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 expression of insulin-like growth factor-II (IGF-II) in normal human first and third trimester placental tissue was investigated by non-isotopic in situ hybridization (ISH). This is the first ISH study on IGF-II expression in placenta using an alkaline phosphatase-labelled probe. The expression was correlated with the proliferative activity of the cells using the proliferative marker MIB-1. In first trimester tissue, IGF-II was expressed in the cytotrophoblast, the extravillous trophoblast, the fetal endothelial cells and the mesenchymal fetal cells in the villi. In third trimester tissue, IGF-II expression was found in the amnion, the extravillous trophoblast and the mesenchymal fetal cells especially in the endothelial cells and the outer contractile sheet in the stem villi. In areas with perivillous fibrin deposits, strong expression of IGF-II was found in the cytotrophoblasts invading the fibrin. In first trimester tissue, the proliferative activity of the villous cytotrophoblast correlated well with the degree of IGF-II expression whereas in third trimester tissue, there was a discrepancy between MIB-1 positivity and the IGF-II expression. Expression of IGF-II does not seem to be correlated exclusively to the mitogenic activity of cells.
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PMID:Patterns in expression of insulin-like growth factor-II and of proliferative activity in the normal human first and third trimester placenta demonstrated by non-isotopic in situ hybridization and immunohistochemical staining for MIB-1. 908 75

Orthovanadate is a known inhibitor of phosphotyrosyl protein phosphatase and is reported to stimulate osteogenic cell proliferation and differentiation when administered during the logarithmic growth phase and to potentiate the mitogenic effects of several growth factors. There is little information concerning the effects of orthovanadate on bone matrix deposition and mineralization, although there is some evidence that it increases collagen synthesis by osteogenic cells. To test the effects of orthovanadate on bone nodule formation and mineralization, osteogenic cells were exposed to 5-50 microM orthovanadate or 10(-7) M insulin-like growth factor-1 for 3, 7, and 21 days after plating. Exposure to orthovanadate produced differential effects on cellular proliferation and alkaline phosphatase activity following completion of the logarithmic growth phase, and on resultant bone nodule formation and mineralization by these populations. The effects of orthovanadate on osteogenic cultures were concentration dependent: 5 microM concentrations produced by a relatively large quantity of poorly mineralized matrix, while 30-50 microM concentrations produced a smaller quantity of heavily mineralized matrix. Thus, orthovanadate could possibly be used as a growth factor for bone, if administered at the critical dosage at the proper stage of the life cycle of the osteoblast.
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PMID:Enhancement by sodium orthovanadate of the formation and mineralization of bone nodules by chick osteoblasts in vitro. 922 45

The objectives of this study were to 1) study the GH-insulin-like growth factor (IGF) axis in adult untreated Turner's syndrome compared to that in age-matched controls; 2) examine the effects of sex hormone substitution on this axis, 3) study the effects of route of administration of 17 beta-estradiol on the measured variables, and 4) examine the effects of sex steroids on hepatic function in Turner patients. Twenty-seven patients with Turner's syndrome were evaluated before and during sex hormone replacement, and an age-matched control group (n = 24) was evaluated once. Main outcome variables were GH and other measures of the GH-IGF axis, body composition, maximal oxygen uptake, sex hormone-binding globulin, and hepatic enzymes and proteins. The integrated 24-h GH concentration (IC-GH; micrograms per L/24 h) was reduced in women with Turner's syndrome (T) compared to controls [C; mean +/- SD, 18.3 +/- 12.0 (T) vs. 37.2 +/- 29.7 (C); P = 0.007]. However, multiple regression revealed that fat-free mass (FFM) and maximal oxygen uptake were significant explanatory variables (joint r = 0.77; P < 0.0005), accounting for 60% of the variance in the 24-h IC-GH. This association was also present in controls. After adjustment for these two variables, any difference in GH concentration between Turner patients and controls disappeared. Serum IGF-I and IGF-II were identical in Turner patients and controls despite the difference in 24-h IC-GH. The level of GH-binding protein (GHBP; nanomoles per L) was higher in Turner women [1.87 +/- 0.72 (T) vs. 1.22 +/- 0.33 (C); P = 0.0005]; after adjustment for FFM, the difference in GHBP levels disappeared between Turner patients and controls. During sex hormone treatment a significant increase was seen in the 24-h IC-GH (P = 0.02), FFM (percentage of weight; P < 0.0005) and maximal oxygen uptake (milliliters of O2 per kg/min; P = 0.02). Serum IGF-I was unchanged, whereas serum IGF-II (micrograms per L) decreased significantly [Turner, basal (TB), vs. Turner, treatment (TT), 860 +/- 135 vs. 823 +/- 150; P = 0.04]. Alanine aminotransferase (units per L), gamma-glutamyl transferase (units per L), and alkaline phosphatase (units per L) were significantly elevated during the basal study period, and all decreased during treatment [alanine amino-transferase, 55 +/- 55 (TB) vs. 30 +/- 20 (TT; P = 0.006); gamma-glutamyl transferase, 92 +/- 98 (TB) vs. 43 +/- 65 (TT; P = 0.003); alkaline phosphatase, 211 +/- 113 (TB) vs. 175 +/- 54 (TT); P = 0.06]. The route of administration of 17 beta-estradiol did not affect its actions. In conclusion, we found the GH-IGF axis in Turner's syndrome to be normal, with body composition and physical fitness exerting the same modifying effects on this axis as seen in the normal population. Sex hormone replacement in Turner's syndrome is associated with normalizing effects on the GH-IGF axis, body composition, physical fitness, and hepatic function. The lowering of hepatic enzymes is a surprising and hitherto undiscovered action of sex steroids. Finally, the route of administration of 17 beta-estradiol is of minor importance in Turner's syndrome.
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PMID:Body composition and physical fitness are major determinants of the growth hormone-insulin-like growth factor axis aberrations in adult Turner's syndrome, with important modulations by treatment with 17 beta-estradiol. 925 36

