Acid-labile subunit in growth hormone excess and deficiency in adults: evaluation of its diagnostic value in comparison with insulin-like growth factor (IGF)-I and IGF-binding protein-3

In serum, insulin-like growth factors (IGFs) are primarily present as a approximately 150 kDa ternary protein complex, which consists of IGFs, IGF binding protein-3 (IGFBP-3), and acid-labile subunit (ALS). Like IGF-I and IGFBP-3, serum levels of ALS depend on growth hormone (GH). To date, the diagnostic relevance of ALS in adult GH deficiency (GHD) has remained uncertain. To clarify the clinical utility of ALS measurement in adults, we measured serum ALS levels in patients with adult GHD or acromegaly. We also measured the levels of serum IGF-I and IGFBP-3 in these patients to compare the utility of ALS with IGF-I and IGFBP-3 as a marker of GH secretion. Serum ALS was measured by radioimmunoassay (RIA) kit, and serum IGF-I and IGFBP-3 were measured by immunoradiometric assay (IRMA) kits in 56 patients with adult GHD (adult-onset (AO)/child-onset (CO), 13/43) and 43 patients with acromegaly. Serum ALS levels were less than 5th percentile in 40 of 56 (71%) patients with adult GHD (32/43 (74%) for CO and 8/13 (62%) for AO), and more than 95th percentile in 38 of 43 (88%) patients with acromegaly, respectively. Serum IGF-I levels were less than -1.96 SD in 43 of 56 (77%) patients with adult GHD (35/43 (81%) for CO and 8/13 (62%) for AO) and more than +1.96 SD in 42 of 43 (98%) patients with acromegaly, respectively. Serum IGFBP-3 levels were less than -1.96 SD in 51 of 56 (91%) patients with adult GHD (42/43 (98%) for CO and 9/13 (69%) for AO) and more than +1.96 SD in 31 of 43 (72%) patients with acromegaly, respectively. These data suggested that measurement of ALS offers no advantage over measurements of serum IGF-I and IGFBP-3. Furthermore, our results indicate that serum IGFBP-3 is the most suitable marker of GH secretion for adult GHD, especially CO, while IGF-I may be the most useful in acromegaly.     

Long-term effects of insulin-like growth factor (IGF)-I treatment on serum IGFs and IGF binding proteins in adolescent patients with growth hormone receptor deficiency

OBJECTIVE The aim of this investigation was to study the effect of relatively high dose IGF-I therapy given for several months, on serum levels of IGF-I, IGF-II and IGFBP-3, and on IGF-I pharmacokinetics In patients with growth hormone insensitivity due to GH receptor dysfunction. DESIGN AND PATIENTS Two adolescent subjects from Ecuador were treated with recombinant IGF-I at a dosage of 120μg/kg s.c. twice dally, in combination with a GnRH analogue for 8 months. MEASUREMENTS Serum was sampled at baseline and at 3–8 months, for determination of IGF-I, IGF-II and IGFBP-3 by radioimmunoassay, and for evaluation of IGFBPs and IGFBP-3 protease activity by Western ligand blot and protease assay, respectively. RESULTS Peak serum IGF-I levels ranged from 272 to 492μg/l. Mean serum IGF-II levels were decreased concurrently with the increase in IGF-I. Serum IGFBP-3 levels failed to rise with prolonged IGF-I treatment. There was no apparent change In the half-life of IGF-I during the treatment period. CONCLUSIONS IGF-I administration does not increase serum levels of IGFBP-3 or significantly alter IGF-I pharmacokinetics.     

Guidelines for the treatment of growth hormone excess and growth hormone deficiency in adults

The V Consensus Group Meeting on 'Guidelines for Treatment of GH Excess and GH Deficiency in the Adult' was an international workshop held on February 20-22, 2006 in Santa Monica, California, USA. The principal aim of this meeting was to provide guidelines for the evaluation and treatment of adults with either form of abnormal GH secretion: GH excess or GH deficiency. The workshop included debates as to the choice of primary treatment, discussions of the targets for adequate treatment, and concluded with presentations on open issues germane to adult GH treatment including the role of GH in malignancies, the impact of longterm treatment on bone, and a cost-benefit analysis. The meeting was comprised of 66 delegates representing 13 different countries.     

