Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The goals of this study were to examine the role of insulin-like growth factor I (IGF-I) on bone formation and to test the hypothesis that the inhibitory effects of glucocorticoids on bone formation are independent of the IGF-I pathway. In serum-free organ cultures of 18-day fetal mouse calvariae derived from Igf1 null mice (Igf1-/-) and their wild-type (Igf1+/+) and heterozygous (Igf1+/-) littermates, we measured the incorporation of [3H]proline into collagenase-digestible protein (CDP) and noncollagen protein (NCP), percent collagen synthesis (PCS), the incorporation of [3H]thymidine into DNA, and messenger RNA (mRNA) levels of osteoblast markers in the presence or absence of dexamethasone. After 24 h of culture, calvariae of all genotypes had similar levels of PCS. However, after 48-96 h of culture, PCS was significantly lower in Igf1-/- calvariae compared with Igf1+/+ calvariae. Treatment of calvariae with 100 nM of dexamethasone for 48-96 h decreased PCS in all genotypes. After 72 h of culture, [3H]thymidine incorporation was similar in all genotypes and 100 nM dexamethasone caused a significant reduction in [3H]thymidine incorporation in all genotypes. Dexamethasone at 100 nM decreased alpha1(I)-collagen (Colla1) mRNA and increased alkaline phosphatase, bone sialoprotein, and osteopontin mRNA in all genotypes after 72 h of culture. Type I IGF receptor mRNA levels were highest in Igf1-/- calvarial cultures. Dexamethasone at 100 nM increased Igf2 and type I IGF receptor mRNA levels in all genotypes. We conclude that one intact allele for Igf1 is sufficient to maintain normal rates of collagen synthesis in fetal mouse calvarial cultures. Moreover, the inhibitory effects of glucocorticoids on collagen synthesis and cell replication are at least partially independent of the IGF-I pathway in this model.
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PMID:Calvariae from fetal mice with a disrupted Igf1 gene have reduced rates of collagen synthesis but maintain responsiveness to glucocorticoids. 1102 48

GH increases bone turnover and stimulates osteoblast activity. We hypothesized that administration of MK-677, an orally active GH secretagogue, together with alendronate, a potent inhibitor of bone resorption, would maintain a higher bone formation rate relative to that seen with alendronate alone, thereby generating greater enhancement of bone mineral density (BMD) in women with postmenopausal osteoporosis. We determined the individual and combined effects of MK-677 and alendronate administration on insulin-like growth factor I levels and biochemical markers of bone formation (osteocalcin and bone-specific alkaline phosphatase) and resorption [urinary N-telopeptide cross-links (NTx)] for 12 months and BMD for 18 months. In a multicenter, randomized, double blind, placebo-controlled, 18-month study, 292 women (64-85 yr old) with low femoral neck BMD were randomly assigned in a 3:3:1:1 ratio to 1 of 4 daily treatment groups for 12 months: MK-677 (25 mg) plus alendronate (10 mg); alendronate (10 mg); MK-677 (25 mg); or a double dummy placebo. Patients who received MK-677 alone or placebo through month 12 received MK-677 (25 mg) plus alendronate (10 mg) from months 12-18. All other patients remained on their assigned therapy. All patients received 500 mg/day calcium. The primary results, except for BMD, are provided for month 12. MK-677, with or without alendronate, increased insulin-like growth factor I levels from baseline (39% and 45%; P < 0.05 vs. placebo). MK-677 increased osteocalcin and urinary NTx by 22% and 41%, on the average, respectively (P < 0.05 vs. placebo). MK-677 and alendronate mitigated the reduction in bone formation compared with alendronate alone based on mean relative changes in serum osteocalcin (-40% vs. -54%; P < 0.05, combination vs. alendronate) and reduced the effect of alendronate on resorption (NTx) as well (-52% vs. -61%; P < 0.05, combination vs. alendronate). MK-677 plus alendronate increased BMD at the femoral neck (4.2% vs. 2.5% for alendronate; P < 0.05). However, similar enhancement was not seen with MK-677 plus alendronate in BMD of the lumbar spine, total hip, or total body compared with alendronate alone. GH-mediated side effects were noted in the groups receiving MK-677, although adverse events resulting in discontinuation from the study were relatively infrequent. In conclusion, the anabolic effect of GH, as produced through the GH secretagogue MK-677, attenuated the indirect suppressive effect of alendronate on bone formation, but did not translate into significant increases in BMD at sites other than the femoral neck. Although the femoral neck is an important site for fracture prevention, the lack of enhancement in bone mass at other sites compared with that seen with alendronate alone is a concern when weighed against the potential side effects of enhanced GH secretion.
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PMID:Effect of alendronate and MK-677 (a growth hormone secretagogue), individually and in combination, on markers of bone turnover and bone mineral density in postmenopausal osteoporotic women. 1123 95

