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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.
...
PMID:Acidic phosphoproteins from bone matrix: a structural rationalization of their role in biomineralization. 159 74
Bone sialoprotein (BSP) is one of the major noncollagenous proteins found in mineralized vertebrate tissue. It is an acidic glycoprotein containing a high sialic acid content and is phosphorylated on several of its Ser and Thr residues. While it has been extensively characterized from various mammalian species, little is known about its sequence or expression in lower vertebrates. The cloning and characterization of several cDNAs encoding the chicken
bone sialoprotein
are reported here. A partial cDNA clone encoding the carboxyl terminus of the protein was initially isolated from a lambda GT11 expression library using a polyclonal antibody gains BSP purified from chicken bone matrix. Subsequently, several additional clones were obtained by further screening and by reverse transcription polymerase chain reaction (RT-PCR). Three overlapping clones encompassing about 1 kb, which included the complete coding sequence for BSP, were analyzed. The deduced amino acid sequence revealed that chicken BSP contains 276 amino acid residues. Although the overall identity between chicken and mammalian BSP is only approximately 39%, the diversity in amino acid sequence occurs mostly between the major functional domains of this molecule. These domains include: (1) three acidic poly-Glu regions; (2) two tyrosine-rich domains, which may be sites for protein sulfation; (3) several
casein kinase II
phosphorylation sites; (4) an Asn glycosylation site; and (5) an RGD cell-binding motif. Of interest in the chicken BSP is the identification of two additional RGD motifs within the avian sequence, unlike the mammalian forms of BSP which has only one.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Characterization of an avian bone sialoprotein (BSP) cDNA: comparisons to mammalian BSP and identification of conserved structural domains. 761 Sep 35
Osteocyte-like cells were prepared by sequentially treating calvaria from newborn rats with collagenase and chelating agents. On a reconstituted gel of basement membrane components, cells from the third collagenase digest displayed a round shape and expressed the highest level of alkaline phosphatase with minimal osteocalcin deposition into the matrix. On the other hand, cells derived from the interior after EDTA treatment exhibited well-developed dendritic cell processes and expressed essentially no alkaline phosphatase. The latter population also showed quite distinct characteristics such as higher extracellular activities of
casein kinase II
and ecto-5'-nucleotidase and the extracellular accumulation of a large amount of osteocalcin associated with mineral. These diverse phenotypic and protein expressions as well as the sites from which each population of cells were recovered strongly suggest that we have isolated osteoblastic and osteocytic cells.
Bone sialoprotein II
was extracellularly phosphorylated by
casein kinase II
in osteocytic cells but not in osteoblastic cells. We discuss the possibility that differentiation of young osteocytes from osteoblasts may facilitate the biochemical sequence of mineral deposition in the bone matrix.
...
PMID:Matrix mineralization and the differentiation of osteocyte-like cells in culture. 775 2
Calcitonin (CT) is a peptide hormone that interacts with the cAMP-and phospholipase C-associated CT receptor subtypes. We investigated whether CT modulates the interaction of human tumoral osteoclast-like (GCT23) cells with a protein of the bone matrix,
bone sialoprotein
-II (BSP-II). Single GCT23 cells loaded with the intracellular Ca2+ indicator fura-2 were treated with the maximal active dose (300 micrograms/ml) of the 18-mer Arg-Gly-Asp (RGD)-containing
BSP
-IIA fragment, and the cytosolic free Ca2+ concentration ([Ca2+]i) was measured by dual wavelength microfluorometry.
BSP
-IIA stimulated an elevation in [Ca2+]i, consisting mainly of a peak, followed by a rapid return toward baseline. Pretreatment with CT induced a modest elevation of [Ca2+]i. However, CT significantly inhibited the response to
BSP
-IIA in a dose-dependent manner. Maximal inhibition (90% vs. untreated) was observed in the micromolar range. The intracellular mechanisms leading to this effect were investigated by pretreatment of GCT23 cells with the cAMP permeant analog, (Bu2)cAMP, and the
protein kinase
-C-activating agent, 12-O-tetradecanoylphorbol 13-acetate. Similar to CT, both agents inhibited the response to 300 micrograms/ml
BSP
-IIA. The effect induced by CT was specific, because an increase in the extracellular Ca2+ concentration, which is also known to inhibit bone resorption, failed to modify the ability of
BSP
-IIA to alter [Ca2+]i in GCT23 cells. To investigate whether the CT-induced alteration of
BSP
-IIA-dependent cell signals was due to a modification in the synthesis of cell surface receptors (integrins) for the extracellular matrix macromolecules, 1-h CT-treated [35S]methionine metabolically labeled GCT23 cell lysates were immunoprecipitated with anti-alpha 3-, -alpha v-, -beta 1-, and -beta 3-integrin subunit antibodies. Autoradiography demonstrated that 10(-7)-10(-6) M CT did not alter new synthesis of the alpha v beta 3 and the alpha 3 beta 1 receptors. Similarly, CT did not affect surface expression of these receptors, assessed by enzyme-linked immunosorbent assay. Finally, no alteration of the adhesion rate and spreading of GCT23 cells onto
BSP
-IIA-coated substrates was observed. This indicates that CT-induced down-regulation of immediate cell signals prompted by
BSP
-IIA in GCT23 cells is a postintegrin receptor event.