The mechanism of action of thyroid hormones on bone is poorly understood. Thyroid hormones may act on bone cells either indirectly by increasing secretion of growth hormone (GH) and insulin-like growth factor-1 (IGF-1), or directly by influencing target genes via specific nuclear receptors. The presence of thyroid hormone receptors (TRs) has been demonstrated in human and rodent osteoblast-like cells and cell lines and recently in osteoclasts derived from an osteoclastoma in vitro. However, their presence in human bone in situ has not been reported. We have used specific polyclonal antibodies to TR-alpha 1, -alpha 2, and -beta 1 to investigate the expression of these receptors in sections of human osteophytes and heterotopic bone. Osteoblasts and osteoclasts were identified by alkaline phosphatase (ALP) and tartrate-resistant acid phosphatase (TRAP), respectively, whereas chondrocytes were identified morphologically. At sites of endochondral and intramembranous bone formation, TR-beta 1 and the splice variant -alpha 2 were widely expressed by proliferating, mature, and hypertrophic chondrocytes and also in cells within the fibrous tissue and at the bone forming surfaces, respectively. They were also detected in osteoblasts, osteoclasts, and a few osteocytes at sites of bone remodeling. In contrast, TR-alpha 1 was the least expressed and was present mainly in osteoblasts at remodeling sites and in a few mature and undifferentiated chondrocytes. Our results show, for the first time, the presence and distribution of TRs in human bone in situ and suggest that the skeletal actions of thyroid hormones may be mediated via these receptors. Further studies are required to define the role of the individual receptor isoforms in bone metabolism.
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PMID:The expression of thyroid hormone receptors in human bone. 926 88

The 20 S proteasome processively degrades cell proteins to peptides. Information on the sizes and nature of these products is essential for understanding the proteasome's degradative mechanism, the subsequent steps in protein turnover, and major histocompatibility complex class I antigen presentation. Using proteasomes from Thermoplasma acidophilum and four unfolded polypeptides as substrates (insulin-like growth factor, lactalbumin, casein, and alkaline phosphatase, whose lengths range from 71 to 471 residues), we demonstrate that the number of cuts made in a polypeptide and the time needed to degrade it increase with length. The average size of peptides generated from these four polypeptides was 8 +/- 1 residues, but ranged from 6 to 10 residues, depending on the protein, as determined by two new independent methods. However, the individual peptide products ranged in length from approximately 3 to 30 residues, as demonstrated by mass spectrometry and size-exclusion chromatography. The sizes of individual peptides fit a log-normal distribution. No length was predominant, and more than half were shorter than 10 residues. Peptide abundance decreased with increasing length, and less than 10% exceeded 20 residues. These findings indicate that: 1) the proteasome does not generate peptides according to the "molecular ruler" hypothesis, and 2) other peptidases must function after the proteasome to complete the turnover of cell proteins to amino acids.
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PMID:Range of sizes of peptide products generated during degradation of different proteins by archaeal proteasomes. 944 34