We assessed the effectiveness and safety of 3 yr combined GH and GnRH agonist (GnRHa) treatment in a randomized controlled study in children with idiopathic short stature (ISS) or intrauterine growth retardation (IUGR). Gonadal suppression, GH reserve, and adrenal development were assessed by hormone measurements in both treated children and controls during the study period. Thirty-six short children, 24 girls (16 ISS/8 IUGR) and 12 boys (8 ISS/4 IUGR), with a height SD score of -2 SD or less in early puberty (girls, B2-3; boys, G2-3), were randomly assigned to treatment (n = 18) with GH (genotropin 4 IU/m(2). day) and GnRHa (triptorelin, 3.75 mg/28 days) or no treatment (n = 18). At the start of the study mean (SD) age was 11.4 (0.56) or 12.2 (1.12) yr whereas bone age was 10.7 (0.87) or 10.9 (0.63) yrs in girls and boys, respectively. During 3 yr of study height SD score for chronological age did not change in both treated children and controls, whereas a decreased rate of bone maturation after treatment was observed [mean (SD) 0.55 (0.21) 'yr'/yr vs. 1.15 (0.37) 'yr'/yr in controls, P < 0.001, girls and boys together]. Height SD score for bone age and predicted adult height increased significantly after 3 yr of treatment; compared with controls the predicted adult height gain was 8.0 cm in girls and 10.4 cm in boys. Furthermore, the ratio between sitting height/height SD score decreased significantly in treated children, whereas body mass index was not influenced by treatment. Puberty was effectively arrested in the treated children, as was confirmed by physical examination and prepubertal testosterone and estradiol levels. GH-dependent hormones including serum insulin-like growth factor I and II, carboxy terminal propeptide of type I collagen, amino terminal propeptide of type III collagen, alkaline phosphatase, and osteocalcin were not different between treated children and controls during the study period. Thus, a GH dose of 4 IU/m(2) seems adequate for stabilization of the GH reserve and growth in these GnRHa-treated children. We conclude that 3 yr treatment with GnRHa was effective in suppressing pubertal development and skeletal maturation, whereas the addition of GH preserved growth velocity during treatment. This resulted in a considerable gain in predicted adult height, without demonstrable side effects. Final height results will provide the definite answer on the effectiveness of this combined treatment.
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PMID:A randomized controlled trial of three years growth hormone and gonadotropin-releasing hormone agonist treatment in children with idiopathic short stature and intrauterine growth retardation. 1144 52

Limb lengthening in the left tibia of 30 mature female Yucatan micropigs was performed using distraction osteogenesis. A treatment group of 15 animals received recombinant porcine growth hormone (r-pGH) (100 microg/kg/day) while the others served as controls. Serial serum measurements of total insulin-like growth factor I (IGF-I), free IGF-I, IGF binding proteins -1, -2, -3 and -4 (IGFBP-1 to -4) were performed. Bone-specific alkaline phosphatase (bone-ALP) and the serum carboxyl-terminal telopeptide of type I collagen (ICTP) were measured as bone turnover markers. The GH-treated animals showed a significant increase in total IGF-I, free IGF-I and IGFBP-3 after surgery (P<0.001). Similarly, the treated animals showed a significantly higher level of bone-ALP (P<0.001) throughout the experiment compared to the controls. There was a significant correlation between bone-ALP and total IGF-I (r=0.76) in the GH-treated group and an even higher correlation for free IGF-I (r=0.90). There was no difference in the ICTP serum levels between the two groups. These data indicate that the application of species-specific growth hormone results in a stimulation of bone formation in distraction osteogenesis which may be mediated by IGF-I. The stronger correlation between free IGF-I and bone-ALP indicates that the anabolic effect of IGF-I may be regulated through the IGFBPs by binding and inactivating IGF-I.
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PMID:The effect of growth hormone on insulin-like growth factor I and bone metabolism in distraction osteogenesis. 1173 50