The insulin-like growth factor (IGF)-binding proteins and IGF bioactivity in Laron-type dwarfism.

Laron-type dwarfism (LTD) is caused by a variable defect in the GH receptor gene and is, therefore, an ideal model to study the physiology of the insulin-like growth factors (IGFs) and their binding proteins (IGFBPs) in the complete absence of GH action. In this study we examined the overnight variation of the IGFs, IGFBPs, and IGF bioactivity in two prepubertal subjects with LTD. Subject 1 was a 14-yr-old female, 103 cm tall (-8.3 SD), and subject 2 was a 11.5-yr-old male, 103.6 cm tall (-5.9 SD). Both had serum IGF-I levels below 0.07 U/mL and low constant serum IGF-II levels overnight (185 +/- 10 and 232 +/- 8 micrograms/L), despite high serum GH levels [mean GH, 65 (32.5 micrograms/L) and 53 mU/L (26.5 micrograms/L)]. Serum IGFBP-1 levels increased overnight (from 24 and 22 micrograms/L at 2000 h to 83 and 110 micrograms/L at 0800 h) as serum insulin levels fell [from 19 (136 pmol/L) and 17 mU/L (122 pmol/L) at 2000 h to less than 2 (less than 14 pmol/L) and 5 mU/L (36 pmol/L) at 0800 h] in subjects 1 and 2, respectively. Serum IGFBP-2 levels remained constant overnight, as assessed on Western Ligand blotting and, despite the changes in IGFBP-1, remained the most prominent IGFBP throughout. On size separation, most of the IGF-II (greater than 60%) eluted with IGFBP-2 and the other low mol wt IGFBPs. Serum IGFBP-3 levels were reduced, and IGFBP-3 was not the major IGF carrier in LTD serum, in contrast to normal serum. An IGFBP-3-specific protease that was heat sensitive and cation dependent was identified as the cause of an apparent overnight rise of serum IGFBP-3 levels. No IGFBP-3 variation and no proteolytic activity was seen in normal serum or rapidly separated LTD plasma. Serum IGF bioactivity, measured in a porcine cartilage bioassay, was 0.18 and 0.55 U/mL in subjects 1 and 2; differences in bioactivity between subjects did not relate to serum IGF-II levels, but, rather, to differences in IGFBP-3 levels. Serum IGF bioactivity was not constant overnight and varied in a similar fashion in both subjects 1 and 2, with reduction in bioactivity between 0600-0800 h by 55% and 32%, suggesting the presence of inhibitory factors in the LTD serum; this decrease coincided with the rise in serum IGFBP-1 levels.(ABSTRACT TRUNCATED AT 400 WORDS)     

Long-term treatment with recombinant insulin-like growth factor (IGF)-I in children with severe IGF-I deficiency due to growth hormone insensitivity

CONTEXT: Children with severe IGF-I deficiency due to congenital or acquired defects in GH action have short stature that cannot be remedied by GH treatment. OBJECTIVES: The objective of the study was to examine the long-term efficacy and safety of recombinant human IGF-I (rhIGF-I) therapy for short children with severe IGF-I deficiency. DESIGN: Seventy-six children with IGF-I deficiency due to GH insensitivity were treated with rhIGF-I for up to 12 yr under a predominantly open-label design. SETTING: The study was conducted at general clinical research centers and with collaborating endocrinologists. SUBJECTS: Entry criteria included: age older than 2 yr, sd scores for height and circulating IGF-I concentration less than -2 for age and sex, and evidence of resistance to GH. INTERVENTION: rhIGF-I was administered sc in doses between 60 and 120 microg/kg twice daily. MAIN OUTCOME MEASURES: Height velocity, skeletal maturation, and adverse events were measured. RESULTS: Height velocity increased from 2.8 cm/yr on average at baseline to 8.0 cm/yr during the first year of treatment (P < 0.0001) and was dependent on the dose administered. Height velocities were lower during subsequent years but remained above baseline for up to 8 yr. The most common adverse event was hypoglycemia, which was observed both before and during therapy. It was reported by 49% of treated subjects. The next most common adverse events were injection site lipohypertrophy (32%) and tonsillar/adenoidal hypertrophy (22%). CONCLUSIONS: Treatment with rhIGF-I stimulates linear growth in children with severe IGF-I deficiency due to GH insensitivity. Adverse events are common but are rarely of sufficient severity to interrupt or modify treatment.     

