Stimulation of growth hormone secretion in children with X-linked hypophosphatemia

X-linked hypophosphatemia is characterized by low serum phosphorus, relative vitamin D deficiency and rickets. Despite adequate metabolic control with oral phosphate and vitamin D therapy, patients with X-linked hypophosphatemia have short stature. Whether growth hormone (GH) deficiency plays a role in short stature in patients with X-linked hypophosphatemia is not known. The purpose of this report was to investigate the response of GH to sequential paired pharmacological stimulation in patients with X-linked hypophosphatemia. Basal GH was 3.8±0.7 ng/ml, insulin-like growth factor-I (IGF-I) was 225±38 ng/ml and IGF binding protein-3 was 3.0±0.2 mg/l in 16 children studied with X-linked hypophosphatemia. In response tol-dopa and arginine hydrochloride stimulation, serum GH rose to above 7 mg/ml in all patients. Thus, the short stature in patients with X-linked hypophosphatemia is not due to a GH/IGF-I secretory defect.     

Compensatory renal growth: role of growth hormone and insulin-like growth factor-I

Recent experimental evidence suggests that insulin-like growth factor-I (IGF-I) may be involved in compensatory renal growth (CRG). This study was designed to determine the relative contribution of IGF-I and growth hormone (GH) to the CRG that takes place in rats following uninephrectomy (UNx). We also studied the respective role of GH and IGF-I in the stimulation of CRG induced by a high protein diet (HPD). CRG was studied 7 days after UNx in Wistar rats and in a new mutant strain of dwarf rats, selectively deficient in GH. Prior to UNx, rats of both strains were pre-fed (14 days) either a medium-protein diet (MPD, casein 18%) or a HPD (54%). On MPD, CRG was comparable in Wistar (17.6 +/- 3.1%, M +/- SD) and dwarf (14.4 +/- 4.8%) rats. The HPD enhanced CRG in the Wistars (27 +/- 3.9%, P less than 0.005) but not in the dwarfs (14.9 +/- 2%). CRG in both experimental groups involved renal hypertrophy and hyperplasia. Control (baseline) serum, liver and kidney IGF-I were significantly less in dwarf rats. However, following UNx, on a MPD, kidney IGF-I increased significantly in both Wistar and dwarf rats: Wistar, pre-UNx, 310 +/- 46 ng/g tissue; post-UNx, 405 +/- 54 ng/g, P less than 0.005; dwarfs, pre-UNx, 205 +/- 35 ng/g; post-UNx 426 +/- 90 ng/g, P less than 0.001. On a HPD a further significant increase in renal IGF-I was only observed in Wistar rats (505 +/- 46 ng/g). No change in serum or liver IGF-I was observed after UNx in either strain.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antitumor activity of the growth hormone receptor antagonist pegvisomant against human meningiomas in nude mice

OBJECT: The authors have previously demonstrated that modulation of the growth hormone (GH)/insulin-like growth factor-I (IGF-I) axis can significantly affect meningioma growth in vitro. These studies were performed to evaluate the efficacy of GH receptor blockade in vivo. METHODS: Primary cultures from 15 meningioma tumors obtained in humans were xenografted into athymic mice. Approximately 1.5 million cells from each of the 15 tumors were implanted into the flanks of two female mice, one pair for each tumor. One animal from each of the 15 pairs was then treated with the GH receptor antagonist pegvisomant and the other with vehicle alone for 8 weeks. The tumor volume was measured using digital calipers three times per week. The mean tumor volume at the initiation of injections was 284 +/- 18.8 mm3 in the vehicle group and 291.1 +/- 20 mm3 in the pegvisomant group. After 8 weeks of treatment, the mean volume of tumors in the pegvisomant group was 198.3 +/- 18.9 mm3 compared with 350.1 +/- 23.5 mm3 for the vehicle group (p < 0.001). The serum IGF-I concentration in the vehicle group was 319 +/- 12.9 microg/L compared with 257 +/- 9.7 in the pegvisomant group (p < 0.02). A small but significant decrease was observed in circulating IGF binding protein (IGFBP)-3 levels, whereas slight increases occurred with respect to serum IGFBP-1 and IGFBP-4 levels. In the placebo group the tumor weight was 0.092 +/- 0.01 g compared with 0.057 +/- 0.01 g in the pegvisomant group (p < 0.02). The IGF-I and IGF-II concentrations were measured in the tumors by using a tissue extraction method. These human-specific immunoassays demonstrated that there was no autocrine production of IGF-I in any of the tumors, either in the pegvisomant or vehicle group. The IGF-I levels were highly variable (0-38.2 ng/g tissue) and did not differ significantly between treatment groups. CONCLUSIONS: In an in vivo tumor model, downregulation of the GH/IGF-I axis significantly reduces meningioma growth and, in some instances, causes tumor regression. Because the concentrations of IGF-II in tumor did not vary with pegvisomant treatment and there was no autocrine IGF-I production by the tumors, the mechanism of the antitumor effect is most likely a decrease of IGF-I in the circulation and/or surrounding host tissues. Because the authors have previously demonstrated that the GH receptor is ubiquitously expressed in meningiomas, direct blockade of the GH receptor on the tumors may also be contributing to inhibitory actions.     