The present studies were designed to determine whether recombinant human growth hormone (rhGH) can counteract some of the catabolic effects of glucocorticosteroid therapy in children chronically treated with glucocorticosteroids. Whether rhGH can safely improve short-term linear growth was also investigated. The effect of rhGH on disease activity was also assessed. Ten children (6 boys, 4 girls) with inflammatory bowel disease (IBD) on oral prednisone for at least 4 months prior to these studies were recruited (mean +/- SE, 11.9 +/- 0.9 years). Leucine and glucose isotope studies, body composition, substrate oxidation and energy expenditure rates, and growth factors were measured at baseline (D1) and at 4 months after treatment with rhGH (0.05 mg/ kg. d subcutaneously [SC]) while continuing oral prednisone. Dual-emission x-ray absorptiometry (DEXA) and calcium kinetic analysis ((42)Ca/(46)Ca) were performed also. rhGH was continued for 6 months to assess linear growth in all 10 subjects, 7 of whom continued rhGH for 12 months. Body composition changed favorably with increased fat free mass (+3 kg, P =.001) and decreased percent fat mass (-3.5%, P =.001) after 4 months of treatment. Rates of whole body protein turnover, oxidation, and synthesis remained invariant, with no changes in substrate oxidation or resting energy expenditure rates. Linear growth velocity increased from 3.5 +/- 0.4 cm/yr when the patients were treated with prednisone only, to 7.7 +/- 0.9 after 6 months of combined prednisone/rhGH (P =.001). The growth velocity was sustained in the 7 patients treated with rhGH for 12 months. Plasma insulin-like growth factor I (IGF-I) and insulin-like growth factor binding protein-3 (IGFBP-3) concentrations also increased significantly while on rhGH treatment. No changes in calcium absorption were observed but there was a significant increase in kinetic rates of bone calcium accretion (P =.045) as well as in bone-specific alkaline phosphatase concentrations, a measure of bone formation (P =.03). Fasting and 2-hour postprandial glucose concentrations, fasting insulin levels, and HbA(1C) were invariant during combined rhGH/prednisone treatment. The Crohn's disease activity score was unchanged with rhGH therapy. In summary, rhGH treatment of corticosteroid-dependent patients with IBD was associated with positive changes in body composition, bone metabolism, and linear growth, without deterioration of carbohydrate tolerance or intermediate metabolism of substrates. We conclude that treatment with rhGH has beneficial effects in prednisone-dependent growing children. Larger studies will be needed to assess the long-term safety and efficacy of this approach.
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PMID:Growth hormone has anabolic effects in glucocorticosteroid-dependent children with inflammatory bowel disease: a pilot study. 1178 84

