFBP-1 and IGFBP-3 concentrations, and IGFBP-3 protease activity had also been measured in a previous study, the relationship between these variables and circulating free IGF-I concentrations were examined by linear regression analysis. RESULTS Free IGF-I concentrations in prepubertal subjects with IDDM were 0.9±0.2, 1.5±0.3, 1.6±0.3 and 2.5±0.4μg/l before, 1 day, 1 week and 1 month after insulin treatment, respectively. Free IGF-I concentrations of control prepubertal children were 2.6±0.5μg/l. Pubertal subjects had higher free IGF-I concentrations than prepubertal subjects but demonstrated a similar type of pattern; before insulin 2.3±1.1, 1 day 3.8±1.3, 1 week 3.7±0.6, 1 month 6.5±1.5 vs pubertal controls 7.7±2.0μg/l. Total IGF-I concentrations were also reduced in untreated diabetic subjects and showed a slower pattern of normalization than free IGF-I concentrations. Free IGF-I concentrations correlated positively with total IGF-I and negatively with IGFBP-1 concentrations. There was no significant correlation between free IGF-I and either serum IGFBP-3 concentrations or IGFBP-3 protease activity. CONCLUSION Alterations in the IGF system during untreated IDDM lead to a reduction in circulating free IGF-I concentrations which is restored progressively during insulin treatment. An increase in free IGF-I precedes that of total IGF-I suggesting that the former is a more sensitive indicator of the metabolic status. An inverse correlation between free IGF-I and IGFBP-1 supports the hypothesis that IGFBP-1 plays an important role in the acute modulation of free IGF-I levels.     

No evidence of insulin-like growth factor-binding protein 3 proteolysis during a maximal exercise test in elite athletes

The aim of the present study was to examine the GH/insulin-like growth factor (IGF) axis, post exercise, with emphasis on IGF-binding protein (IGFBP)-3 proteolysis. Sixteen elite rowers (8 female/8 male) performed a stepwise submaximal rowing test followed by a 6- to 7-min-long maximal test. Blood samples were drawn at baseline, t = 0 (end of exercise) and t = 15, 30, 60, 90, and 120 min. GH and IGFBP-1 levels increased post exercise (P < 0.0005). Total IGF-I and IGF-II increased significantly post exercise (P < 0.0005) but not after albumin correction. Free IGF-I decreased after exercise with nadir coincidently with the IGFBP-1 peak, and free IGF-II decreased post exercise coincidently with the IGFBP-6 peak. IGFBP-3, measured by immunoradiometric assay, increased after exercise (P < 0.0005) but not after albumin adjustment. IGFBP-3 proteolysis (%) (measured by a specific in vitro proteolytic activity assay) and IGFBP-3 (measured by Western ligand blotting) were unchanged post exercise. Albumin-adjusted levels of IGFBP-6 increased by 18% (P < 0.0005), whereas IGFBP-2 and IGFBP-4 did not change significantly post exercise. Our findings do not support the hypothesis that short-term strenuous exercise induces major acute changes in the GH/IGF axis. To what degree the protein anabolic effects of regular exercise are associated with acute alterations in the GH/IGF axis remains unclear.     

Octreotide stimulates insulin-like growth factor-binding protein-1: a potential pituitary-independent mechanism for drug action.

