A survey to identify children and adolescents with primary growth hormone insensitivity syndrome (GHIS) yielded 38 patients who were positively identified using a scoring system that included five criteria: height, basal growth hormone (GH), GH binding protein, basal insulin‐like growth factor 1 (1GF‐I) and the increase of IGF‐I after 4 days of GH administration (IGF generation test). Because of an overlap of the accepted and excluded groups with respect to points scored, an attempt was made to improve the scoring system. The new criteria were: height below –3 SDS, basal GH 4 mU/I or above, GH binding below 10%, basal IGF‐I and basal IGF binding protein‐3 (IGFBP‐3) below the 0.1 centile for age, an increase of IGF‐I in the IGF generation test less than 15 μg/1, and the increase of IGFBP‐3 less than 0.4 mg/1. With this scoring system, a clear separation between the accepted and the excluded groups was obtained. IGFBP‐3 was included to give the GH‐dependent parameters of the IGF system more weight and because the accuracy of IGFBP‐3 in the IGF generation tests was greater than the accuracy of IGF‐I, when the group of patients with GHIS was compared with a group of patients with GH deficiency. Unexpectedly, the IGF generation test was unable to segregate both cohorts completely. In the GHIS‐positive group, a significant correlation was found between basal IGF‐I or IGFBP‐3 levels corrected for age (SDS) and height SDS (r= 0.49, p < 0.002 and r= 0.61, p < 0.0001, respectively). There was also a significant correlation between the changes of IGF‐I or IGFBP‐3 in the IGF generation test and height SDS. That is, the patients with a slight response to GH were those with the least growth retardation, suggesting the existence of partial GH insensitivity.
We previously described significant changes in GH-binding protein (GHBP) in pathological human pregnancy. There was a substantial elevation of GHBP in cases of noninsulin-dependent diabetes mellitus and a reduction in insulin-dependent diabetes mellitus. GHBP has the potential to modulate the proportion of free placental GH (PGH) and hence the impact on the maternal GH/insulin-like growth factor I (IGF-I) axis, fetal growth, and maternal glycemic status. The present study was undertaken to investigate the relationship among glycemia, GHBP, and PGH during pregnancy and to assess the impact of GHBP on the concentration of free PGH. We have extended the analysis of specimens to include measurements of GHBP, PGH, IGF-I, IGF-II, IGF-binding protein-1 (IGFBP-1), IGFBP-2, and IGFBP-3 and have related these to maternal characteristics, fetal growth, and glycemia. The simultaneous measurement of GHBP and PGH has for the first time allowed calculation of the free component of PGH and correlation of the free component to indexes of fetal growth and other endocrine markers. PGH, free PGH, IGF-I, and IGF-II were substantially decreased in IUGR at 28 -30 weeks gestation (K28) and 36 -38 weeks gestation (K36). The mean concentration (ϮSEM) of total PGH increased significantly from K28 to K36 (30.0 Ϯ 2.2 to 50.7 Ϯ 6.2 ng/mL; n ϭ 40), as did the concentration of free PGH (23.4 Ϯ 2.3 to 43.7 Ϯ 6.0 ng/mL; n ϭ 38). The mean percentage of free PGH was significantly less in IUGR than in normal subjects (67% vs. 79%; P Ͻ 0.01). Macrosomia was associated with an increase in these parameters that did not reach statistical significance. Multiple regression analysis revealed that PGH/IGF-I and IGFBP-3 account for 40% of the variance in birth weight. IGFBP-3 showed a significant correlation with IGF-I, IGF-II, and free and total PGH at K28 and K36. Noninsulin-dependent diabetes mellitus patients had a lower mean percentage of free PGH (65%; P Ͻ 0.01), and insulin-dependent diabetics had a higher mean percentage of free PGH (87%; P Ͻ 0.01) than normal subjects. Mean postprandial glucose at K28 correlated positively with PGH and free PGH (consistent with the hyperglycemic action of GH). GHBP correlated negatively with both postprandial and fasting glucose. Although GHBP correlated negatively with PGH (r ϭ Ϫ0.52; P Ͻ .001), free PGH and total PGH correlated very closely (r ϭ 0.98). The results are consistent with an inhibitory function for GHBP in vivo and support a critical role for placental GH and IGF-I in driving normal fetal growth. (J Clin Endocrinol
The response of canine insulin-like growth factors (IGFs) and IGF-binding proteins (IGFBPs) to moderate nutritional restriction followed by refeeding has not previously been studied in detail. The purpose of these studies was to examine the effects of nutritional restriction on the IGF system of adult dogs. Normal serum IGF values were established after validation of heterologous RIAs for measuring canine IGFs-I and -II. Canine serum IGFBP profiles were examined by Western ligand blotting (WLB), using radiolabelled recombinant human (rh) IGF-I as the ligand, and were found to be similar to those of other species. IGF-I and IGFBP-3 concentrations correlated with body weight, thus reflecting breed size as previously shown, whereas IGF-II concentrations did not.IGFBP-2 serum concentrations and band intensity on WLB were increased compared with normal human serum IGFBP-2. Overnight fasting had no effect on IGF or IGFBP concentrations, including IGFBP-1, nor did refeeding. Prolonged restriction to 56% and then 42·5% of maintenance energy requirements for 2 weeks decreased IGF-I concentrations by 20·4% and 32·7% respectively. Feeding of the same diet ad libitum for 2 weeks normalised IGF-I concentrations. There were no changes in IGF-II or insulin levels. Serum IGFBP-2 concentrations increased with 56% restriction of maintenance energy (P=0·03). We conclude that serum IGF-I is potentially a useful marker of short-term change in nutritional status in the adult dog.