Haemodialysis with the biocompatible high permeability AN-69 membrane does not alter plasma insulin-like growth factor-I and insulin-like growth factor binding protein-3.

BACKGROUND: Insulin-like growth factor-I (IGF-I) bioactivity has been reported to be decreased in maintenance haemodialysis patients and this may affect their nutritional status. Clearances of IGF-I and its binding proteins (IGFBPs) during haemodialysis sessions using a high permeability biocompatible membrane are unknown. METHODS: Five well nourished, non-diabetic adult patients were studied during one 4-h morning haemodialysis treatment using the high permeability biocompatible AN-69 dialyser. Blood was collected at the arterial and venous ports of the dialyser at 0, 1, 2 and 4 h of dialysis for haematocrit, plasma IGF-I, IGFBP-3 and insulin measurements. IGF-I, IGFBP-3 and insulin concentrations were adjusted for haemoconcentration before comparisons were made. RESULTS: At the beginning of the dialysis session, plasma IGF-I, IGFBP-3 and insulin levels were within the normal range (297 +/- 47 ng/ml (mean+/-SEM), 4.3 +/- 0.6 microg/ml and 11.8 +/- 3.4 microIU/ml, respectively). During the session, insulin tended to be cleared through the dialyser, whereas plasma IGF-I and IGFBP-3 values did not vary significantly. CONCLUSION: Dialysis with the high permeability AN69 membrane did not alter the main blood compounds of the IGF system in well nourished chronic haemodialysis patients, and it is unlikely that the malnutrition frequently observed in such patients would result from alterations of the IGF system during haemodialysis.     

Contribution of growth hormone-releasing hormone and somatostatin to decreased growth hormone secretion in elderly men.

OBJECTIVE: The pathophysiology of the decline in circulating growth hormone (GH) concentrations that may occur with ageing remains elusive. We have investigated the potential contributions of decreased endogenous GH-releasing hormone (GHRH) and increased somatostatin secretion to this phenomenon. DESIGN AND METHODS: The strategy used was to stimulate GH secretion in 8 young (20-24 years old, body mass index (BMI) 22.8 +/- 2.8 kg/m2) and 8 elderly (68-82 years old, BMI 23.4 +/- 1.6 kg/m2) male subjects on separate occasions by means of: (i) intravenous bolus 0.5 microgram/kg D-Ala2 GHRH(1-29)-NH2 alone; (ii) 0.5 microgram/kg GHRH after pre-treatment with two oral doses of 50 mg atenolol (to inhibit somatostatin secretion); (iii) 1.25 mg oral bromocriptine alone (to increase endogenous GHRH and/or inhibit somatostatin); (iv) 50 mg oral atenolol plus 1.25 mg oral bromocriptine; and (v) 0.5 microgram/kg GHRH after pre-treatment with 1.25 mg oral bromocriptine. RESULTS: The elderly men had a significantly lower peak and area under curve (AUC) GH response to intravenous GHRH when compared with 8 young men (peak 3.1 +/- 1.0 ng/ml v. 21.6 +/- 5.0 ng/ml, AUC 205 +/- 56 ng/ml/min v. 1,315 +/- 295 ng/ml/min, P < 0.05). Pre-treatment with atenolol before GHRH administration produced no significant increase in peak and AUC GH response in both groups, which remained lower in the elderly men than in their young counterparts (peak 5.5 +/- 1.8 ng/ml v. 29.3 +/- 7.0 ng/ml, AUC 327 +/- 90 ng/ml/min v. 2,017 +/- 590 ng/ml/min, P < 0.05). Bromocriptine alone did not cause a significant rise in GH concentration in either elderly or young subjects (peak 3.1 +/- 1.1 v. 8.8 +/- 3.2 ng/ml, P > 0.05). When atenolol was administered before bromocriptine, both groups responded but the elderly subjects had a significantly greater peak and AUC response (peak 3.6 +/- 0.7 v. 10.7 +/- 2.1 ng/ml; AUC 191 +/- 39 v. 533 +/- 125 ng/ml/min, P < 0.05). Bromocriptine given before GHRH failed to potentiate GHRH action on GH release in either group. Of 5 elderly men who underwent further evaluation of GH secretory ability, 2 subjects had GH levels > 10 ng/ml, either basally or after intravenous GHRH. The remaining 3 had an initially impaired GH response to bolus intravenous GHRH. After 100 micrograms GHRH subcutaneously twice daily for up to 2 weeks the GH responses to intravenous bolus GHRH (0.5 microgram/kg) were reassessed. One exhibited a normal response (> 10 ng/ml) after 1 week of daily GHRH treatment, another had a near-normal response after 2 weeks (9.7 ng/ml), while the third still had an impaired response by the end of the 2-week treatment period (3.2 ng/ml). CONCLUSIONS: The restoration of endogenous GH secretion in these elderly subjects by means of GHRH priming, and the failure of manipulation of somatostatinergic tone to restore a normal GH response to GHRH suggests that somatotroph atrophy due to a reduction in endogenous GHRH secretion is the principal cause of the diminished GH secretion with ageing.     

