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)

Rats were kept undernourished from birth to 24 days of age. At 17 days of age, the undernourished animals were divided into two groups and then injected with either saline or epidermal growth factor (EGF; 20 micrograms/kg) once a day for 7 days. They were killed 12-14 h after the last injection at which time the animals were 24 days old. During the experimental period the undernourished animals were prevented from weaning. A well-nourished group (weaned) which was injected with saline from 17 to 24 days of age, was also included. Undernutrition by itself significantly decreased body weight and the weight of the oxyntic gland area, antrum, and small intestine. This was also accompanied by a parallel reduction in DNA, RNA, and protein content in the oxyntic gland and small intestine. However, administration of EGF to undernourished rats resulted in a partial reversal of the situation. In undernourished rats, EGF caused significant enhancements in body weight as well as the weight of the gastrointestinal tissues and their protein and nucleic acid content when compared with the saline-treated undernourished controls. Furthermore, the magnitude of stimulation was found to be greater in the oxyntic gland than in the small intestine following EGF administration. The antral or serum gastrin levels were not affected by EGF. In both saline- and EGF-treated undernourished rats, lactase, sucrase, and alkaline phosphatase activities (expressed as total or specific activity) were found to be significantly higher than in the well-nourished animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postnatal undernutrition: effect of epidermal growth factor on growth and function of the gastrointestinal tract in rats. 620 84

Studies on the direct effects of hormones and growth factors on bone alkaline phosphatase have been limited to parathyroid hormone (PTH) and 1,25 dihydroxyvitamin D3 [1,25(OH)2D3] and have not been compared to other parameters of bone formation. Insulin, PTH, 1,25(OH)2D3, epidermal and fibroblast growth factors (EGF, FGF) were examined for their effects on alkaline phosphatase activity and type I, [alpha 1 (I)]2 alpha 2, collagen synthesis in cultures of 21-day fetal rat calvariae. After 24 hr and 96 hr of treatment, insulin increased whereas PTH, 1,25(OH)2D3, EGF and FGF inhibited calvarial alkaline phosphatase activity and the incorporation of 3H-proline into collagenase-digestible protein and type I collagen. The agents tested did not affect the release of alkaline phosphatase into the culture medium. Although type I collagen was the only collagen detected, a small amount of another collagen might have been also synthesized. The hormonal effects on alkaline phosphatase activity and type I collagen synthesis were of greater magnitude after 96 hr than after 24 hr of continuous exposure to the agents tested and the two parameters correlated well (r = 0.88 after 96 hr and r = 0.97 after 24 hr of treatment. These studies indicate that insulin increases bone alkaline phosphatase activity and type I collagen synthesis in calvariae whereas PTH, 1,25(OH)2D3, EGF and FGF have an inhibitory effect. The results suggest that these agents affect osteoblastic function.
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PMID:Effect of hormones and growth factors on alkaline phosphatase activity and collagen synthesis in cultured rat calvariae. 621 95

Primary cultures of rabbit-kidney epithelial cells derived from purified proximal tubules were maintained without fibroblast overgrowth in a hormone-supplemented serum-free medium (Medium RK-1). A hormone-deletion study indicated that the primary cultures derived from purified rabbit proximal tubules required all of the three supplements in Medium RK-1 (insulin, transferrin, and hydrocortisone) for optimal growth but did not grow in response to EGF and T3. In contrast, the epithelial cells in primary cultures derived from an unpurified preparation of rabbit kidney tubules and glomeruli grew in response to EGF and T3, as well as insulin, transferrin, and hydrocortisone. These observations suggest that kidney epithelial cells derived from different segments of the nephron grow differently in response to hormones and growth factors. Differentiated functions of the primary cultures derived from proximal tubules were examined. Multicellular domes were observed, indicative of transepithelial solute transport by the monolayers. The proximal tubule cultures also accumulated alpha-methylglucoside (alpha-MG) against a concentration gradient. However, little or no alpha-MG accumulation was observed in the absence of Na+. Metabolic inhibitor studies also indicated that alpha-MG uptake by the primaries is an energy-dependent process, and depends upon the activity of the Na+/K+ ATPase. Phlorizin at 0.1 mM significantly inhibited 1 mM alpha-MG uptake whereas 0.1 mM phloretin did not have a significant inhibitory effect. Similar observations have been made concerning the Na+-dependent sugar-transport system located on the lumenal side of the proximal tubule, whereas the Na+-independent sugar transporter on the peritubular side is more sensitive to inhibition by phloretin than phlorizin. The cultures also exhibited PTH-sensitive cyclic AMP synthesis and brush-border enzymes typical of proximal cells. However, the activities of the enzymes leucine aminopeptidase, alkaline phosphatase, and gamma-glutamyl-transpeptidase were lower in the cultures than in purified proximal-tubule preparations from which they are derived.
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PMID:Characterization of primary rabbit kidney cultures that express proximal tubule functions in a hormonally defined medium. 629 32