As the long-acting somatostatin analog octreotide attenuates polypeptide hormone hypersecretion, it has recently been used to effectively treat acromegaly and gastrointestinal carcinoid tumors. Most growth-promoting actions of GH are mediated by insulin-like growth factor-I (IGF-I), which circulates complexed with multiple binding proteins (IGFBPs). IGFBP-1, a nonglycosylated peptide, competes with the IGF-I receptor for ligand binding and also regulates IGF action. To examine GH-independent mechanisms for octreotide regulation of the GH axis, circulating levels of IGFBP-1 were measured hourly after sc octreotide or saline administration in normal and GH-deficient adults. As IGFBP-1 is inhibited by insulin and GH, the dynamic pattern of alterations in GH and insulin levels was also assessed. After octreotide (100 micrograms) administration to 10 normal subjects, mean IGFBP-1 concentrations were stimulated from 23 +/- 4 to 72 +/- 18 micrograms/L (P < 0.007 vs. saline) after 2 h. Maximal induction of IGFBP-1 levels occurred after 3 h (325 +/- 115 micrograms/L; P < 0.02 vs. saline) and remained elevated (P < 0.005) for 6 h. IGFBP-1 was induced by octreotide in all subjects and was confirmed by Western ligand blotting. Insulin and GH levels preceding the rise in IGFBP-1 were unaltered by octreotide. Octreotide stimulated IGFBP-1 5-fold during a sustained fast in 4 normal subjects, despite equally suppressed insulin levels in both saline- and octreotide-treated groups. In 4 GH-deficient adults, IGFBP-1 levels were stimulated by octreotide from 16 +/- 3 to 146 +/- 36 and 154 +/- 28 micrograms/L after 3 and 4 h, respectively. In conclusion, the somatostatin analog octreotide induces IGFBP-1 independently of GH and insulin. As IGFBP-1 regulates the action of IGF-I, octreotide stimulation of IGFBPs may represent an additional pharmacological mechanism for attenuating the GH-IGF-I axis.     

Individualized low-dose growth hormone (GH) treatment in GH-deficient adults with childhood-onset disease: metabolic effects during fasting and hypoglycemia.

Growth hormone (GH) has insulin-antagonistic effects, and GH secretion is augmented during fasting and hypoglycemia. In the present study, 10 patients aged 21 to 28 years with childhood-onset GH deficiency (GHD) were studied during a 24-hour fast and a hypoglycemic glucose clamp before and after 9 months of GH replacement. During the 24-hour fast, blood glucose, serum insulin, and serum free fatty acid (FFA) levels were measured. In the hypoglycemic clamp, the counterregulatory hormones (plasma catecholamines, serum glucagon, and serum cortisol), serum insulin-like growth factor (IGF) binding protein-1 (IGFBP-1), serum FFA, and glucose uptake were measured. The GH dose was adjusted to the response of serum IGF-I, and the median GH dose was 0.14 IU/kg/wk (range, 0.08 to 0.19). At the end of the study, serum IGF-I levels were normalized in all but one patient, in whom serum IGF-I was above the normal range. Nine months of GH treatment did not cause any significant changes in the blood glucose level, insulin to glucose ratio, or serum FFA level during the 24-hour fast, and none of the patients experienced hypoglycemia either before or after GH treatment. However, GH therapy resulted in increased insulin resistance during hypoglycemia, without changes in the counterregulatory hormonal responses, serum IGFBP-1, or serum FFA.     

Low serum levels of free and total insulin-like growth factor I (IGF-I) in patients with anorexia nervosa are not associated with increased IGF-binding protein-3 proteolysis

Patients with anorexia nervosa (AN) are GH resistant, with elevated GH levels and low serum levels of total insulin-like growth factor I (IGF-I). IGF-I action is modulated by IGF-binding proteins (IGFBPs), and a variety of catabolic states has been characterized by the presence of increased IGFBP-3 proteolysis. The present study was performed to examine the levels of free IGFs in AN and to clarify whether AN is associated with increased IGFBP-3 proteolytic activity. In 24 patients and 10 age-matched controls, the fasting serum concentrations of free IGF-I and -II were measured using ultrafiltration by centrifugation. In addition, GH, GH-binding protein, total IGFs, IGFBP-1 to -4, and IGFBP-3 proteolytic activity were measured. The IGFBPs were measured by both immunoassays and Western ligand blotting. Twelve of the patients were restudied 3 months after a minor increase in body mass index. In AN, the levels of GH-binding protein, free and total IGF-I, free IGF-II, and IGFBP-3 were significantly reduced; total IGF-II, IGFBP-2, and IGFBP-4 levels were unchanged; and IGFBP-1 was increased. No increased IGFBP-3 proteolytic activity could be detected in AN. In conclusion, the mechanisms responsible for the adaption of the GH-IGF-IGFBP axis in AN may be different from other catabolic conditions, because the low levels of free and total IGF-I in AN are not associated with increased IGFBP-3 proteolysis.     