...
PMID:Calcitonin down-regulates immediate cell signals induced in human osteoclast-like cells by the bone sialoprotein-IIA fragment through a postintegrin receptor mechanism. 786 71
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.
...
PMID:Phosphorylation of purified bovine bone sialoprotein and osteopontin by protein kinases. 866 67
The enzyme activities of the major kinases found within the cytosolic and microsomal fractions of embryonic avian calvaria osteoblasts were assayed for their specificity for various noncollagenous extracellular matrix (ECM) proteins of bone. At least 6 proteins with M(r)'s of 66, 58, 50, 36, 30, and 22 kD out of more than 30 of the noncollagenous proteins of the bone ECM were phosphorylated by the kinase(s) found in both osteoblast cellular fractions. The purification and N-terminal sequence analysis of three of the above proteins, M(r)'s 66 and 58 kD (+50 kD), identified them as chicken
bone sialoprotein
(
BSP
) and osteopontin (OPN), respectively. Heparin, a specific inhibitor of factor-independent
protein kinase
(FIPK) activity, blocked the phosphorylation of all six ECM proteins by the microsomal kinase(s) but only inhibited the phosphorylation of the 66, 50, and 36 kD by the cytosolic enzyme(s). Casein kinase II (a known FIPK) showed a similar phosphorylation pattern of the same bone ECM proteins as the FIPK(s) found in osteoblast cell extracts, while purified cyclic adenosine monophosphate (cAMP)-dependent
protein kinase
did not phosphorylate any of the ECM proteins. Use of dephosphorylated casein showed that in comparison with
casein kinase II
, casein was a poor substrate for the FIPK found in the osteoblast cellular extracts. Further studies, using FIPK(s) of osteoblasts and purified chicken OPN or bacterially produced recombinant murine OPN as a substrate, showed that both species of OPN were excellent substrates for the FIPK(s) found in osteoblasts. The phosphorylation of the purified chicken and recombinant mouse OPNs were evaluated by quantitative analysis using commercially available protein kinases. cAMP-dependent kinase showed no phosphorylation of either protein, and cyclic guanodine monophosphate (cGMP)-dependent kinase and protein kinase C incorporated 1.2 and 0.5 mol phosphate/mol OPN, respectively. However, both chicken and mouse OPNs were significantly phosphorylated by
casein kinase II
(9.3 and 9.0 mol of phosphate/mol of OPN, respectively). These results demonstrate that the noncollagenous proteins of the bone ECM, and in particular OPN, are predominantly phosphorylated by FIPK(s), and this class of kinase is the major enzyme found within the microsomal fraction of osteoblasts.
...
PMID:Protein kinases of cultured osteoblasts: selectivity for the extracellular matrix proteins of bone and their catalytic competence for osteopontin. 888 46
Bone sialoprotein is a major noncollagenous protein of bone. Parathyroid hormone (PTH) was shown to cause a 2-4-fold increase in the steady-state levels of
bone sialoprotein
mRNAs within primary cultures of embryonic osteoblasts. The induction could be mimicked by both forskolin and phorbol 12-myristate 13-acetate and was not inhibited by cycloheximide. Transient expression of a approximately 1200-base pair avian 5' bsp promoter/reporter construct demonstrated similar inductions as mRNA levels. Co-transfection of an expression plasmid encoding heat-stable inhibitor of
cAMP-dependent protein kinase
, a peptide inhibitor of
PKA
, decreased both the basal and PTH-induced bsp transcription, while co-expression of the catalytic subunit of
PKA
-induced bsp expression 3-fold. Protein kinase C activation, on the other hand, did not appear to work through its activation of c-fos, since co-transfection of an expression clone for c-fos had no effect. Interestingly, heat-stable inhibitor of
cAMP-dependent protein kinase
also inhibited the phorbol 12-myristate 13-acetate induction, suggesting that the protein kinase C acts through some form of interaction with the cAMP/
PKA
pathway. A half-cAMP response element site in the bsp promoter was identified as the cis-acting element that mediated the PTH response by the transient transfections with reporter constructs containing nested deletions of the promoter or a heterologous promoter containing the cAMP response element. In conclusion, these data indicate that PTH stimulation of bsp gene expression is specific to osteoblasts and mediated by changing cellular cAMP/
PKA
levels. They further suggest that although protein kinase C is capable of stimulating the gene by itself, it plays a minimal role in mediating the PTH induction of
bone sialoprotein
.