Homologous growth hormone accelerates healing of segmental bone defects

The effect of homologous recombinant porcine growth hormone (r-pGH) on secondary fracture healing was investigated in a diaphyseal defect of the tibia in Yucatan micropigs. A 1 cm defect of the tibia was created surgically and stabilized with an AO 3.5 mm DCP plate. The treatment group (12 animals) received 100 microg of r-pGH per kilogram of body weight subcutaneously once per day, whereas the control pigs (12 animals) received 1 mL of sodium chloride as placebo. For evaluation of the GH-axis, serum levels of insulin-like growth factor-I (IGF-I) were sampled every fourth day. The animals were killed 6 weeks after surgery. Quantitative computed tomography (qCT) was performed to determine bone mineral density (BMD) and bone mineral content (BMC) of the defect zone. The torsional stiffness and the torsional failure load were measured by destructive torsional testing of the defect and contralateral tibiae. qCT measurements revealed a significant increase in the BMC of the defect zone in the treatment group compared with controls (GH BMC = 2833 +/- 679 mg, placebo BMC = 2215 +/- 636 mg; p < 0.05), whereas the BMD values were similar in both groups (GH BMD = 668 +/- 60 mg/mm(2), placebo BMD = 629 +/- 52 mg/mm(2), p = 0.12). Torsional failure load was 70% higher and torsional stiffness 83% higher in the treatment group than in the control group (p < 0.05). The mean serum level of IGF-I in the treatment group increased to 382% of the preoperative basal level and decreased to 69% in the control group, and this difference was highly significant (p < 0.001). Our data indicate that daily administration of recombinant GH leads to an increase of serum IGF-I levels and stimulates secondary fracture healing, resulting in increased mechanical strength and stiffness of the callus.     

Gene mediated insulin-like growth factor-I delivery to the synovium.

The feasibility of articular gene therapy using insulin-like growth factor-I transgene expression in synovial tissues was assessed in vitro by transfection of synovial explant and monolayer cultures. Synovial membrane was harvested from horses and distributed for explant culture in multiwell plates or digested for monolayer culture in multiwell plates and chamber slides. Synovial monolayers were cultured for 48 h after infection with 0, 100, 200, or 500 moi adenovirus-IGF-I (AdeIGF-I) to establish an optimum dose. Explants were then either infected with AdeIGF-I or adenoviral LacZ and cultured for 8 days, treated with 100 ng/ml recombinant IGF-I as a positive control, or remained as uninfected untreated culture controls. Expression of IGF-I in explants and monolayers was assessed by in situ hybridization and quantitative polymerase chain reaction (PCR), and translation confirmed by IGF-I radioimmunoassay (RIA) and tissue immunoreaction. Effects of IGF-I on synovial function was assessed by proteoglycan and hyaluronan assay, and northern blot assessment of decorin and collagen type I expression. Significant transgene expression in synovial cells was present for all AdeIGF-I concentrations. Similarly, medium IGF-I concentrations were significantly elevated in AdeIGF-I infected synovial monolayer and explant cultures at all time points. Peak IGF-I concentration of 246 +/- 43 ng/ml developed in explant cultures on day 4; IGF-I levels in control explant groups were unchanged over baseline values. In situ hybridization and immunolocalization for IGF-I indicated focal IGF-I expression in intimal and subintimal layers of infected explants, with diffuse immunoreaction throughout infected subintimal and fibrous layers. For monolayer cultures, intracellular immunoreaction to IGF-I was markedly higher in infected cells, and was most prominent at 100 moi. Effects of IGF-I on synoviocyte cultures were evident on northern blots, which showed decreased decorin expression and elevated type I collagen production in AdeIGF-I infected monolayers. Proteoglycan concentration in the medium from explant cultures rose over the initial 4 days but was similar between treatment groups. The concentration of hyaluronan in medium from explant cultures did not differ significantly within or between treated and control groups during the 8-day study period. These data indicate that IGF-I can be successfully introduced to synovial structures by adenoviral vectors and results in effective IGF-I ligand synthesis without untoward synovial morphologic effects.     