Serum concentrations of free and total insulin-like growth factor-I, IGF binding proteins -1 and-3 and IGFBP-3 protease activity in boys with normal or precocious puberty

OBJECTIVE  Circulating IGF-I and IGF binding protein-3 (IGFBP-3) levels both increase in puberty where growth velocity is high. The amount of free IGF-I is dependent on the IGF-I level and on the concentrations of the specific IGFBPs. Furthermore, IGFBP-3 proteolysis regulates the bioavailability of IGF-I. However, the concentration of free IGF-I and possible IGFBP-3 proteolytic activity in puberty has not previously been studied.
SUBJECTS AND MEASUREMENTS  We investigated serum levels of easily dissociable IGF-I concentrations and ultrafiltrated free IGF-I levels by specific assays in 60 healthy boys and in 5 boys with precocious puberty before and during GnRH agonist treatment. In addition, total serum IGF-I, IGFBP-1 and IGFBP-3 levels as well as IGFBP-3 protease activity were determined.
RESULTS  Free (dissociable and ultrafiltrated) IGF-I concentrations were significantly higher in pubertal boys than in prepubertal children and correlated significantly with the molar ratio between IGF-I and IGFBP-3 ( r =0.69, P <0.0001 and r =0.54, P =0.0008, respectively) and inversely with IGFBP-1 ( r =−0.47, P <0.0001 and r =−0.43, P =0.0003, respectively). Multiple regression analysis suggested that IGFBP-3 level, and not IGFBP-1, was the major determinant of the free IGF-I serum level in normal boys. Free IGF-I levels were elevated in boys with precocious puberty and decreased during GnRH treatment. IGFBP-3 proteolysis was constant throughout puberty (mean 20%).
CONCLUSIONS  We conclude that easily dissociable and ultrafiltrated free IGF-I serum levels are increased in boys with normal and precocious puberty and suggest that the increased free IGF-I serum concentration in puberty primarily reflects changes in total concentrations of IGF-I and IGFBPs secondary to increased GH secretion, but that it is not influenced by changes in IGFBP-3 proteolysis.     

High levels of 150-kDa insulin-like growth factor binding protein three ternary complex in patients with acromegaly and the effect of pegvisomant-induced serum IGF-I normalization.

OBJECTIVE: To assess the effect of pegvisomant-induced serum insulin-like growth factor 1 (IGF-1) normalization on IGF binding proteins 1, 2, 3 (IGFBP-1, IGFBP-2 and IGFBP-3), total, non-bound (45 kDa) and 150-kDa ternary complex-associated IGFBP-3, and in vivo IGFBP-3 proteolysis in patients with active acromegaly. DESIGN: The above parameters were measured in 16 patients (median age 57 (range 27-78)) with active acromegaly (serum IGF-I at least 30% above the upper limit of an age-related reference range after washout) in a paired manner on samples obtained after washout and the first occurrence of serum IGF-I normalization during pegvisomant therapy (median dose 15 mg/day (10-40 mg)). RESULTS: Total IGFBP-3 and 150-kDa ternary complex-associated IGFBP-3 were significantly elevated in patients at baseline compared to controls ((mean+/-SEM) 4345+/-194 vs. 3456+/-159 microg/L, P<0.01 and 3908+/-160 va. 3042+/-149 microg/L, P<0.01, respectively), but no significant difference in 45-kDa IGFBP-3 or in vivo IGFBP-3 proteolysis was observed. Serum IGF-I normalization (699+/-76 to 242+/-28 microg/L, P<0.0001) was associated with a fall in total IGFBP-3 (4345+/-194 to 3283+/-160 microg/L, P<0.001) due to a reduction in 150-kDa ternary complex-associated IGFBP-3 (3908+/-160 to 3008+/-140 microg/L, P<0.0001). 45 kDa IGFBP-3 and in vivo IGFBP-3 proteolysis were unaffected by GH receptor blockade (326+/-13 to 330+/-18 microg/L, P=0.86; 30+/-3.5 to 30+/-3.9%, P=0.75, respectively). CONCLUSIONS: GH receptor blockade in patients with acromegaly lowers IGF-I and 150-kDa IGFBP-3 ternary complex formation. 50 kDa ternary complex formation (not in vivo IGFBP-3 proteolysis) is GH dependent and measurement of 150-kDa ternary complex-associated IGFBP-3 may provide useful information regarding treatment efficacy in patients with acromegaly.     