Skeletal alkaline phosphatase (ALP) is anchored to membrane inositol-phosphate on the outer surface of osteoblasts. Although skeletal ALP activity in serum is, essentially, all in an anchorless (soluble) form, in vitro studies indicate that ALP can be released in either an anchorless, soluble form (e.g., by a phospholipase) or an anchor-intact, insoluble form (e.g., by vesicle exocytosis). The current studies were intended to define the contributions of each of these putative processes of ALP release and to assess the significance of regulation by calcium (Ca) and skeletal effectors. ALP activity was measured in serum-free medium from replicate cultures of human osteosarcoma (SaOS-2) cells and normal human bone cells. Temperature-sensitive phase distribution (in Triton X-114) allowed separation of soluble from insoluble ALP activity. Our studies revealed that most of the ALP activity released from SaOS-2 cells was in an insoluble form (78% +/- 8%), a percentage that was constant between 2 and 96 hours. A similar result was seen for normal human bone cells. Calcium had a negative, biphasic dose-dependent effect on net release of ALP activity: r = -0.85, P < 0.001 at 24 hours, with KIapparent values for biphasic inhibition of 20 and 300 mumol/l Ca. Of the skeletal effectors tested, insulin-like growth factor-II (IGF-II) had the greatest effect, decreasing the net release of ALP activity in a dose-dependent manner (r = -0.82, P < 0.005). Neither Ca nor IGF-II affected the distribution of soluble/insoluble ALP activity by more than 9%. IGF-II had no effect on extracellular ALP stability, but the addition of Ca to Ca-free cultures resulted in parallel losses of extracellular ALP activity and ALP immunoreactive protein (P < 0.001 for each). A similar effect was seen when Ca was added to Ca-free, cell-free, conditioned medium, but not when Ca was added to purified ALP, which is consistent with the general hypothesis that a Ca-dependent protease might be present in the cell-conditioned medium. Together, these data suggest that most of the ALP activity released from osteoblasts is insoluble (and, presumably, anchorless), net release of ALP activity is negatively regulated by Ca and skeletal growth factors, the effect of Ca may reflect Ca-dependent protease activity, and an exogenous (e.g., serum) phospholipase may be responsible for releasing ALP from its insoluble anchor.
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PMID:Skeletal alkaline phosphatase activity is primarily released from human osteoblasts in an insoluble form, and the net release is inhibited by calcium and skeletal growth factors. 950 59

The purpose of this study was to evaluate the pharmacological and toxicological effects of exogenous GH administration in normal adult dogs. Because porcine GH (pGH) is structurally identical to canine GH, pGH was selected for a 14-wk study in dogs. Thirty-two dogs (< 2 yr) were randomized to 4 groups (4 dogs/sex/group); 1 group was treated with the vehicle and 3 groups received pGH at 0.025, 0.1, or 1.0 IU/kg/day subcutaneously. Daily clinical signs and weekly body weights were recorded. Hematology, serum biochemistry, urinalyses, electrocardiograms, and ophthalmoscopic examinations were done. Serum GH, insulin-like growth factor-1 (IGF-1), insulin, thyroxine (T4), triiodothyronine (T3), and cortisol levels were determined. Necropsies were performed, organs weighed, and tissues were fixed and processed for light microscopic examination. Porcine GH caused increased body weight gain (p < or = 0.05) through the mid dose; the mean weight gains at study termination in mid- and high-dose groups were 2.8 kg and 4.7 kg, respectively, compared to 0.4 kg and 0.8 kg in control and low-dose groups, respectively. Dose-related increased weights of liver, kidney, thyroid, pituitary gland, skeletal muscle, and adrenal gland were noted. In pGH-treated dogs, increased skin thickness seen grossly correlated histologically with increased dermal collagen. There was no gross or histomorphological evidence of edema. There were dose-related increased serum IGF-1 levels (approximately 2-10-fold; p < or = 0.05) that correlated with the elevated serum GH levels in pGH-treated dogs. Also, increased serum insulin levels (p < or = 0.05) through the mid dose were seen throughout the study. In high-dose dogs, the insulin levels remained elevated over 24 hr postdose. The serum glucose levels in fasted dogs remained within the control range and there was no chronic hyperglycemia based on glycosylated hemoglobin levels. Renal glomerular changes, significant polyuria with decreased urine specific gravity, and increased serum insulin levels suggested that the dogs had early insulin-resistant diabetes. There was minimal or no biologically significant effect of pGH on serum T3, T4, and cortisol levels in dogs. Other serum biochemical changes in pGH-treated dogs included decreased urea nitrogen and creatinine, and increased potassium, cholesterol, and triglycerides. Significant increases in serum calcium and phosphorous levels and alkaline phosphatase activity (bone isozyme) correlated with the histological changes in bone. In pGH-treated dogs, there was a dose-related normochromic, normocytic, nonregenerative anemia. The changes described above, except for the anemia, are related to either anabolic or catabolic effects of high doses of GH. Based on this study, it is concluded that the dog is a good model in which to evaluate the safety of GH secretagogues as well as compounds with GH-like activity.
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PMID:Pharmacological and toxicological effects of chronic porcine growth hormone administration in dogs. 954 58