Insulin-like growth factor I: a modulator of erythropoiesis in uraemic patients?

Anaemia is a feature almost invariably complicating chronic renal failure. Its pathophysiology is multifactorial but the most important cause is erythropoietin (Epo) deficiency. However, either no relation or even a weakly positive relation generally exists between serum immunoreactive (i) Epo and haematocrit values in uraemic anaemia, whereas in anaemias of non-renal origin the correlation is most often strongly negative. Recent evidence indicates that growth hormone also stimulates erythropoiesis. Moreover, late erythroid progenitor cells (CFU-E) require insulin and/or insulin-like growth factor I (IGF-I) for development in vitro. IGF-I has been shown to have a synergistic action with Epo. We have measured serum iEpo and IGF-I levels in 17 haemodialysis patients with severe hyperparathyroidism (mean +/- SEM serum iPTH, 988 +/- 88 pg/ml). Mean age and duration of dialysis treatment were 46.1 +/- 3.4 and 8.8 +/- 1.0 years respectively. Mean haematocrit and haemoglobin values wer 28.1 +/- 1.7% and 9.39 +/- 0.54 g/dl respectively. Mean serum iEpo and IGF-I levels were 20.3 +/- 4.7 mU/ml and 320 +/- 20 ng/ml respectively (normal values for serum iEpo and IGF-I, 17.9 +/- 6 mU/ml and 91 +/- 23 ng/ml respectively). We found that serum IGF-I concentrations were well correlated with haematocrit values (r = 0.68, n = 15, P less than 0.004) whereas serum iEpo values were not (r = 0.41, n = 12, P = 0.18). IGF-I could therefore be an important factor regulating erythropoiesis in uraemic patients, at least when associated with severe hyperparathyroidism.     

Effect of diabetes and its control on insulin-like growth factors in the young subject with type I diabetes

The influence of diabetes and its control on circulating levels of growth hormone and growth hormone-dependent, insulin-like growth factors (IGF) remains controversial. In the present study, the effect of a 1-wk period of intensive insulin therapy on growth hormone and IGF I and II has been determined in 19 young (age 13-22 yr), insulin-dependent (type I) subjects with diabetes mellitus. IGF I was low during conventional insulin therapy (198 +/- 20 versus 438 +/- 38 ng/ml in nondiabetic subjects, P less than 0.001), and rose within the week of intensified treatment (to 255 +/- 15 ng/ml, P less than 0.005), concomitant with a reduction in plasma glucose from 233 +/- 16 to 110 +/- 5 mg/dl. IGF I rose despite a significant fall in mean 24-h growth hormone levels from 14.1 +/- 2.2 to 9.0 +/- 1.2 ng/ml (P less than 0.02). The mean IGF II value for the diabetic subjects (504 +/- 39 ng/ml) was not significantly different from that of the nondiabetic control group (506 +/- 30 ng/ml, P greater than 0.3) and was not altered by intensified therapy. However, four individual patients with very low IGF I also had depressed IGF II (248 +/- 16 ng/ml), which was corrected (to 377 +/- 35 ng/ml) with improved metabolic control. These data suggest that elevated growth hormone levels in poorly controlled diabetes are ineffective in IGF I generation and that this defect is at least partially corrected by acute improvement in control. The rise in IGF I levels accompanying intensive insulin treatment may suppress the excessive secretion of growth hormone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Growth hormone,insulin growth factor-1, and igf binding protein-3 axis relationship with bone mineral density among healthy men