BACKGROUND: Insulin-like growth factor (IGF) system components are important regulators of bone formation. Alterations of individual IGF system components have been described in osteoporosis (OP) patients; however, no study has addressed changes in free IGF-I and in all six IGF binding proteins (IGFBPs). METHODS: A cross-sectional study was performed in 45 OP patients and 100 healthy matched controls. Serum levels of free and total insulin-like growth factor I (IGF-I), IGFBP-1 through -6, intact parathyroid hormone (PTH), 25-OH-vitamin D(3) (25OHD(3)), 1,25-(OH)(2)-vitamin D(3) (1,25-(OH)(2)D(3)), osteocalcin (OSC), bone alkaline phosphatase (B-ALP), and carboxyterminal propeptide of type-I procollagen (PICP) were measured with specific assays. Bone mineral density (BMD) of the lumbar spine was determined by dual-energy X-ray absorptiometry (DEXA). RESULTS: Compared with age- and sex-matched control subjects, OP patients showed a 73% decrease in free IGF-I, a 29% decrease in total IGF-I, a 10% decrease in IGFBP-3, and a 52% decrease in IGFBP-5 levels; they had higher levels of IGFBP-1 (4.1-fold), IGFBP-2 (1.8-fold), IGFBP-4 (1.3-fold), and IGFBP-6 (2.1-fold). Alterations in IGF system components were most evident in 13 OP patients with vertebral fractures in the past 4 years compared to patients without fractures. In OP patients with fractures, the ratio between IGFBP-4 and IGFBP-5 was increased whereas levels of OSC were decreased. CONCLUSIONS: Our data provide strong indirect evidence for a functional connection between circulating IGF system components and bone metabolism and the susceptibility to fractures in OP patients.
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PMID:Serum levels of insulin-like growth factor (IGF)-I and IGF binding protein (IGFBP)-1 to -6 and their relationship to bone metabolism in osteoporosis patients. 1255 8

Chemical mutagenesis followed by screening for abnormal phenotypes in the mouse holds much promise as a method for revealing gene function. We describe a mouse N-ethyl-N-nitrosourea (ENU) mutagenesis program incorporating a genomewide screen of dominant as well as recessive mutations affecting musculoskeletal disorders in C3H/HeJ mice. In a primary screen, progeny of one-generation dominant mutations (F(1)) and three-generation recessive (F(3)) mutations were screened at 10 weeks of age for musculoskeletal disorders using dual-energy X-ray absorptiometery (DEXA) and biochemical markers affecting bone metabolism, such as osteocalcin, type I collagen breakdown product, skeletal alkaline phosphatase, and insulin-like growth factor I (IGF-I). Abnormal phenotypes were identified as +/-3SD units different from baseline data collected from age- and sex-matched nonmutagenized control mice. A secondary screen at 16 weeks of age, which included peripheral quantitative computed tomography (pQCT) in addition to those parameters described in our primary screen, was used to confirm the abnormal phenotypes observed in the primary screen. The phenodeviant or outlier mice were progeny tested to determine whether their abnormality segregates bimodally in their offspring with the expected 1:1 or 1:3 Mendelian ratio, in dominant and recessive screens, respectively. With the above screening strategy, we were able to identify several mice with quantitative abnormalities in BMD, BMC, bone size, and bone metabolism. We have progeny tested and confirmed four outliers with low BMD, low bone size, and growth-related abnormality. Our results indicate that the magnitude of change in quantitative phenotypes in the ENU-mutagenized progeny was between 10 and 15%, and hence, the yield of outliers was dependent on the precision of the methods. So far, this ENU mutagenesis program has identified four outliers that can undergo positional cloning.
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PMID:A genomewide screening of N-ethyl-N-nitrosourea-mutagenized mice for musculoskeletal phenotypes. 1449 51

Insulin-like growth factor-binding protein-5 (IGFBP-5) is abundantly expressed in bone cells. To determine the physiological role(s) of endogenous IGFBP-5 in regulating bone cell growth, differentiation, and survival, we used short double-stranded RNA (siRNA) to trigger RNA interference of IGFBP-5 in human osteosarcoma cells. The IGFBP-5 siRNA, targeting against a sequence unique to the IGFBP-5 middle domain, efficiently reduced IGFBP-5 mRNA and protein levels. The IGFBP-5 siRNA did not change the levels of IGFBP-4, a structurally related protein, or glyceraldehyde-3-phosphate dehydrogenase, a housekeeping gene. Knock-down of IGFBP-5 resulted in a significant increase in the number of transferase-mediated dUTP nick end labeling-positive cells and a decrease in a bone differentiation parameter (alkaline phosphatase activity) but had little effect on basal or insulin-like growth factor I-induced proliferation. Overexpression of a siRNA-resistant IGFBP-5 mutant in the IGFBP-5 knock-down cells restored the levels of survival to the control level; overexpression of IGFBP-4 or wild type IGFBP-5 had no such effect. Paradoxically, the addition of exogenous IGFBP-5 not only failed to rescue IGFBP-5 knock-down-induced apoptosis, it caused a further increase in apoptosis. Furthermore, the addition of exogenous IGFBP-5 alone increased apoptosis. This pro-apoptotic action of exogenous IGFBP-5 was abolished when IGF-I was added in excess, suggesting that exogenous IGFBP-5 increases apoptosis by binding to and inhibiting the activities of insulin-like growth factors. These results indicate that endogenous and exogenous IGFBP-5 exhibits opposing biological actions on cell survival and underscore the necessity and utility of studying IGFBP functions through loss-of-function approaches.
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PMID:Paradoxical actions of endogenous and exogenous insulin-like growth factor-binding protein-5 revealed by RNA interference analysis. 1515 55