The regulation of synthesis and phosphorylation of osteopontin in relation to avian epiphyseal growth-plate chondrocyte differentiation was studied in situ and in culture. Osteopontin gene expression was evaluated in the tibia growth-plate of 3-week-old chickens by in situ hybridization. The gene was expressed mainly at the lower hypertrophic zone where cartilage matrix is calcified and endochondral bone formation is initiated. Within the hypertrophic region, a poorly labeled area separated the layer of osteopontin-positive hypertrophic chondrocytes from those associated with endochondral bone formation. In culture, proliferative chondrocytes show no alkaline phosphatase activity in contrast to ascorbic acid-treated chondrocytes which display the enzyme activity. Chondrocytes not treated with ascorbic acid, exhibited lower levels of osteopontin mRNA than the treated cells. The phorbol ester TPA--an activator of protein kinase C--and to a lesser extent FGF but not EGF, stimulated osteopontin gene expression. Chondrocytes secreted low levels of phosphorylated osteopontin to the medium. EGF treatment resulted in the appearance of phosphorylated osteopontin in the medium, without affecting the synthesis of other proteins. FGF and TGF beta, but not IGF-I or IGF-II, also caused phosphorylation of osteopontin. Ascorbic acid-treated chondrocytes secreted higher levels of phosphorylated osteopontin than the non-treated cells, but addition of FGF or TPA did not stimulate osteopontin phosphorylation any further. Parathyroid hormone caused a dose-dependent attenuation of osteopontin phosphorylation and inhibited the EGF-dependent osteopontin phosphorylation. The results suggest that osteopontin gene expression and phosphorylation in chondrocytes are regulated by separate mechanisms. The response to the various controlling agents varies with the state of differentiation. Both processes--the synthesis and phosphorylation of osteopontin--are under the control of local growth factors which are involved in bone growth and calcification.
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PMID:Synthesis and phosphorylation of osteopontin by avian epiphyseal growth-plate chondrocytes as affected by differentiation. 765 84

Placental alkaline phosphatase is an inducible enzyme, expressed in HeLaS3 cells, which has been shown to possess protein phosphotyrosine phosphatase activity. Since phosphotyrosine levels are known to increase in actively dividing cells we sought an inverse correlation between PLAP activity and growth rate in HeLaS3 cells. We found that PLAP inducers, Na-butyrate, dexamethasone, bromodeoxyuridine and dibutyryl cAMP caused a dose-dependent reduction in growth rate. Mimosine, an agent that blocks the cell cycle in G1, caused an increase in PLAP activity whilst the mitogen EGF caused a corresponding decrease in PLAP activity. PLAP activity may therefore be related to cell proliferation rate.
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PMID:Placental alkaline phosphatase activity is inversely related to cell growth rate in HeLaS3 cervical cancer cells. 839 40