The aim of this study was to investigate serum levels of growth hormone (GH), insulin growth factor-I (IGF-I), and insulin growth factor binding protein-3 (IGFBP-3) in 363 healthy caucasian men with and without decreased bone density, who had never experienced fractures. Mean age was 51+/-8.7 years. Height and weight were measured and BMI was calculated using the formula weight (kg)/height (m(2)). Bone mineral density (BMD) was assessed: in 4 skeletal sites (lumbar spine [LS], femoral neck [FN], Ward's triangle [WT], and trochanter [T]) using dual-energy X-ray absorpsiometry (DEXA). After an overnight fasting, blood samples were taken at 8:00 a.m. Serum concentrations of GH, IGF-I, and IGFBP-3 were measured using the immunofunctional (GH) and IRMA (IGF-I and IGFBP-3) methods. The BMD at the 4 skeletal sites is expressed as mean value+/-SD in g/cm(2) and T score. Forty-four men (11%) had bone mineral density (BMD)<-2.5 SD (T score). Mean GH, IGF-I, and IGFBP-3 levels were 0.2+/-0.1, 186.1+/-177.3, and 4990+/-1460 ng/mL, respectively. There were no significant differences between men with normal BMD and men with reduced BMD concerning GH, IGF-I, and IGFBP-3 measurements. In normal men (319), mean GH, IGF-I, and IGFBP-3 levels were 0.4+/-0.1, 192+/-87, and 4960+/-1530 ng/mL, respectively. In the subgroup with reduced BMD (44), mean GH, IGF-I and IGFBP-3 levels were 0.2+/-0.1, 179+/-72 and 5230+/-1270 ng/mL, respectively. An age-dependent attenuation of GH, IGF-I, and IGFBP-3 levels was also found. No correlation was revealed between BMD and GH in the 4 skeletal sites tested. On the contrary, a positive correlation was established between BMD and IGF-I levels in 3 skeletal sites (LS, FN, T). The same was true between BMD and IGFBP-3 in 2 skeletal sites (LS, FN). In conclusion, 11% of Greek healthy males had decreased bone density. No fractures were demonstrated in any individuals. No significant differences were found between men with normal and reduced BMD, with regards to serum GH, IGF-I, and IGFBP-3, although these levels decreased with age. No correlation was found between BMD and GH levels in the 4 skeletal sites. A positive correlation was found between BMD and IGF-I levels in 3 skeletal sites and IGFBP-3 in 2 skeletal sites.     

Serum bone GLA-protein in growth hormone deficient children

Serum bone GLA-protein (BGP), a sensitive and specific marker of bone formation, was measured in 54 normal children and in 50 children with growth disorders. In normal children, the pattern of variations of serum BGP with age was similar to the pattern of variations of the growth velocity. Mean serum BGP was very high during the first year of life (25.3 +/- 8.5 ng/ml), decreased to 14.8 +/- 2.2 ng/ml from 2 to 6 years, increased to 18.4 +/- 4.1 ng/ml from 7 to 10 years and to 18.8 +/- 6.5 ng/ml from 11 to 14 years. After puberty, mean sBGP decreased to 12.9 +/- 5.4 ng/ml from 15 to 18 years and to 6.5 +/- 1.4 ng/ml in young adults. In 32 patients with untreated growth hormone (GH) deficiency, mean sBGP was markedly lower than in age matched controls (6.8 +/- 4.4 ng/ml vs. 17.5 +/- 4.9 ng/ml, p less than .001). In 19 patients with GH deficiency who were undergoing treatment with human GH, sBGP was higher than in untreated patients (20.5 +/- 9.3 ng/ml vs. 6.8 +/- 4.4 ng/ml, p less than .001) and was not different from controls. Repeated measurements performed in 14 GH-deficient patients under chronic GH therapy showed that serum BGP: (1) increased in most patients during treatment (p less than .005); (2) was correlated with the duration of treatment (p less than .001); (3) decreased to pretreatment values after discontinuing therapy.(ABSTRACT TRUNCATED AT 250 WORDS)     

Growth hormone and insulin-like growth factor-I and mesangial matrix in uremic rats

Combined growth hormone (GH) and insulin-like growth factor-I (IGF-I) therapy has been advocated for clinical use to minimize the diabetogenic effect of GH and enhance their anabolic effects. However, GH has been shown to accelerate the development of glomerular sclerosis in experimental animals and IGF-I mediates the renal effects of GH. The purpose of this study was therefore to examine morphometrically the effects of GH (1 mg intraperitoneally three times a week), IGF-I (50 g/kg body weight subcutaneously twice a day), and combined GH/IGF-I treatments in vivo on mesangial matrix at 3–20 days after 5/6 nephrectomy in 140- to 150-g rats. There were no significant changes in growth and renal function after GH and/or IGF-I treatment. The effects of GH and IGF-I on glomerular size were additive, which were more prominent in juxtamedullary glomeruli. GH induced proportional increases in mesangial area (MA) and glomerular area (GA), whereas IGF-I induced a similar increase in GA without a corresponding change in MA. When compared with GH treatment alone, combined GH/IGF-I treatment resulted in a lesser degree of mesangial expansion despite an enhanced glomerular size. While additional studies are needed to examine the long-term effects of these findings, our results suggest a potentially beneficial effect of combined GH/IGF-I therapy during uremia.     