The effect of submaximal exercise on immuno- and bioassayable IGF-I activity in patients with GH-deficiency and healthy subjects.

OBJECTIVE: Growth hormone (GH) increases during exercise, but the response of the insulin-like growth factor (IGF) system has not been as definitive. Therefore, we investigated the effect of the exercise-induced GH response on the circulating IGF-system in GH-deficient (GHD) and intact adults. DESIGN: Eight GHD adults were studied on 2 occasions, with (+GH) and without (-GH) GH administered (0.4 IU) during exercise (45 min of cycle ergometer exercise at the lactate threshold). Eight age-matched controls were only studied on one occasion. Blood samples were drawn at baseline, during and post-exercise. IGFBP-3 proteolysis was measured by an in vitro proteolytic activity assay, IGF-I bioactivity by novel IGF-I kinase receptor activation assay (KIRA) and other hormones by immunoassay. RESULTS: GH administration to GHD adults resulted in a serum GH peak similar to the exercise-stimulated GH response in GH intact controls, but exercise had only a small impact on the IGF system. IGF-I concentration was lower in controls but was only significantly lower than the +GH day. Neither IGF-I nor -II levels changed over time. IGFBP-1 demonstrated a time effect (P<0.01) in all groups, and a time x group interaction (P<0.01) with a rise at 75 min post-exercise, which was greater in the GHD subjects than controls. IGFBP-2 and -3 increased significantly (P<0.01) over time in the GHD subjects, but not in the controls. No change in IGFBP-3 proteolysis or IGF-I bioactivity was found during exercise or recovery in either group. CONCLUSION: Submaximal exercise induced minor changes in IGFBP-1, -2 and -3, without affecting IGFBP-3 proteolysis and IGF-I bioavailability. Thus the metabolic status during submaximal exercise does not require a change in plasma IGF-I bioavailability. Administration of GH to GHD adults does not result in changes in proteolysis or bioavailability.     

Evaluation of free insulin-like growth factor-I measurement on the diagnosis and follow-up treatment of growth hormone-deficient adult patients