We have developed a rapid colorimetric in situ mRNA hybridization procedure to analyze epidermal growth factor receptor (EGF-R) transcripts in paraffin-embedded surgical specimens of human colon carcinomas. This technique is based on the use of 24-base oligonucleotide probes labeled with 6 biotin molecules at the 3' end. mRNA integrity was verified using a hyperbiotinylated 30-residue-long deoxythymidylate oligonucleotide probe, and the specificity of the reaction was confirmed by using labeled EGF-R-specific sense and antisense probes. Avidin alkaline phosphatase detection and the capillary technology used in the Microprobe System allowed for completion of the procedure in under 5 h. The human A431 epidermoid carcinoma cells growing in culture and fixed with formalin as well as paraffin-embedded sections of this tumor growing s.c. in nude mice served as positive controls. In situ hybridization with antisense EGF-R oligonucleotide probes directly correlated with EGF-R mRNA and protein levels observed by Northern blot and immunohistochemistry, respectively. In situ hybridization of paraffin-embedded sections of primary human colon carcinoma and metastases from liver and lymph node revealed cell-specific staining with EGF-R antisense oligonucleotide probes that correlated directly with Northern blot and immunohistochemistry analyses. Since this rapid and sensitive in situ mRNA hybridization technique can be used in properly preserved paraffin-embedded tissue, it allows for retrospective analyses of human tumor specimens using archival material.
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PMID:A rapid colorimetric in situ messenger RNA hybridization technique for analysis of epidermal growth factor receptor in paraffin-embedded surgical specimens of human colon carcinomas. 843 66

The kidney is one of the major sites of EGF production and there it seems to play several biological functions, such as modulation of cell growth, renal repair following injury, regulation of cellular metabolism and glomerular haemodinamics. The present study was first aimed at localizing EGF and its receptor (R) in normal human kidney by immunohistochemical and in situ hybridization techniques. Then, the distribution of the growth factor and its R was explored in biopsy specimens from eight patients with acute tubulointerstitial damage. In the normal human kidney, both EGF immunoreactivity and EGF mRNA were localized in tubular profiles corresponding to Henle's loop and, although to a lesser intensity, to distal convoluted tubule. EGF immunostaining was remarkable mainly at the apical surface of tubular cells. EGF-R protein expression was detected in glomerular endothelial cells, in peritubular capillaries and arteriolar walls, as well as along the thick ascending limb of Henle's lop and distal convoluted tubule, where it colocalized with Tamm-Horsfall protein. Immunohistochemical analysis of tubular profiles revealed that EGF-R was located especially along the basolateral membrane of tubular cells and within the basal part of cytoplasm. Endogenous alkaline phosphatase and CHIP28 positive tubules did not show any signal for EGF and its receptor. Kidneys with acute tubulointerstitial injury exhibited a dramatic decrease of EGF expression, whereas EGF-R showed only minor modifications. Interestingly, EGF-R was localized to both apical and antiluminal membranes of positive tubular cells. It is concluded that EGF-EGF receptor loop may be relevant in the pathogenesis of acute tubulointerstitial damage and recovery from tubular injury, while its role in the physiological renewal of the urothelium remains speculative.
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PMID:Expression of epidermal growth factor and its receptor in normal and diseased human kidney: an immunohistochemical and in situ hybridization study. 864 6