Circadian variation in serum free and total insulin-like growth factor (IGF)-I and IGF-II in untreated and treated acromegaly and growth hormone deficiency

OBJECTIVE: It is generally accepted that there is no clinically significant circadian variation in total insulin-like growth factor (IGF)-I or total IGF-II in healthy subjects. In contrast there is a significant nocturnal decrease in free IGF-I in healthy subjects, corresponding to the nocturnal increase in IGF binding protein-1. In this study we have investigated the circadian variation in circulating free IGF-I and IGF-II in patients with acromegaly and patients with adult onset growth hormone deficiency. PATIENTS: Seven acromegalic patients were studied with and without treatment with a slow-release formulation of octreotide. Seven GH-deficient patients were studied without GH replacement. In addition 5 of the GH-deficient patients were studied during GH replacement. DESIGN: Serum samples were obtained every hour for 24 h. Free IGF-I and IGF-II were measured every 2nd hour. Total IGF-I and IGF-II were measured every 2nd hour (acromegalic patients) or every 4th hour (GH deficient patients). IGF binding protein (IGFBP)-1 was measured every 2nd hour (acromegalic patients) or every hour (GH deficient patients). RESULTS: In the untreated acromegalic patients there was a significant nocturnal decrease in free IGF-I, but not free IGF-II, before treatment. During treatment there was a significant nocturnal decrease in both free IGF-I and free IGF-II. Peak values of free IGF-I were 112% and 75% above trough (treatment and withdrawal, respectively). In the GH-deficient patients there were no significant circadian variations in free IGF-I or free IGF-II in either of the two occasions. In contrast, there was a significant circadian variation of total IGF-I after adjustment for changes in plasma volume in both treated and untreated acromegaly and GH deficiency in all cases with a peak between 0300 h and 0400 h. The nocturnal increase in total IGF-I ranged from 20% to 35%. CONCLUSIONS: A significant circadian variation in free IGF-I and IGF-II was demonstrated in acromegalic patients. In contrast no significant circadian variation in free IGF-I and IGF-II was found in GH-deficient patients. Part of the variations may be due to poorly understood variations in IGF-I release. It is not clear whether and to what extent the observed circadian changes in free and total IGF-I are involved in circadian changes in IGF-I bioactivity.     

Diurnal variation in serum insulin-like growth factor (IGF)-I and IGF binding protein-3 concentrations during daily subcutaneous injections of recombinant human growth hormone in GH-deficient adults

OBJECTIVE  Whereas there seems to be little, if any, circadian variation in circulating concentrations of IGF-I and IGFBP-3 in healthy subjects, there are conflicting reports on this issue in GH-deficient patients treated with GH as a daily subcutaneous injection. We have therefore investigated the 24-hour serum profiles of IGF-I and IGFBP-3 concentrations after one week and more than one year of GH treatment.
PATIENTS  Eleven subjects, with adult onset GH deficiency mainly caused by pituitary adenomas were included in the study.
DESIGN AND MEASUREMENTS  In an open study, six subjects (three women and three men; age (±SEM) 41.2±3.9 years) were investigated after one week of GH therapy and five subjects (three women and two men; age (±SEM) 61.4±3.3 years) were investigated after 13–40 months of GH therapy. The GH injections were given at 2000 h. The subjects were hospitalized for 24-hour blood sampling at 1-hour intervals and serum concentrations of GH, IGF-I and IGFBP-3 were determined.
RESULTS  There was a significant diurnal variation in serum IGF-I and IGFBP-3 concentrations both in the subjects who had received GH for one week and in those who had received GH treatment for more than one year. The serum concentrations of IGF-I and IGFBP-3 were highest in the morning and lowest during night-time and early morning. The molar IGF-I/IGFBP-3 ratio varied significantly with time in both groups of patients in a similar way as IGF-I and IGFBP-3 indicating a more pronounced variation in IGF-I compared with IGFBP-3 in response to the GH therapy.
CONCLUSION  Significant diurnal variations in serum IGF-I and IGFBP-3 concentrations occur after one week and more than one year of GH treatment with daily subcutaneous injections. The results indicate that the free fraction of IGF-I may exhibit a diurnal variation.     