...
PMID:Signal transduction pathways mediating parathyroid hormone stimulation of bone sialoprotein gene expression in osteoblasts. 893 23
Cytosolic and microsomal
protein kinase
preparations from cultured chicken osteoblasts were found to phosphorylate up to six major proteins with Mrs 66, 58, 50, 36, 32, and 22 kDa in chicken bone extract. Use of heparin led to the conclusion that these proteins were predominantly phosphorylated by factor-independent
protein kinase
(FIPK) present both in microsomal and cytosolic preparations. It was confirmed that microsomal preparation contained predominantly FIPK, whereas cytosolic preparation contained additional kinases, that can phosphorylate the bone proteins. Use of purified chicken bone osteopontin (OPN) (58 kDa) and recombinant OPN led to the same conclusions. The identify of the protein kinases was clearly established by using a series of synthetic peptide substrates. Quantitative analysis utilizing pure protein kinases and purified chicken bone OPN, recombinant mouse OPN, and bovine bone OPN and
BSP
led to introduction of approximately 9 moles of phosphate/mole of OPN and 6.6 moles phosphate/mole bovine
bone sialoprotein
(
BSP
) by
casein kinase II
.
cGMP-dependent protein kinase
and protein kinase C both introduced 0.5-1.2 moles phosphate/mole of OPN and
BSP
, whereas
cAMP-dependent protein kinase
led to no significant phosphorylation of OPN or
BSP
. Consistent with the above results, sites of phosphorylation identified for OPN (metabolically labeled) and
BSP
(labeled by
casein kinase II
) revealed that predominant phosphorylated sites have recognition sequences for FIPK.
...
PMID:Protein kinases of cultured chicken osteoblasts that phosphorylate extracellular bone proteins. 908 59
There are two steps in the process of matrix-mediated bone and dentin mineralization. First, as in other soft tissues, osteoblasts/odontoblasts synthesize collagenous matrices and second, mineral deposits in these matrices at a location distant from the cells that synthesized the matrices. We suggest a sequence of events that lead the matrix to mineralization: the phosphoproteins of bone and dentin are posttranslationally processed by limited proteolysis, then they are extracellularly processed into a more phosphorylated species that, we believe, facilitates mineralization. Our in situ phosphorylation experiments done with [gamma-32P] GTP suggest the existence of extracellular phosphorylation by a
casein kinase II
(
CKII
)-like enzyme, the enzyme known to phosphorylate most of the phosphate residues in dentin phosphophoryn and bone sialoproteins (osteopontin and
BSP II
).
...
PMID:Extracellular processing of bone and dentin proteins in matrix mineralization. 908 61
Osteopontin (OPN) and
bone sialoprotein
(
BSP
) are phosphorylated glycoproteins that, together with osteonectin/secreted protein, acidic, rich in cysteine (SPARC) and osteocalcin, comprise the major non-collagen proteins of bone. Although phosphorylation of OPN and
BSP
, which is known to influence the biological properties of these proteins, has been shown to occur intracellularly, recent studies have demonstrated ectokinase activity in bone cell populations [Mikuni-Takagaki, Kakai, Satoyoshi, Kawano, Suzuki, Kawase and Saito (1995) J. Bone Miner. Res. 10, 231-241]. To determine whether OPN and
BSP
are phosphorylated by ectokinase activity we have used [gamma-32P]ATP and [gamma-32P]GTP as cell-impenetrable phosphate donors to analyse for ectokinase activity in osteoblastic UMR106.06 cells and fetal rat calvarial cells (FRCCs). By pulse-labelling confluent cells with radiolabelled nucleotides, the phosphorylation of endogenous and exogenously added OPN and
BSP
was demonstrated together with the labelling of a number of cell surface proteins. These phosphorylation reactions were inhibited by a cell-impermeable ectokinase inhibitor, K252b, and cell surface phosphorylation was also inhibited by exogenously added OPN and
BSP
substrates, indicating competition for the ectokinase enzyme. However, phosphorylation of OPN and
BSP
, both of which can mediate cell attachment through Arg-Gly-Asp (RGD) motifs, was not inhibited by an RGD peptide, suggesting that binding of OPN and
BSP
to cell surface integrins is not required. In similar experiments, ectokinase-mediated phosphorylation of OPN and
BSP
was demonstrated during mineralized tissue formation by FRCCs in vitro. These studies demonstrate that OPN and
BSP
secreted by bone cells are phosphorylated by a
casein kinase II
-like ectokinase present on the surface of osteoblastic cells.
...
PMID:Evidence of ectokinase-mediated phosphorylation of osteopontin and bone sialoprotein by osteoblasts during bone formation in vitro. 916 95
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