Only 33% of patients had a HbA1C concentration less than 8% and 6.3% had a severe hypoglycaemic episode in the 3 months. These results are similar to published overseas data.
The plasma level of the GH-independent insulin-like growth factor binding-protein-1 (IGFBP-1) is regulated inversely by insulin. In this study the effect of insulin and changes in the glucose concentration on in-vitro IGFBP-1 secretion by the Hep G2 cell line was studied. Media from confluent cells in 12 replicates were collected for consecutive periods: initial control (20 h), study (6 h) and recovery (20 h). Insulin suppressed IGFBP-1 secretion maximally at 100 mU/l (-32%) within 6 h. The secretion of IGFBP-1 was stimulated by a decrease in the glucose concentration in the medium, maximally (+25%) with a decrease from 24 to 6 mmol/l. Stimulation by varying glucose levels and suppression by insulin of IGFBP-1 secretion persisted on return to control conditions after the removal of physiological concentrations of glucose (4-12 mmol/l) and insulin (50-500 mU/l). The findings in the Hep G2 cell line that a variation in the physiological concentrations of glucose and insulin each independently regulate IGFBP-1 secretion suggest that this cell line may be a suitable model for further in-vitro studies of the regulation of secretion of IGFBP-1.
Children without an aetiological diagnosis for the uncommon condition of acquired CDI require careful follow-up. More intensive investigation at presentation (e.g. estimation of cerebrospinal fluid human chorionic gonadotrophin) promises to lessen the number of such cases. Pituitary stalk biopsies should be reserved for those patients with progressive MRI changes. If these changes do not occur early, our experience suggests that follow-up MRI scans may need to be performed only yearly.
Changes in insulin-like growth factor-I (IGF-I) and insulin-like growth factor binding proteins (IGFBPs) were correlated with protein synthesis and breakdown using [1-13C]leucine before chemotherapy and during subsequent febrile neutropenia (FN) in eight children with cancer, aged 6.3-17.5 y. IGF-I levels were similar to age-matched controls before chemotherapy (mean +/- SEM: 250+/-28 and 228+/-22 microg l(-1), respectively). During FN, IGF-I fell to 156+/-22 microg l(-1) (p = 0.02), and rose to 276+/-27 microg l(-1) with recovery at 6 months (p = 0.004). Similarly, IGFBP-3 decreased from 4.0+/-0.2 mg l(-1) before chemotherapy to 3.0+/-0.3 mg l(-1) during FN (p = 0.01), and returned to 4.1+/-0.2 mg l(-1) at 6 months (p = 0.01). IGF-I correlated with IGFBP-3 (r = +0.7, p < 0.001). Scanning densitometry showed a decrease in IGFBP-3 from 94 to 54% during FN, when the presence of IGFBP-3 protease activity was observed. Compared with normal human serum, IGFBP-2 was elevated throughout the study. IGFBP-1 increased from 14.6+/-3.5 to 30.6+/-2.8 microg l(-1) (p = 0.004), whereas serum insulin decreased from 26.5+/-6.8 to 7.8+/-0.8 mU l(-1) (p = 0.03) before and during FN, respectively. Whilst IGF-I and IGFBP-3 fell, daytime growth hormone increased from 3.3+/-0.6 to 6.7+/-0.8 mU l(-1) (p=0.01), and cortisol from 197+/-48 to 594+/-98 nmol l(-1) (p = 0.005). Albumin decreased from 47+/-2 to 38+/-2 g l(-1) (p = 0.004) and improved to 47+/-2 g l(-1) with recovery (p = 0.003). Protein synthesis increased from 4.5+/-0.4 to 5.0+/-0.6 g kg(-1)d(-1) before chemotherapy and during FN, while protein breakdown rose from 5.4+/-0.4 to 6.3+/-0.4 kg(-1)d(-1). Increasing protein breakdown was related to falling IGF-I and IGFBP-3 levels. Modification of IGFBP-3 by circulating proteolytic activity may alter IGF bioavailability, allowing protein synthesis to increase during periods of severe catabolic stress.
Placental growth hormone (PGH) progressively replaces pituitary growth hormone in the maternal circulation from mid-gestation onwards in human pregnancy. Our previous investigations have shown that placental growth hormone concentrations correlate well with foetal growth. Despite the apparent correlation between PGH and birthweight, the physiology of its secretion during pregnancy has not been well defined. We investigated the response of maternal serum PGH to oral glucose loading in pregnant women (n = 24) who demonstrated normal glucose tolerance at a mean gestation of 29 weeks. Mean (SEM) fasting PGH concentrations were high (36.9 [6.4] ng/ml). No suppression of PGH was noted at one, two or three hours after a 75 g oral glucose load. Similarly, no changes were noted in growth hormone binding protein or in calculated free PGH over the course of the glucose tolerance test. As expected, insulin concentrations rose sixfold and insulin like growth factor binding protein 1 concentrations fell by 20 % with glucose loading. Correlation analysis showed maternal weight, BMI, fasting serum glucose serum insulin to be significantly correlated with the babies' birthweight. Our results support the proposition that PGH concentrations in maternal serum are not suppressed by oral glucose loading in non-diabetic mothers.
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