Roles of insulin-like growth factor (IGF) binding proteins in regulating IGF actions

The insulin-like growth factor (IGF) system is an evolutionarily conserved signaling pathway that is composed of two IGF ligands, two IGF receptors, and six IGF binding proteins. Studies in a variety of species suggest that the IGF signaling system plays a fundamental role in regulating embryonic growth and differentiation as well as in maintaining homeostasis in the adults. In extracellular fluids, IGFs are present in a complex with an IGF-binding protein (IGFBP). These IGFBPs are traditionally thought to function as carrier proteins and regulate circulating IGF turnover, transport, and distribution. Locally expressed IGFBPs can also inhibit and/or potentiate IGF activities. Recent studies have shown that some IGFBPs, in particular IGFBP-3 and -5, possess intrinsic biological activities and can act through IGF-independent mechanisms. In this article, we provide a brief overview of our current understanding of the IGF signaling system with particular reference to IGFBPs.     

Is further evaluation for growth hormone (GH) deficiency necessary in fibromyalgia patients with low serum insulin-like growth factor (IGF)-I levels?

OBJECTIVE: Fibromyalgia (FM) is characterized by diffuse pain, fatigue, and sleep disturbances; symptoms that resemble the adult growth hormone (GH) deficiency syndrome. Many FM patients have low serum GH levels, with a hypothesized aetiology of dysregulated GH/insulin-like growth factor (IGF)-I axis. The aim of this study was to assess the GH reserve in FM patients with low serum IGF-I levels using the GH-releasing hormone (GHRH)-arginine test. DESIGN: We retrospectively reviewed the GHRH-arginine data of 77 FM patients with low serum IGF-I levels referred to our tertiary unit over a 4-year period. RESULTS: Of the 77 FM patients, 13 patients (17%) failed the GHRH-arginine test. Further evaluation with pituitary imaging revealed normal pituitary glands (n=7), coincident microadenomas (n=4), empty sella (n=1) and pituitary cyst (n=1), and relevant medical histories such as previous head injury (n=4), Sheehan's syndrome (n=1), and whiplash injury (n=1). In contrast, the remaining 64 patients (83%) that responded to the GHRH-arginine test demonstrated higher peak GH levels compared to age and BMI-matched controls (n=24). CONCLUSION: Our data shows that a subpopulation of FM patients with low serum IGF-I levels will fail the GHRH-arginine test. We, thus, recommend that the GH reserve of these patients should be evaluated further, as GH replacement may potentially improve the symptomatology of those with true GH deficiency. Additionally, the increased GH response rates to GHRH-arginine stimulation in the majority of FM patients with low serum IGF-I levels further supports the hypothesis of a dysregulated GH/IGF-I axis in the pathophysiology of FM.     

Regulation of insulin-like growth factor (IGF) binding proteins in transgenic mice with altered expression of growth hormone and IGF-I.