In Duchenne muscular dystrophy (DMD), short stature is a feature of unknown cause. This cross-sectional study of 34 male patients (mean age 8.0 y, age range 1.2-13.7 y) was conducted to examine the relationship between auxological parameters, markers of growth and the extent of muscular weakness. Weight and length at birth (SDS +/- SD; 0.0 +/- 1.2; 0.2 +/- 1.5) and target height SDS (-0.2 +/- 0.7) were normal. Height (HT) SDS (-1.0 +/- 1.1) was lower than the normal population (p < 0.001) and did not correlate with age. Body mass index SDS (-0.1 +/- 1.6) was normal. Tests of insulin-like growth factor-I SDS (-0.6 +/- 1.2) and insulin-like growth factor binding protein-3 SDS (0.1 +/- 1.3) ruled out a severe derangement in the GH-IGF-axis. The carboxy-terminal propeptide of type I procollagen (PICP) SDS (0.6 +/- 1.5) was normal, but bone-specific alkaline phosphatase (BAP) SDS (-1.7 +/- 0.8) was low (p <0.001). HT SDS did not correlate with BAP SDS. The Vignos scale, a grading of muscular function (score: 0 = unaffected; 11 = confined to bed) (median (range): 3 (0-9)) correlated strongly with age (r = 0.77, p < 0.0001), but did not correlate with HT SDS, PICP SDS or BAP SDS. In conclusion, DMD patients are significantly shorter than the normal population, though the HT SDS does not change with age. Growth hormone deficiency does not seem to be the cause of short stature in DMD. Significantly low BAP levels are probably the result of the reduced muscle mass, which leads to a lower biomechanical load on the bone and thus a reduction in bone turnover. The short stature observed in our study is unlikely to be the result of muscular weakness.
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PMID:Short stature in Duchenne muscular dystrophy: a study of 34 patients. 1009 May 50

We have identified and cloned a novel connective tissue growth factor-like (CTGF-L) cDNA from primary human osteoblast cells encoding a 250-amino acid single chain polypeptide. Murine CTGF-L cDNA, encoding a polypeptide of 251 amino acids, was obtained from a murine lung cDNA library. CTGF-L protein bears significant identity ( approximately 60%) to the CCN (CTGF, Cef10/Cyr61, Nov) family of proteins. CTGF-L is composed of three distinct domains, an insulin-like growth factor binding domain, a von Willebrand Factor type C motif, and a thrombospondin type I repeat. However, unlike CTGF, CTGF-L lacks the C-terminal domain implicated in dimerization and heparin binding. CTGF-L mRNA ( approximately 1.3 kilobases) is expressed in primary human osteoblasts, fibroblasts, ovary, testes, and heart, and a approximately 26-kDa protein is secreted from primary human osteoblasts and fibroblasts. In situ hybridization indicates high expression in osteoblasts forming bone, discrete alkaline phosphatase positive bone marrow cells, and chondrocytes. Specific binding of 125I-labeled insulin-like growth factors to CTGF-L was demonstrated by ligand Western blotting and cross-linking experiments. Recombinant human CTGF-L promotes the adhesion of osteoblast cells and inhibits the binding of fibrinogen to integrin receptors. In addition, recombinant human CTGF-L inhibits osteocalcin production in rat osteoblast-like Ros 17/2.8 cells. Taken together, these results suggest that CTGF-L may play an important role in modulating bone turnover.
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PMID:Identification and cloning of a connective tissue growth factor-like cDNA from human osteoblasts encoding a novel regulator of osteoblast functions. 1035 67

Biochemical markers of bone turnover can be used to study the pathophysiology of osteoporosis. So far there have been few such studies in men. The aims of this study were to determine the effect of aging on bone turnover and to identify which hormones might regulate bone turnover in men. We studied 178 healthy Caucasian men, ages 20-79 years (30 per decade). The data for the effect of age on bone turnover was best fit by a quadratic function (nadirs at age 56, 57, 53, 39, and 58 years for intact propeptide of type I procollagen, osteocalcin, bone alkaline phosphatase, free deoxypyridinoline, and cross-linked N-telopeptides of type I collagen, respectively). For most markers, bone turnover tended to be highest in the third decade, lowest in the fifth and sixth decade, with a small increase in some markers in the eighth decade. Insulin-like growth factor-I (IGF-I), insulin-like growth factor binding protein-3, dehydroepiandrosterone sulfate, testosterone, estradiol, and free androgen index all decreased significantly with age (54, 17, 76, 26, 33, and 57%, respectively), while sex hormone binding globulin and parathyroid hormone increased significantly with age (62% and 43%). IGF-I and sex hormones were positively correlated with bone turnover, and this association was stronger in young men than older men. In conclusion, increased IGF-I and sex hormones may be associated with increased bone turnover in young men, with less influence on bone turnover in older men.
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PMID:Age-related changes in bone turnover in men. 1040 22


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