Somatostatin modulates gastrointestinal mucosal growth and differentiation indirectly via inhibition of bioactive peptides and directly by less well understood mechanisms. We studied the direct effects of the somatostatin analog octreotide on proliferation, brush-border enzyme activity, cell-matrix interactions and intracellular cAMP in Caco-2 human intestinal epithelial cells. Proliferation was assessed by cell counting and [3H]thymidine uptake. The brush-border enzymes alkaline phosphatase (AP) and dipeptidyl dipeptidase (DP) were quantitated by synthetic substrate digestion. Adhesion and migration on purified matrix proteins were also measured. Octreotide (10(-9)-10(-5)M) shortened doubling time (46.5 +/- 6.2% at 10(-5) M, n = 20, P < 0.0001) and stimulated [3H]thymidine uptake. Octreotide decreased intracellular cAMP by 19.4 +/- 5.0% (n = 7, P < 0.0001) while dibutyryl-cAMP (10(-6) M) prolonged doubling time by 10.1 +/- 1.5% (n = 8, P < 0.0001), and blocked the octreotide effect. Octreotide decreased AP and DP with maximal effect at 10(-6) M (36.8 +/- 8.3% and 20.5 +/- 9.1%, n > 7, P < 0.0005 respectively). However, mitomycin proliferative blockade prevented octreotide inhibition of AP and DP, suggesting that the mitogenic effects of octreotide had simply decreased average maturity of the cells. Octreotide did not alter Caco-2 adhesion, EGF-or matrix-modulated motility, or integrin surface expression. Octreotide appears to directly stimulate Caco-2 proliferation by decreasing cAMP. These proliferative effects modulate Caco-2 differentiation but do not affect cell-matrix interactions.
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PMID:Octreotide differentially modulates human Caco-2 intestinal epithelial cell proliferation and differentiation by decreasing intracellular cAMP. 870 Oct 39

An Escherichia coli expression system that exploits the bacterial alkaline phosphatase (PhoA) signal sequence to translocate recombinant human epidermal growth factor (hEGF) to the periplasm was used to evaluate how changes in the composition and sequence of amino acids near the PhoA-hEGF junction influence the periplasmic accumulation of recombinant protein. A series of chimeric structural genes was generated by in vitro replacement of hEGF sequence with analogous segments from the EGF-like domain of human heregulin (HRG), significantly altering the electrostatic character of the amino-terminal region of the mature protein. Quantitation of HRG/EGF protein in E. coli periplasmic extracts, by RP-HPLC, showed a fourfold decrease after one of two acidic residues located in the amino-terminal region of the mature hEGF, near the PhoA junction, was replaced. An additional threefold decrease was observed when the second acidic residue was replaced with a positively charged lysine. Further extension of the amino-terminal HRG sequence, beyond the first six residues, resulted in net neutralization of a more distant EGF acidic residue with no additional effect on protein yield. The importance of having a negatively charged group in the amino-terminal region of the mature protein was confirmed when insertion of an aspartic acid near the amino-terminus of two poorly expressed hybrid protein sequences resulted in a five- to eightfold increase in their recovery from the periplasm. This study demonstrates the importance of having negatively charged residues near the fusion junction of recombinant proteins expressed in E. coli using the PhoA signal sequence for protein export.
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PMID:Amino-terminal charge affects the periplasmic accumulation of recombinant heregulin/EGF hybrids exported using the Escherichia coli alkaline phosphatase signal sequence. 926 80

Thyroid hormones influence growth and differentiation of bone cells. In vivo and in vitro data indicate their importance for development and maintenance of the skeleton. Triiodothyronine (T3) inhibits proliferation and accelerates differentiation of osteoblasts. We studied the regulatory effect of T3 on markers of proliferation as well as on specific markers of the osteoblastic phenotype in cultured MC3T3-E1 cells at different time points. In parallel to the inhibitory effect on proliferation, T3 down-regulated histone H4 mRNA expression. Early genes (c-fos/c-jun) are highly expressed in proliferating cells and are down-regulated when the cells switch to differentiation. When MC3T3-E1 cells are cultured under serum-free conditions, basal c-fos/c-jun expressions are nearly undetectable. Under these conditions, c-fos/c-jun mRNAs can be stimulated by EGF, the effect of which is attenuated to about 46% by T3. In addition, T3 stimulated the expression at the mRNA and protein level of osteocalcin, a marker of mature osteoblasts and alkaline phosphatase activity. All these effects were more pronounced when cells were cultured for more than 6 days. These data indicate that T3 acts as a differentiation factor in osteoblasts by influencing the expression of cell cycle-regulated, of cell growth-regulated, and of phenotypic genes.
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PMID:Triiodothyronine, a regulator of osteoblastic differentiation: depression of histone H4, attenuation of c-fos/c-jun, and induction of osteocalcin expression. 935 83


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