The insulin-like growth factors (IGFs) are present in extracellular fluids bound to specific, high affinity IGF binding proteins (IGFBPs). IGFBPs are believed to mediate IGF transport to tissues and to modulate their actions on target cells. To determine whether IGF-I can modulate IGFBP concentrations in blood and to distinguish the effects of IGF-I from those of GH, we assessed serum IGFBP concentrations in four genotypically distinct groups of sibling transgenic (Tg) mice that differed in respect to their expression of IGF-I and GH. This unique physiological situation was created by crossing IGF-I Tg mice to GH-deficient, dwarf mice in whom somatotrophs were genetically ablated by the expression of a diphtheria toxin transgene in the somatotrophs. Because both Tg mouse lines are hemizygous for their respective transgene, progeny of the cross differ genotypically, according to whether or not they carry one or both transgenes, and phenotypically in regard to their relative expression of IGF-I and GH. GH-deficient mice showed a 15.7-fold decrease in serum IGF-I and a 5.5-fold decrease in serum IGFBP-3, but no change in a serum doublet band of 29,000 to 34,000 Mr, as assessed by ligand blotting. When IGF-I was expressed in the GH-deficient mice, serum levels of IGF-I and IGFBP-3 were 69% and 64% of those in normal sera, respectively. The 29,000 to 34,000 Mr doublet bands also increased. The ternary 150 kilodalton IGF-IGFBP complex, however, was not restored, presumably because IGF-I has no influence on the expression of the acid-labile subunit in this complex. In mice with IGF-I overexpression, serum IGFBP-3 was increased 2.1-fold and the sum of the 29,000 to 34,000 doublet bands was increased 2.9-fold. Immunoblotting showed that the changes in the 29,000 to 34,000 Mr forms observed by ligand blotting appeared to be predominantly due to changes in IGFBP-2. The results show that IGF-I can induce IGFBP-3 and IGFBP-2 independently of GH and that IGF-I is a major controller of these binding proteins.     

Resistance to subcutaneous and intramuscular insulin associated with deficiency of insulin-like growth factor (IGF) 2

A diabetic patient is described whose serum was deficient in IGF 2. The patient responded appropriately to intravenous insulin but was resistant to subcutaneous and intramuscular insulin. His serum degraded insulin in vitro. This degradation was inhibited by IGF 2 and to a lesser extent by IGF 1 and insulin. We propose that this patient inactivated insulin at the injection site because of an insulin protease in his tissues that would normally be inhibited by serum IGF 2.     

Value of insulin-like growth factor system markers in the assessment of growth hormone status.

Insulin-like growth factor-I (IGF-I) has been measured extensively in a variety of clinical settings. Total IGF-I frequently is used to assess the clinical impact of disorders of GH secretion and to monitor patients' response to therapy. It does not have sufficient precision to be used as a stand-alone test in the diagnosis of GH deficiency. Free IGF-I, IGF binding protein-3, or acid-labile subunit may provide useful information regarding GH secretion in specific conditions but are not superior to IGF-I for making the diagnosis of GH deficiency or acromegaly.     

Short-term changes in serum insulin-like growth factors (IGF) and IGF binding protein 3 after different modes of intravenous growth hormone (GH) exposure in GH-deficient patients.

Virtually all circulating insulin-like growth factors I and II (IGF-I and IGF-II) are bound to specific binding proteins (IGFBP), of which IGFBP-3 is the quantitatively most important. The mechanisms regulating the close coordination between serum levels of IGFs and IGFBP-3 is poorly understood. We therefore evaluated the temporal association of serum IGF-I, IGF-II, and IGFBP-3 measured by RIAs after well defined short-term GH exposure in GH-deficient patients. Six patients (mean +/- SE age: 20.5 +/- 1.1 yr) each underwent three GH study protocols in random order. Each study was preceded by 4 weeks without GH therapy. Two units of GH were administered iv as either: 1) two boluses, 2) eight boluses, or 3) a constant infusion. The duration of each study was 44 h including at least 16 h after termination of GH administration. Increments in serum IGF-I occurred 4-6 h after initiated GH exposure in all studies. In the two-bolus study the IGF-I increase was modest with mean +/- SE peak values of 12.4 +/- 2.1 nmol x L-1 after GH administration. In the eight bolus and constant infusion studies significantly higher IGF-I levels were generated: 17.0 +/- 2.2 nmol x L-1 (8 bolus) and 18.8 +/- 1.1 h nmol x L-1 (infusion). In contrast the time course change in serum IGF-II did not differ in the three studies, and it was characterised by a sluggish increase of approximately 30% evidenced after 16-20 h. The changes in IGFBP-3 were almost identical in the three studies. After a lag phase of approximately 18-20 h a gradual increase of approximately 40%, which had not ceased at the end of the study period, was observed. The molar ratio of serum IGF-I plus IGF-II:serum IGFBP-3 remained constant with values between 0.8-0.9 except in the constant infusion experiment, in which the ratio increased significantly with time reaching a mean peak value, which exceeded 1.0, after 24 h. Our data suggest that a pulsatile GH pattern is not superior to constant GH levels as regards generation of IGFs and IGFBP. The earlier increase in serum IGF-I compared to IGF-II and IGFBP-3 suggests that IGF-I may be the main regulator of IGFBP-3 production. Accordingly, the slow increase in serum IGF-II, which paralleled that of IGFBP-3, could indicate that serum IGF-II levels mainly depend on the concentration or binding site availability of IGFBP-3.     

