EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Osteopontin, bone sialoprotein, and bone acidic glycoprotein-75 are three acidic phosphoproteins that are isolated from the mineralized phase of bone matrix, are synthesized by osteoblastic cells, and are generally restricted in their distribution to calcified tissues. Although each is a distinct gene product, these proteins share aspartic/glutamic acid contents of 30-36% and each contains multiple phosphoryl and sialyl groups. These properties, plus a strict relationship of acidic macromolecules with cell-controlled mineralization throughout nature, suggest functions in calcium binding and nucleation of calcium hydroxyapatite crystal formation. However, direct proof for such roles is still largely indirect in nature. The purpose of this review is to present two speculative hypotheses regarding acidic phosphoprotein function. The goal was to use new sequence information along with database comparisons to develop a structural rationalization of how these proteins may function in calcium handling by bone. For example, our analysis has identified a conserved polyacidic stretch in all three phosphoproteins which we propose mediates metal binding. Also, conserved motifs were identified that are analogous with those for casein kinase II phosphorylation sites and whose number correlates well with that of phosphoryl groups/protein. A two-state conformational model of calcium binding by bone matrix acidic phosphoproteins is described which incorporates these findings.
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PMID:Acidic phosphoproteins from bone matrix: a structural rationalization of their role in biomineralization. 159 74

The chicken bone phosphoprotein (approximately 66-kDa BPP) is a major noncollagenous component of bone and is the major phosphoprotein synthesized by cultured chicken embryo osteoblasts [Gotoh, Y., Gerstenfeld, L. C., & Glimcher, M. J. (1990) Eur. J. Biochem. 87, 49-58]. A cDNA clone for this protein was isolated from an expression library made from embryonic chicken bone mRNA. The complete primary protein sequence of 264 amino acids was deduced from the cDNA sequence inclusive of a 16 amino acid signal peptide sequence and terminated by 4 in-frame stop sequences. A sequence alignment indicated an approximate 35% overall similarity in protein sequence between the avian approximately 66-kDa BPP and the mammalian protein osteopontin, while at the nucleotide level 60% similarity was observed. Features of this sequence which showed the greatest similarity to mammalian osteopontin included a region in which seven of nine consecutive residues are aspartic acid, a recognition sequence for integrin-mediated cell binding (-Arg-Gly-Asp), and four possible recognition sequences for phosphorylation by casein kinase II. Hybridization analysis indicated a message of 1.5 kb found predominantly in bone and kidney. The mRNA was inducible in phorbol ester treated primary cultures of chondrocytes which show no expression under normal growth conditions. A temporal induction was seen during osteoblastic differentiation both in vivo and in vitro, thus suggesting that regulation of the approximately 66-kDa BPP is under transcriptional control during osteoblast development. In summary, both the protein's primary structure and its biological features suggest that it is the avian homologue to mammalian protein osteopontin.
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PMID:Characterization of a cDNA for chicken osteopontin: expression during bone development, osteoblast differentiation, and tissue distribution. 200 76

Parathyroid hormone (PTH) plays a central role in regulation of calcium metabolism. For example, excessive or inappropriate production of PTH or the related hormone, parathyroid hormone related protein (PTHrP), accounts for the majority of the causes of hypercalcemia. Both hormones act through the same receptor on the osteoblast to elicit enhanced bone resorption by the osteoclast. Thus, the osteoblast mediates the effect of PTH in the resorption process. In this process, PTH causes a change in the function and phenotype of the osteoblast from a cell involved in bone formation to one directing the process of bone resorption. In response to PTH, the osteoblast decreases collagen, alkaline phosphatase, and osteopontin expression and increases production of osteocalcin, cytokines, and neutral proteases. Many of these changes have been shown to be due to effects on mRNA abundance through either transcriptional or post-transcriptional mechanisms. However, the signal transduction pathway for the hormone to cause these changes is not completely elucidated in any case. Binding of PTH and PTHrP to their common receptor has been shown to result in activation of protein kinases A and C and increases in intracellular calcium. The latter has not been implicated in any changes in mRNA of osteoblastic genes. On the other hand activation of PKA can mimic all the effects of PTH; protein kinase C may be involved in some responses. We will discuss possible mechanisms linking PKA and PKC activation to changes in gene expression, particularly at the nuclear level.
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PMID:Signal transduction pathways mediating parathyroid hormone regulation of osteoblastic gene expression. 796 63