OBJECTIVE: Insulin-like growth factor (IGF-I) and IGF binding protein-3 (IGFBP-3) are GH-dependent and their concentrations have been used in the diagnosis of GH deficiency. Recently, the free fraction of IGF-I has received more attention. The aim of the study was to assess the role of free IGF-I in the diagnosis of GH deficiency in adults, and in follow-up during treatment with recombinant human GH (rhGH). DESIGN AND PATIENTS: We studied 24 adult patients with pituitary disease and GH deficiency and 25 matched controls. Nine patients were re-evaluated after 6 months of treatment with rhGH (0.25 U/kg/week). MEASUREMENTS: Serum levels of IGF-I, free IGF-I, IGFBP-3 and IGFBP-1 were measured by immunoradiometric assay. RESULTS: Serum free IGF-I levels were significantly lower in the GH deficient group than in the normal group (mean: 0.84 and 1.32 micrograms/l respectively, P = 0.0009). Furthermore, serum IGF-I levels were also lower (mean: 92.24 and 230.47 micrograms/l respectively, P < 0.0001). 63% of patients had serum IGF-I concentration below the normal range. For free IGF-I, 52% of the GH deficient patients showed levels below the lowest value obtained for the normal group. Seventy-five percent of the patients showed at least one of the two determinations below the normal range. The free-total IGF-I ratio was significantly higher (P = 0.025) in GH deficient group (range: 0.19-21.29, mean: 2.53) than in normal controls (range: 0.2-2.15, mean: 0.6). Regarding IGFBP-3 and IGFBP-1 no differences were observed between the two groups. During rhGH treatment the increase in serum total and free IGF-I and IGFBP-3 paralleled the beneficial effects on body composition. CONCLUSIONS: Free IGF-I may be another useful method for the diagnosis of GH deficiency, particularly if related to total IGF-I concentration.     

Effect of mild hypoinsulinemia on renal hypertrophy: growth hormone/insulin-like growth factor I system in mild streptozotocin diabetes

The metabolic aberrations associated with diabetes mellitus profoundly alter the growth hormone/insulin-like growth factor I (GH/IGF-I) system. In severe experimental diabetes, serum IGF-I level is reduced, reflecting altered hepatic expression. On the other hand, increased levels of kidney IGF-I have been implicated in the development of diabetic kidney disease. This study aimed to examine the effect of mild experimental diabetes with hypoinsulinemia on both the systemic and renal GH/IGF-I systems in a low-dose streptozotocin (STZ)-induced diabetic rat. Diabetic animals with mild hypoinsulinemia developed renal hyperfiltration within 3 days of diabetes, whereas the renal size increased significantly only between 30 and 48 days of diabetes. Plasma GH levels were unchanged during the entire course of the study, but a decrease in serum IGF-I, IGF-binding protein 3 (IGFBP-3), and IGF-binding protein 4 (IGFBP-4) occurred after 10, 30, and 48 days. Kidney IGF-I and IGF-binding protein 1 (IGFBP-1) mRNA expression increased after 10 and 30 days of diabetes. A significant increase in kidney IGFBP-1/2, IGFBP-3, and IGFBP-4 proteins was seen after 48 days of diabetes. A positive correlations was found between renal growth and insulin/glucose ratio (r=.57), kidney IGF-I (r=.57), IGFBP-1 mRNA (r=.43), IGFBP-1/2 (r=.41), and IGFBP-4 levels (r=.40). These results demonstrate hyperfiltration within 3 days of diabetes and a similar response in the IGF-I system in mildly and severely hypoinsulinemic rats; however, renomegaly develops slower in mildly diabetic rats at least partly due to delayed changes in the renal IGF and IGF BPs.     

Effects of chronic slow release-lanreotide treatment on insulin-like growth factor system and metabolic parameters in acromegalic patients

Insulin and IGF binding protein (IGFBP)-1 are linked by negative association. Somatostatin (SS) reduces insulin secretion by acting on pancreatic β-cell and also by decreasing GH secretion. SS analogues in acromegaly reduce total IGF-I levels inhibiting GH hypersecretion, but they also reduce free IGF-I bioactivity increasing IGFBP-1 levels by inducing insulin decrease. In 13 acromegalic patients we studied GH, IGF system, insulin, and glucagon levels at baseline and at 7 days, 1 and 6 months under treatment with slow release (SR)-lanreotide (LAN) (60 mg im monthly). The hormonal and metabolic response to arginine (ARG) (0.5 g/kg iv in 30 min) was also studied at each time point. LAN decreased GH, total IGF-I, and IGFBP-3 levels at each time point. Insulin and glucagon levels were reduced, while IGFBP-1 and free IGF-I levels were increased by LAN at day 7 and after 1 month only. LAN did not modify the GH, insulin, glucagon, glucose, and IGFBP-1 responses to ARG. At each time point ARG-induced insulin increase was coupled to increase in glucagon and IGFBP-1 levels. This study shows that acromegalic patients under chronic treatment with LAN display: a) inhibition of GH and total IGF-I levels, not coupled to persistent decrease in free IGF-I levels; b) persistent decrease in IGFBP- 3 but transient decrease and increase in insulin and IGFBP- 1, respectively; c) unchanged hormonal and metabolic response to ARG. Our findings also show that ARG stimulates IGFBP-1 despite marked increase in insulin secretion; this escape from the negative relationship linking insulin and IGFBP- 1 would likely reflect the ARG-induced glucagon increase.     