The biochemical markers of bone metabolism (osteocalcin (OC), C- and N-terminal procollagen I propeptides (PICP) and PINP), bone alkaline phosphatase (BALP), deoxypyridinoline (DPD), beta-crosslaps (beta-CL), bone acid phosphatase (BAP), osteoprotegerin (OPG), insulin-like growth factor I (IGF-I), and parathyroid hormone (PTH)), daily urinary calcium excretion (DUCE) (intestinal calcium absorption), and lumbar and hip bone mineral density (BMD) were determined in 195 patients (78 females and 74 males with normal function of the grafted kidney and 11 females and 31 males with chronic renal failure (CRF) 40 +/- 33 months after renal transplantation (RT). All RT recipients received triple immunosuppressive therapy (cyclosporin, prednisolone, and azathioprine). All groups showed a significant increase in resorption markers and a moderate increase in bone formation markers (except BALP), which suggested bone remodeling dissociation, as well as elevated levels of PTH and OPG and decreased DUCE and BMD in the vertebral column and hip. Increased bone metabolism and decreased intestinal calcium absorption were largely pronounced in CRF. In the majority of recipients, the BMD reduction in the vertebral column and hip was moderate (osteopenia) and only in male recipients with CRF, axial osteopenia was concurrent with peripheral osteoporosis. The main predictor of accelerated bone metabolism and BMD losses following RT was hyperparathyroidism mainly caused by decreased renal graft function. Decreased IGF-I may be a cause of bone remodeling dissociation after RT/ and the increase in OPG seems to be compensatory, which suppresses bone resorption and reduces bone losses.
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PMID:[Biochemical markers of bone metabolism and bone tissue losses after allotransplantation of the cadaveric kidney: a cross-sectional]. 1640 67

Human adult mesenchymal stem cells (hMSCs) differentiate into an osteogenic lineage if the appropriate differentiative cues, such as dexamethasone or bone morphogenetic protein 2 (BMP-2), are present. This study was undertaken to determine the role of insulin-like growth factor I (IGFI) in the regulation of early osteoblast differentiation in hMSC. Previous studies have shown that IGF-I, regulates bone formation and remodeling by participating in the differentiation of mature cells of osteoblast lineage. We hypothesized that IGF-I exerted its effects early, but the effects were too subtle to be detected. Therefore, engineered hMSCs to produce IGF-I via adenoviral transfection and used quantitative real-time PCR (qPCR) to assess marker gene expression. Here we show that IGF-I up-regulates Type I collagen, Runx2, and alkaline phosphatase (Alp) gene expression in hMSCs, genes indicative of early osteogenic differentiation. We also observed mineral deposition in the absence of dexamethasone (Dex) in hMSC cultures treated with recombinant human BMP-2 after transduction with Ad-IGF-I. In conclusion Igf-I transduction up-regulated markers of osteoblastic differentiation and in conjunction with recombinant BMP-2-induced matrix mineralization independently of Dex (see Salasznyk et al., Stem Cells Dev 14(6):608-620, 2005, this issue).
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PMID:Insulin-like growth factor-I induces early osteoblast gene expression in human mesenchymal stem cells. 1643 17


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