Recent evidence indicates that osteopontin (Opn), one of the bone matrix proteins, plays an important role in the attachment of osteoclasts to bone matrix. Besides being elaborated by osteoblasts, this protein is also produced by osteoclasts. The present study was performed to examine the effect of calcitonin (CT) on Opn mRNA expression of isolated rabbit osteoclasts and to clarify the second messenger signaling of this effect. Eel CT inhibited Opn mRNA expression as well as bone-resorbing activity of isolated rabbit osteoclasts. Eel CT caused a transient increase in intracellular calcium followed by a sustained increase as well as an increase in cAMP production in these cells. Dibutyryl-cAMP (10(-4) M) and Sp-cAMPS (10(-4) M), an activator of cAMP-dependent protein kinase (PKA), as well as A23187 (10(-7) M), a calcium ionophore, and phorbol myristate acetate (10(-7) M), an activator of protein kinase C (PKC), caused a significant inhibition of Opn mRNA expression, and suppressed bone-resorbing activity of isolated osteoclasts. The present study is the first to demonstrate that CT inhibits Opn mRNA expression in isolated rabbit osteoclasts, presumably through the activation of PKA and calcium/PKC pathways, by which the bone-resorbing activity might be attenuated subsequently.
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PMID:Calcitonin inhibits osteopontin mRNA expression in isolated rabbit osteoclasts. 801 90

A genomic clone of the chicken osteopontin-encoding gene (opn) was isolated and found to be organized as follows: an untranslated 5' exon; a signal peptide; a recognition sequence for phosphorylation by casein kinase II; a domain containing a possible O-linkage site for glycosylation; a second casein kinase II phosphorylation site; an exon containing three functional regions, the poly-Asp sequence of seven consecutive Asp residues, the RGD integrin recognition site and a potential N-linkage site for glycosylation; and a large C-terminal exon which also contains a potential N-linkage site for glycosylation. Primer extension analysis demonstrated only one strong transcriptional start point (tsp) in mRNAs prepared from embryonic bone and cultured osteoblasts. Analysis of the 5' flanking region identified a TATA sequence at -31, an inverted CAAT motif at -57, an AP1-recognition sequence at -84 and a putative vitamin-D-response element (VDRE) sequence at -474. Three plasmid constructs containing 963, 561 and 368 bp of 5' flanking sequence of the avian promoter were used to drive expression of bacterial cat. Comparison of the relative promoter activities of these constructs was carried out in MC3T3/E1 cells, a murine osteoblast cell line. All of the constructs showed approximately 20-fold the levels of expression over background activity of the cat gene without a promoter. Each construct also demonstrated a strong induction with phorbol-12-myristyl-13-acetate (PMA). In contrast, dihydroxycholecalciferol [1,25(OH)2D3] had neither a positive nor a negative effect on the 368- and 936-bp constructs, but was stimulatory for the 561-bp construct.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the chicken osteopontin-encoding gene. 814 23

Fourteen phosphoserines and one phosphothreonine have been localized in a partial amino acid sequence of bovine milk osteopontin. Twelve of the phosphoserines are located in a Ser-X-Glu/Ser(P) sequence motif, suggesting that the phosphorylations are catalyzed by the mammary gland casein kinase. Two phosphoserines were found not to be located in a mammary gland casein kinase recognition sequence. Instead these two phosphoserines were located in the motif Ser-X-X-Glu which is a recognition sequence for casein kinase II. These data indicate that there might be more than one kinase active in the phosphorylation of osteopontin isolated from bovine milk. Furthermore, the serine in the cell-binding sequence Arg-Gly-Asp-Ser was shown not to be phosphorylated.
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PMID:Identification of two phosphorylation motifs in bovine osteopontin. 829 23

To understand the role of post-translational modifications on the structure and function of osteopontin, a secreted glycosylated phosphoprotein, we expressed mouse osteopontin in E. coli as a fusion protein with glutathione-S-transferase (GST). The purified fusion protein was cleaved by factor Xa generating GST (26 kDa) and recombinant osteopontin (60 kDa). The fusion protein was phosphorylated in vitro by cytosolic, microsomal, and casein kinase II fractions from mouse kidney homogenates. The fusion protein and recombinant osteopontin were also phosphorylated by the catalytic subunit of cAMP-dependent protein kinase. The suitability of the fusion and recombinant proteins as model substrates for the study of the function(s) and post-translational modifications of osteopontin is discussed.
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PMID:In vitro phosphorylation of mouse osteopontin expressed in E. coli. 844 18