Ezetimibe treatment in hypercholesterolemic kidney transplant patients is safe and effective and reduces the decline of renal allograft function: a pilot study.

BACKGROUND: Ezetimibe has shown efficacy in the therapy of hypercholesterolemia in renal transplant patients. This is the first study investigating the effect of ezetimibe on renal function in kidney transplant recipients. METHODS: Fifty-six patients with statin-resistant hypercholesterolemia (total cholesterol >200 mg/dl) after renal transplantation received additional ezetimibe therapy (10 mg/day) for 12 months. A group receiving statin therapy (n=28) served as controls in this prospective study. RESULTS: Total cholesterol and LDL cholesterol concentrations decreased significantly in the ezetimibe-treated patients but remained stable in the control group (delta total cholesterol: -24+/-49 mg/dl vs 19+/-49 mg/dl, P<0.01; delta LDL: -30+/-39 mg/dl vs -3+/-31 mg/dl, P<0.01). Mean creatinine clearance remained stable in ezetimibe-treated patients but decreased significantly in control group (delta Cockcroft-Gault: 0.9+/-7.3 ml/min vs - 4.8+/-12.8 ml/min, P=0.025; delta Modification of Diet in Renal Disease: -0.4+/-6.2 ml/min/1.73 m(2) vs 4.7+/-8.8 ml/min/1.73 m(2), P=0.033). CONCLUSIONS: The data of our prospective case-control study suggest that ezetimibe appears to ameliorate the decline of renal function after renal transplantation.     

Comparison of intravenous ascorbic acid versus intravenous iron for functional iron deficiency in hemodialysis patients

The effect of intravenous ascorbic acid was compared with that of intravenous iron in the treatment of functional iron deficiency, as defined as serum ferritin levels over 300 ng/ml and serum iron levels below 50 microg/dl, in patients on chronic hemodialysis. Thirteen patients on chronic hemodialysis with functional iron deficiency received intravenous injections of ascorbic acid, 100 mg, three times a week, after hemodialysis. The therapy was continued until serum ferritin decreased to below 300 ng/ml (3 months at the maximum). The iron and control group were composed of patients who had serum iron levels below 50 microg/dl within 3 months after serum ferritin rose to over 300 ng/ml. Seven patients with the iron group received more than a total of 10 intravenous injections of saccharated ferric oxide (40 mg/dose) after hemodialysis, and seven patients with the control group received no iron preparation during the 3 months. In the ascorbic acid group, while hemoglobin did not change from 10.9 +/- 0.5 g/dl (mean +/- SE) during the three-month period, serum iron increased significantly from 37 +/- 4 microg/dl to 49 +/- 4 microg/dl after one month (p<0.01), and remained elevated until the end of the three-month period. Serum ferritin decreased significantly from 607 +/- 118 ng/ml to 354 +/- 30 ng/ml after 3 months (p<0.01). In the iron group, hemoglobin and serum iron increased significantly from the respective pre-treatment levels during the 2-month period, and serum ferritin rose significantly after 3 months. In the control group, hemoglobin, serum iron and ferritin levels decreased significantly from the respective pre-treatment levels during the 3 months. The recombinant erythropoietin dose remained stable for three months in the ascorbic acid, iron, and control groups, respectively. These results suggest that in hemodialysis patients with a functional iron deficiency, treatment with intravenous ascorbic acid can prevent iron overload due to treatment with intravenous iron, and provide a useful adjuvant means of maintaining hemoglobin and serum iron levels.     

Growth hormone stimulates protein synthesis during hypocaloric parenteral nutrition. Role of hormonal-substrate environment.