Cardiac and metabolic effects of chronic growth hormone and insulin-like growth factor I excess in young adults with pituitary gigantism

Chronic growth hormone (GH)/insulin-like growth factor I (IGF-I) excess is associated with considerable mortality in acromegaly, but no data are available in pituitary gigantism. The aim of the study was to evaluate the long-term effects of early exposure to GH and IGF-I excess on cardiovascular and metabolic parameters in adult patients with pituitary gigantism. Six adult male patients with newly diagnosed gigantism due to GH secreting pituitary adenoma were studied and compared with 6 age- and sex-matched patients with acromegaly and 10 healthy subjects. Morphologic and functional cardiac parameters were evaluated by Doppler echocardiography. Glucose metabolism was assessed by evaluating glucose tolerance and homeostasis model assessment index. Disease duration was significantly longer (P<.05) in patients with gigantism than in patients with acromegaly, whereas GH and IGF-I concentrations were comparable. Left ventricular mass was increased both in patients with gigantism and in patients with acromegaly, as compared with controls. Left ventricular hypertrophy was detected in 2 of 6 of both patients with gigantism and patients with acromegaly, and isolated intraventricular septum thickening in 1 patient with gigantism. Inadequate diastolic filling (ratio between early and late transmitral flow velocity<1) was detected in 2 of 6 patients with gigantism and 1 of 6 patients with acromegaly. Impaired glucose metabolism occurrence was higher in patients with acromegaly (66%) compared with patients with gigantism (16%). Concentrations of IGF-I were significantly (P<.05) higher in patients with gigantism who have cardiac abnormalities than in those without cardiac abnormalities. In conclusion, our data suggest that GH/IGF-I excess in young adult patients is associated with morphologic and functional cardiac abnormalities that are similar in patients with gigantism and in patients with acromegaly, whereas occurrence of impaired glucose metabolism appears to be higher in patients with acromegaly, although patients with gigantism are exposed to GH excess for a longer period.     

Treatment of iodine deficiency in school-age children increases insulin-like growth factor (IGF)-I and IGF binding protein-3 concentrations and improves somatic growth

CONTEXT: Iodine deficiency in utero impairs fetal growth, but the relationship between iodine deficiency and postnatal growth is less clear. OBJECTIVE: The objective of the study was to determine whether iodine repletion improves somatic growth in iodine-deficient children and investigate the role of IGF-I and IGF binding protein (IGFBP)-3 in this effect. DESIGN, PARTICIPANTS, AND INTERVENTIONS: Three prospective, double-blind intervention studies were done: 1) in a 10-month study, severely iodine-deficient, 7- to 10-yr-old Moroccan children (n = 71) were provided iodized salt and compared with children not using iodized salt; 2) in a 6-month study, moderately iodine-deficient, 10- to 12-yr-old Albanian children (n = 310) were given 400 mg iodine as oral iodized oil or placebo; 3) in a 6-month study, mildly iodine-deficient 5- to 14-yr-old South African children (n = 188) were given two doses of 200 mg iodine as oral iodized oil or placebo. At baseline and follow-up, height, weight, urinary iodine (UI), total T4 (TT4), TSH, and IGF-I were measured; in Albania and South Africa, IGFBP-3 was also measured. RESULTS: In all three studies, iodine treatment increased median UI to more than 100 microg/liter, whereas median UI in the controls remained unchanged. In South Africa, iodine repletion modestly increased IGF-I but did not have a significant effect on IGFBP-3, TT4, or growth. In Albania and Morocco, iodine repletion significantly increased TT4, IGF-I, IGFBP-3, weight-for-age z scores, and height-for-age z scores. CONCLUSION: This is the first controlled study to clearly demonstrate that iodine repletion in school-age children increases IGF-I and IGFBP-3 concentrations and improves somatic growth.     