Insulin regulation of insulin-like growth factor binding protein-1 in obese and nonobese humans.

Insulin is the principal regulator of hepatic insulin-like growth factor binding protein-1 (IGFBP-1) production, mediating the rapid decrease in plasma IGFBP-1 in response to nutritional intake. In this study, we defined IGFBP-1 regulation by insulin in upper and lower body obesity, conditions associated with insulin resistance and chronic hyperinsulinemia. Overnight postabsorptive IGFBP-1 levels in obese and nonobese women showed an inverse, nonlinear relationship with plasma insulin concentrations. Maximum suppression of IGFBP-1 was seen at 70-90 pmol/L plasma insulin. Both groups of obese women had mean fasting plasma insulin concentrations above this threshold level and, consequently, markedly suppressed IGFBP-1 levels. To assess the dynamics of insulin regulated IGFBP-1, 10 obese and 8 nonobese women were studied during sequential saline infusion (0-90 min), hyperinsulinemia (insulin infusion; 90-210 min) and hypoinsulinemia (somatostatin + GH infusion; 210-330 min). Insulin infusion rapidly decreased plasma IGFBP-1 levels in nonobese subjects (60% decrease in 2 h), but had little or no further suppressive effect in obese subjects. Complete insulin withdrawal resulted in a significant rise in plasma IGFBP-1 concentrations in all subjects, but the response was blunted in obese compared to nonobese groups. In contrast to plasma IGFBP-1, IGF-I concentrations did not vary during hyper- and hypoinsulinemic infusion periods and were not significantly different between groups. Basal GH levels were significantly higher in nonobese when compared to obese women, but did not change with infusions. In conclusion, low IGFBP-1 levels in obesity are related to elevated insulin levels which are, in turn, related to body fat distribution and insulin resistance. The chronically depressed levels of IGFBP-1 may promote IGF bioactivity as well as its feedback regulation of GH secretion, thus contributing to the metabolic and mitogenic consequences of obesity. In addition, our findings imply that hepatic insulin sensitivity in terms of IGFBP-1 production is preserved despite peripheral insulin resistance in obesity.     

Wasting in the acquired immune deficiency syndrome is associated with multiple defects in the serum insulin-like growth factor system