The influence of growth hormone (GH) on protein metabolism and fuel utilization was investigated in eight paired studies of normal volunteers. GH (10 mg) was given daily during one period, and saline was injected during control studies. For 6 days, subjects received parenteral nutrition that provided adequate dietary nitrogen, vitamin, and minerals, but energy intake varied to provide 30-100% of requirements. On Day 7, the feedings were discontinued and an oral glucose load (100 g) was administered. The level of energy intake did not markedly influence the actions of GH. During nutrient infusions, GH caused positive nitrogen balance (1.0 +/- 0.3 g/m2/day vs. -1.2 +/- 0.3 in controls, p less than 0.001) and increased protein synthesis (16.8 +/- 0.7 g N/m2/day vs. 13.9 +/- 0.8, p less than 0.01). No change in the rate of protein breakdown or excretion of 3-methylhistidine occurred. GH was associated with an increase in insulin and insulin-like growth factor-I concentrations (IGF-I, 9.1 +/- 0.6 IU/ml vs. 3.3 +/- 0.5, p less than 0.001). After discontinuation of the parenteral nutrition and administration of the oral glucose load, glucose concentrations tended to be higher after GH; however, despite a two- to threefold increase in insulin response, muscle glucose uptake was attenuated (1.10 +/- 0.19 g/kg forearm vs. 1.64 +/- 0.30 in controls, p less than 0.05). Compared with control conditions, GH appeared to attenuate the increase in amino acid nitrogen efflux from muscle after the administration of oral glucose. These data demonstrate that the protein anabolic effect of GH, which occurs even during hypocaloric feedings, is related to multiple mechanisms that favor protein synthesis. These include the increase in plasma concentrations of GH, insulin IGF-I and fat utilization. GH administration results in a hormonal-substrate environment that favors nitrogen retention and protein synthesis. GH may be beneficial in promoting protein synthesis in surgical patients, particularly in association with hypocaloric glucose infusions that allow utilization of body fat as an energy source.     

Interleukin-1beta and TNF-alpha act in synergy to inhibit longitudinal growth in fetal rat metatarsal bones.

We hypothesized that pro-inflammatory cytokines can act locally in the growth plate to impair longitudinal growth. In a model of cultured fetal rat metatarsal bones, we found that IL-1beta and TNF-alpha act in synergy to inhibit longitudinal growth, an effect linked to decreased proliferation and increased apoptosis of growth plate chondrocytes. IGF-I could partially reverse all these effects. INTRODUCTION: Children with chronic inflammatory conditions, such as Crohn's disease or rheumatoid arthritis, experience impaired longitudinal growth. The inflammatory process itself, which includes upregulation of the pro-inflammatory cytokines interleukin (IL)-1beta, IL-6, and TNF-alpha, is believed to be at least partly responsible for the poor growth in these patients. This study aimed to clarify whether these cytokines can act locally in the growth plate to suppress longitudinal growth and whether any negative effects can be reversed by insulin-like growth factor-I (IGF-I). MATERIALS AND METHODS: The effects of cytokines on longitudinal bone growth were studied in fetal (day E20) rat metatarsal bones kept in culture. After a 7-day culture, the bones were sectioned, and chondrocyte proliferation was assessed by bromodeoxyuridine (BrdU) incorporation and apoptosis by TUNEL. RESULTS: When added separately, IL-1beta and TNF-alpha impaired longitudinal bone growth only at a high concentration (100 ng/ml each; p < 0.05 versus control). In contrast, when added in combination, IL-1beta and TNF-alpha potently inhibited growth at far lower concentrations (from 3 ng/ml each; p < 0.001 versus control) and also decreased chondrocyte proliferation and increased apoptosis. Growth failure induced by the combination of IL-1beta and TNF-alpha (10 ng/ml each) could be counteracted by anti-IL-1beta (100 ng/ml; p < 0.001), anti-TNF-alpha (100 ng/ml; p < 0.001), or IGF-I (100 ng/ml; p < 0.01). IL-6 did not affect longitudinal growth even when added in combination with IL-1beta or TNF-alpha (10 ng/ml each). CONCLUSIONS: We show that IL-1beta and TNF-alpha act in synergy to locally suppress longitudinal growth, an effect that can be partially reversed by IGF-I. Although growth hormone (GH)/IGF-I may improve longitudinal growth in children with chronic inflammatory diseases, our results suggest that the inflammatory process itself must be targeted to achieve normal growth.     

Growth hormone responses to growth-hormone-releasing hormone and thyrotropin-releasing hormone in diabetic patients with and without retinopathy

Growth hormone (GH) responses to growth-hormone-releasing hormone (GRH) and thyrotropin-releasing hormone (TRH) were studied in 17 diabetic patients. Ten patients (group 1) had retinopathy corresponding to stage III-V (Scott's classification), and the remaining seven patients (group 2) had no retinopathy despite longer duration of diabetes in comparison with the patients in group 1. There were no differences in age, percent of ideal body weight, and serum HbA1 levels between the two groups. Basal serum GH levels were 1.9 +/- 0.4 ng/ml (mean +/- SEM) in group 1, and not different from the values in group 2 (1.6 +/- 0.7 ng/ml). However, GH responses to synthetic human GRH-44 (1 micrograms/kg body wt, i.v. bolus) were significantly greater in group 1, as judged by the maximal response or integrated GH secretion after the administration of GRH. There were no differences in serum insulin-like growth factor I (IGF-I) levels between group 1 (262 +/- 35 ng/ml) and group 2 (232 +/- 30 ng/ml), and no significant correlation was found between serum IGF-I levels and GH responses to GRH in either of the two groups. Paradoxical GH responses to TRH (500 micrograms, i.v. bolus) were found in only one patient in each group. We have thus demonstrated that GH responses to GRH are more pronounced in diabetic patients with retinopathy than in patients without this complication, although it remains to be determined whether or not greater GH responses to GRH are causally related to the development of diabetic retinopathy.     