Growth hormone and insulin-like growth factor regulate insulin-like growth factor-binding protein-1 in Laron type dwarfism, growth hormone deficiency and constitutional short stature.

Insulin-like growth factors (IGFs) mediate the effects of growth hormone (GH), and the insulin-like growth factor-binding proteins (IGFBPs) modulate the actions of IGFs in tissues. We studied the circulating levels of IGFBP-1 in 6 children and 9 adults with Laron type dwarfism (LTD), in 11 children and 21 adults with growth hormone deficiency (GHD), and in 8 children with constitutional short stature. Compared with the situation in healthy children, the basal serum IGFBP-1 concentration was 5.4-fold higher in LTD children, 4.1-fold higher in GHD children, and 3.8-fold higher in children with short stature (p < 0.02 vs controls in all groups). In adult patients with multiple pituitary hormone deficiency (MPHD), the IGFBP-1 concentration was 2-fold elevated, but it was normal in adult LTD patients. Intravenous (N = 10) or subcutaneous (N = 9) administration of IGF-I (75 micrograms.kg-1 and 150 micrograms.kg-1, respectively) in LTD children resulted in a rapid 50-60% fall in serum insulin (p < 0.02), a decline in blood glucose and a concomitant 40-60% rise of IGFBP-1 levels (p < 0.05). Treatment for seven days with IGF-I (150 micrograms.kg-1 x d-1) resulted in a decrease by 34% and 44% of serum IGFBP-1 level in two out of three children with LTD. After prolonged GH therapy, the IGFBP-1 level fell in GHD children by 29% (p < 0.05), in GHD adults by 52% (p < 0.02) and in children with constitutional short stature by 17% (p < 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)     

An insulin-like growth factor (IGF) binding protein enhances the biologic response to IGF-I.

The insulin-like growth factors IGF-I and IGF-II circulate in blood bound to carrier proteins. The higher molecular mass IGF-binding protein complex (150 kDa) is composed of subunits, and one subunit that forms this complex is growth hormone dependent. In addition, many cell types and tissues secrete another form of IGF binding protein that is not growth hormone dependent. Both forms of the IGF binding protein are believed to inactivate the IGFs and to function as delivery systems to tissues. This conclusion was based on studies that determined the effects of impure preparations of these binding proteins or that examined the effect of these proteins only on the insulin-like actions of the IGFs. We report here that a pure preparation of the extracellular form of the IGF binding protein (purified from human amniotic fluid) markedly potentiated replication of several cell types in response to human IGF-I. Secondary cultures of human, mouse, and chicken embryo fibroblasts as well as porcine aortic smooth muscle cells showed marked enhancement of their DNA synthesis response (2.8- to 4.4-fold increases) to IGF-I in the presence of this protein. These responses were synergistic since the sum of the responses to either IGF-I or to the binding protein alone was between 8 and 17% of the increase obtained in cultures exposed to both peptides. The binding protein not only potentiated the DNA synthesis response but also enhanced the increase in cell number in response to IGF-I. This stimulation is specific for growth factors that bind to the binding protein since incubation with insulin, which binds to the type I IGF receptor but not to the binding protein, did not result in potentiation of this response. We conclude that a form of IGF binding protein that is present in extracellular fluids and is secreted by many types of cells can markedly potentiate the cellular response to IGF-I.