OBJECTIVE The aim of this investigation was to characterize the GH–IGF axis of patients with AIDS associated wasting. A special emphasis was placed on determining whether IGF binding proteins (IGFBPs) of patients who have lost more than 10% of their ideal body mass are structurally different from the IGFBPs of patients with no weight loss. DESIGN AND PATIENTS A cross-sectional study of 11 AIDS patients was performed to determine whether the IGF system is abnormal in AIDS patients with wasting. Seven additional AIDS patients were followed longitudinally to determine whether AIDS patients experience long-term changes to their IGF system. MEASUREMENTS Serum levels of GH and IGF-I were measured by radioimmunoassay, IGF-II was measured by radioreceptor assay, and IGFBP-1 was measured by an enzyme linked immunoassay. IGFBP-3 and IGFBP-3 protease activity were measured by ligand blotting and a BP-3 protease assay, respectively. IGFBP-3 ternary complex formation and IGFBP-1 phosphovariants were analysed by non-denaturing PAGE. RESULTS AIDS patients who had lost more than 10% of their ideal body mass demonstrated a 55% reduction in serum IGF-I (81 vs 179 μg/l) and a 70% reduction in IGF-II (226 vs 776 μg/l), compared to healthy HIV negative subjects. IGF-I levels were depressed, in some patients, despite high serum levels of GH. AIDS patients who had lost more than 10% of their ideal body mass had low levels of IGFBP-3 and a reduced ability to form the IGFBP-3 ternary complex. The IGFBP-3 ternary complex could be restored only upon addition of pure IGFBP-3 and acid labile subunit to serum. Serum IGFBP-1 was increased more than threefold compared to control subjects (90 vs 24 μg/l). IGFBP-1 was present as a free phosphoprotein in AIDS patients with low levels of IGF-I and in a bound form when serum IGF-I levels were normal. Changes in the GH–IGF axis were sustained for up to 25 months in AIDS patients with wasting. CONCLUSIONS AIDS wasting is associated with a GH resistant state that results in low levels of serum IGF-I, IGF-II and IGFBP-3, elevated levels of phosphorylated IGFBP-1, and a reduced ability to form the IGFBP-3 ternary complex.     

Free/dissociable insulin-like growth factor (IGF)-I, not total IGF-I, correlates with growth response during growth hormone treatment in children born small for gestational age

CONTEXT: IGF-I plays an important role in pre- and postnatal growth. Its serum levels are regulated by metabolic and genetic factors. Mean total IGF-I in short, small for gestational age (SGA) children is reduced, but within the normal range. Free/dissociable IGF-I is the bioactive form of IGF-I. Objectives: The aim of the study was to investigate changes in free IGF-I during GH treatment in short SGA children and to evaluate whether free IGF-I levels contribute to predicting first-year growth response and/or adult height. DESIGN, SETTING, AND INTERVENTION: We conducted a randomized, double-blind GH dose-response study with a GH dose of either 1 mg/m(2).d (group A) or 2 mg/m(2).d (group B). Free IGF-I, total IGF-I, and IGF binding protein (IGFBP)-3 were determined at baseline, after 1 and 5 yr, at stop, and 6 months after GH discontinuation. PATIENTS: We studied 73 (46 male) short SGA children (36 group A) with a baseline mean age of 7.7 (2.2) yr and a mean GH duration of 8.2 (2.1) yr. MAIN OUTCOME MEASURES: Untreated SGA children had a mean free IGF-I sd score (SDS) of -0.2 (1.2), not related to total IGF-I. During GH therapy, free IGF-I significantly increased to 1.6 (0.7) SDS, as did total IGF-I and IGFBP-3 [2.0 (0.8) and 1.3 (0.9), respectively]. Multiple regression analysis showed that baseline free IGF-I and IGFBP-3 were negatively correlated with adult height SDS, whereas baseline bone age delay, target height SDS, baseline height SDS, and GH dose were positively correlated. Free IGF-I was also negatively correlated with first-year growth response. CONCLUSIONS: Circulating baseline free IGF-I and IGFBP-3 were better predictors for adult height in GH-treated SGA children than total IGF-I, or total IGF-I to IGFBP-3 ratio. This suggests a possible role for free IGF-I measurement in predicting the effect of GH therapy in short SGA children.     

Effects of recombinant insulin-like growth factor-I (IGF-I) and growth hormone on serum IGF-binding proteins in calorically restricted adults.