Short-term recombinant human growth hormone therapy does not modify growth hormone, thyrotropin and prolactin responses to thyrotropin-releasing hormone in adult dialysis patients.

BACKGROUND: We recently have reported the first randomized, controlled study on the effects of short-term recombinant human growth hormone (rhGH|| therapy on the nutritional status of a group of malnourished adult dialysis patients. In order to evaluate whether rhGH administration exerts any influence on GH, thyrotropin (TSH|| and prolactin (PRL|| responses to TSH-releasing hormone (TRH||, we assessed these responses before and after rhGH therapy. METHODS: GH, PRL and TSH responses to TRH before and 1 month after rhGH therapy in a group of adult dialysis patients were evaluated. Seventeen dialysis patients (11 on continuous ambulatory peritoneal dialysis/six on haemodialysis|| were studied (rhGH group, n=8; control group, n=9||. In the rhGH group, 0.2 IU/kg/day rhGH was administered subcutaneously. Each patient was tested with TRH (400 microg bolus i.v.|| on two separate occasions, just before and immediately after the treatment period. RESULTS: rhGH treatment did not modify baseline serum GH concentrations (6.6+/-2.7 vs 4.1+/-1.1 microg/l||, paradoxical GH responses to TRH (six out of eight patients||, GH peak (11.9+/-4.6 vs 11.2+/-5.3 microg/l, NS|| or area under the secretory curve of GH (GH AUC; 19.1+/-4.5 vs 12.1+/-3.1 microg/h/l||. Both basal PRL (35.5+/-7.1 vs 36.7+/-8.6 microg/l|| and TSH (2.3+/-1.1 vs 2.8+/-1.7 mU/l|| concentrations, as well as their responses to TRH stimulation (PRL peak, 59.9+/-16.6 vs 59. 5+/-11.8 microg/l; TSH peak, 6.2+/-2.6 vs 7.1+/-3.9 mU/l||, were also unaffected by rhGH therapy. CONCLUSION: These results suggest that short-term rhGH therapy does not significantly influence the magnitude of the somatotropic, lactotropic or thyrotropic response to TRH in adult dialysis patients. However, this finding has to be interpreted with caution due to the two different patient groups included in this study.     

Growth hormone regulation of somatomedin C/insulin-like growth factor I production and DNA replication in fetal rat islets in tissue culture

The regulation of DNA replication by growth hormone and the production of somatomedin C/insulin-like growth factor I (SM-C/IGF-I) and insulin by fetal rat islets in culture has been studied. Islets were cultured for 3 days in medium containing 2.7 or 16.7 mM glucose, various concentrations of fetal calf serum (FCS), and 100-1000 ng/ml human growth hormone (GH). DNA replication was determined by incorporation of [3H]thymidine into islet DNA; SM-C/IGF-I and insulin secreted into the medium were measured by specific radioimmunoassays. Glucose caused a twofold stimulation of islet DNA replication in medium containing greater than or equal to 1% FCS but failed to stimulate DNA replication at lower serum concentrations. In the presence of 16.7 mM glucose, GH (100-1000 ng/ml) stimulated DNA replication at all serum concentrations. In medium containing 2.7 mM glucose, GH was stimulatory only in the presence of 1% FCS. Somatomedin C/IGF-I release into the culture medium could be detected in all experimental groups. Glucose alone did not affect SM-C/IGF-I release, and in serum concentrations less than 0.1% FCS, GH also failed to increase the release of the peptide. In medium containing 1% FCS and 16.7 mM glucose, 100-1000 ng/ml GH caused a 50-100% increase in SM-C/IGF-I release into the medium. Addition of 100 ng/ml exogenous SM-C/IGF-I to medium containing 16.7 mM glucose and 0.1-1.0% FCS caused a twofold stimulation of the islet DNA replication. This effect could be abolished by the addition of an antibody to SM-C/IGF-I.(ABSTRACT TRUNCATED AT 250 WORDS)