Osteopontin (OPN) is a multiphosphorylated glycoprotein found in bone and other normal and malignant tissues, as well as in the physiological fluids urine and milk. The present study demonstrates that bovine milk osteopontin is phosphorylated at 27 serine residues and 1 threonine residue. Phosphoamino acids were identified by a combination of amino acid analysis, sequence analysis of S-ethylcysteine-derivatized phosphopeptides, and mass spectrometric analysis. Twenty-five phosphoserines and one phosphothreonine were located in Ser/Thr-X-Glu/Ser(P)/Asp motifs, and two phosphoserines were found in the sequence Ser-X-X-Glu/Ser(P). These sequence motifs are identical with the recognition sequences of mammary gland casein kinase and casein kinase II, respectively. Examination of the phosphorylation pattern revealed that the phosphorylations were clustered in groups of approximately three spanned by unphosphorylated regions of 11-32 amino acids. This pattern is probably of importance in the multiple functions of OPN involving interaction with Ca2+ and inorganic calcium salts. Furthermore, three O-glycosylated threonines (Thr 115, Thr 124, and Thr 129) have been identified in a threonine- and proline-rich region of the protein. Three putative N-glycosylation sites (Asn 63, Asn 85, and Asn 193) are present in bovine osteopontin, but sequence and mass spectrometric analysis showed that none of these asparagines were glycosylated in bovine mammary gland osteopontin. Alignment analysis showed that the majority of the phosphorylation sites in bovine osteopontin as well as all three O-glycosylation sites were conserved in other mammalian sequences. This conservation of serines, even in otherwise less well-conserved regions of the protein, indicates that the phosphorylation of osteopontin at specific sites is essential for the function of the protein.
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PMID:Posttranslational modifications of bovine osteopontin: identification of twenty-eight phosphorylation and three O-glycosylation sites. 853 40

The large number of covalently bound phosphates on the extracellular phosphoproteins osteopontin (OPN) and bone sialoprotein (BSP) have been implicated in biological functions such as mineral deposition and osteoclast binding. In the present study the state of phosphorylation of BSP and OPN was evaluated by in vitro 32P labeling using a series of protein kinases and quantification. Both the purified bovine BSP and OPN were radiolabeled by [32P]ATP and factor-independent protein kinase. Quantification of 32P radioactivity incorporated on dephosphorylated BSP and OPN provided 6.6 and 8.9 mol of phosphate incorporated/mol, respectively. Native OPN incorporated 1.07 and BSP 2.46 mol of phosphate/mol by factor-independent protein kinase. These data led to calculations that OPN and BSP, respectively, contain 7.83 and 4.14 mol of phosphate/mol in their natural state. Thrombin digests of 32P-labeled BSP showed radioactivity to be associated with fragment of approximately molecular mass values 30 kDa (N-terminal half), with no observable radioactivity associated with the 40-kDa fragment (C-terminal half). Similar experiments with 32P-labeled OPN provided two radiolabeled thrombin fragments, with molecular mass 30 kDa (N-terminal half) and 20 kDa (C-terminal half), both were radioactive. The major phosphorylation was associated with the N-terminal half containing 7.0 mol of phosphate, and 1.9 mol of phosphate were associated with the C-terminal half. Additional experiments of in vitro phosphorylation of OPN and BSP by several other known protein kinases were carried out. cAMP-dependent protein kinase showed no phosphorylation of OPN or BSP, while protein kinase C and cGMP-dependent protein kinase led to minor phosphorylation, each of the latter introduced about 1 mol of phosphate/mol of OPN and BSP molecule.
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PMID:Phosphorylation of purified bovine bone sialoprotein and osteopontin by protein kinases. 866 67

Osteopontin is an acidic phosphoprotein containing casein kinase II (CKII) phosphorylatable sites and an acidic amino acid cluster. The metabolically 32P-labelings of both serines and threonines in vitro in osteopontin immunoprecipitated from rat osteoblast-like ROS 17/2.8 cells may suggest that casein kinase II catalyzes this modification. The enzyme occurs in microsomal fractions of rat osteoblast-like ROS 17/2.8 cells. Subcellular fractions containing endoplasmic reticulum and Golgi apparatus were isolated by differential centrifugation and were identified according to their ultrastructures and the presence of marker enzymes such as glucose-6-phosphatase and thiamine pyrophosphatase, respectively. both fractions phosphorylated the partially dephosphorylated osteopontin and the specific substrate peptide RRREEETEEE. Endoplasmic reticulum-catalyzed peptide phosphorylation was 2.7 times lower than that of Golgi although both endoplasmic reticulum- and Golgi-catalyzed peptide reactions were 50% inhibited by 20 and 100 ng/ml heparin, respectively. Western blot analysis revealed that both fractions contained osteopontin and microsomal CKII. Furthermore, microsomal CKII was immunogold-labeled in endoplasmic reticulum and Golgi apparatus. Heparin inhibition and utilization of [gamma-32P]GTP as a phosphate donor by both fractions confirmed their capacity to phosphorylate osteopontin. The results suggest that microsomal CKII modifies the acidic matrix proteins during transportation. These matrix phosphoproteins may participate in the mineralization process of hard tissues.
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PMID:Microsomal casein kinase II in endoplasmic reticulum- and Golgi apparatus-rich fractions of ROS 17/2.8 osteoblast-like cells: an enzyme that modifies osteopontin. 867 66

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