To determine the effects of exogenous insulin-like growth factor-I (IGF-I) and GH on IGF-binding proteins (IGFBP)-1, -2, and -3, six healthy nonobese adult volunteers underwent two 2-week periods of diet restriction (20 Cal/kg.day), and during the last 6 days of the first period received either IGF-I (12 micrograms/kg.h by iv infusion over 16 h) or GH (0.05 mg/kg.day by sc injection). During the second 2-week study period, the alternate hormone was given. IGFBP-1 and -2 concentrations were determined by specific RIA, and changes in IGFBP-3 were assessed by ligand blotting. Free IGF-I concentrations were measured by size-exclusion high pressure liquid chromatography, followed by RIA. Diet restriction alone did not affect either IGFBP-1 or -2 significantly. IGF-I treatment increased IGFBP-1 from 78 +/- 46 ng/mL (mean pretreatment) to 137 +/- 64 ng/mL (P less than 0.001; mean for the last 4 days of IGF-I). IGF-I also caused an increase in IGFBP-2 from 315 +/- 136 to 675 +/- 304 ng/mL (P less than 0.001). GH injections caused a modest decline in IGFBP-1 concentrations but had no effect on IGFBP-2 concentrations. By ligand blotting, both IGF-I and GH caused a modest increase in IGFBP-3 band intensity. In three subjects diet restriction alone caused a small decrease in IGFBP-3 hand intensity, and this was reversed by hormone treatment. Free IGF-I concentrations in serum were increased from 1.6% to 4.4% of the total IGF-I during IGF-I infusions. GH injections caused a smaller increase in free IGF-I concentrations. The results show significant increases in IGFBP-1 and -2 during IGF-I infusion. The change in IGFBP-3, while significant, is quantitatively less than that in experimental animals that have been given IGF-I while undergoing dietary restriction. The net effect of the changes in these three forms of IGFBPs is not sufficient to maintain a normal IGF-I-binding capacity in serum, because free IGF-I levels were increased disproportionately during the IGF-I infusions. Because hypoglycemia was noted in these subjects despite insulin suppression, these alterations in IGFBPs might have changed the tissue bioavailability of IGF-I and facilitated its hypoglycemic effects.     

The growth hormone-insulin-like growth factor axis in adult patients with Prader Willi syndrome.

OBJECTIVE: Prader Willi syndrome (PWS) is a genetic disorder characterised by short stature, extreme obesity, body composition abnormalities and behavioural problems. Hypothalamic dysfunction with low growth hormone (GH) secretion and low levels of GH-related growth factors is common. However, the interpretation is difficult because of the concomitant obesity, which in itself has important effects on the GH-IGF-I-system. We therefore analysed free and total IGF-I, total IGF-II and their binding proteins in obese PWS adults before and during 12 months GH treatment. Seventeen adults, 9 men and 8 women, 17-32 years of age with a mean BMI of 35+/-2.3 kg/m(2) participated. All had clinical PWS. They were randomized to treatment with placebo or GH (Genotropin, Pharmacia) 0.8 IU (0.26 mg) for one month, and then 1.6 IU (0.53 mg) for 5 months. Subsequently GH doses were individually titrated to normal levels for age. Overnight fasting levels of free and total IGF-I, total IGF-II, GH-binding protein (GHBP) and IGF-binding proteins (IGFBP)-1, -2 and -3 were measured by RIA at baseline and after 6 and 12 months GH treatment. Mean levels+/-SEM of free IGF-I were 1.02+/-0.12 microg/L as compared to a reference value of 0.95+/-0.15 microg/L, while mean total IGF-I was 128+/-15 microg/L (212+/-14 microg/L) and total IGF-II was 704+/-45 microg/L (825+/-34 microg/L). Mean IGFBP-2 158+/-24 microg/L (764+/-72 microg/L) and GHBP 2.65 nmol/L (1.71+/-0.3 1nmol/L). IGFBP-1 and IGFBP-3 levels were normal. Both free and total IGF-I increased significantly during GH treatment, while IGF- and GH-binding proteins as well as total IGF-II remained unchanged. CONCLUSION: Low total IGF-I and, in relation to the obesity, low free IGF-I, low total IGF-II and non-suppressed IGFBP-1 are consistent with the concept that PWS patients have a partial GH deficiency, which can be corrected by GH replacement.