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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)
Bone morphogenetic protein (BMP) adenoviral vectors for the induction of osteogenesis are being developed for the treatment of bone pathology. However, it is still unknown which BMP adenoviral vector has the highest potential to stimulate bone formation in vivo. In this study, the osteogenic activities of recombinant human BMP-2,
BMP-4
, BMP-6, BMP-7, and BMP-9 adenoviruses were compared in vitro, in athymic nude rats, and in Sprague-Dawley rats. In vitro osteogenic activity was assessed by measuring the
alkaline phosphatase
activity in C2C12 cells transduced by the various BMP vectors. The
alkaline phosphatase
activity induced by 2 x 10(5) PFU/well of BMP viral vector was 4890 x 10(-12) U/well for ADCMVBMP-9, 302 x 10(-12) U/well for ADCMVBMP-4, 220 x 10(-12) U/well for ADCMVBMP-6, 45 x 10(-12) U/well for ADCMVBMP-2, and 0.43 x 10(-12) U/well for ADCMVBMP-7. The average volume of new bone induced by 10(7) PFU of BMP vector in athymic nude rats was 0.37+/-0.03 cm(3) for ADCMVBMP-2, 0.89+/-0.07 cm(3) for ADCMVBMP-4, 1.02+/-0.07 cm(3) for ADCMVBMP-6, 0.24+/-0.05 cm(3) for ADCMVBMP-7, and 0.63+/-0.07 cm(3) for ADCMVBMP-9. In immunocompetent Sprague-Dawley rats, no bone formation was demonstrated in the ADCMVBMP-2, ADCMVBMP-4, and ADCMVBMP-7 groups. ADCMVBMP-6 at a viral dose of 10(8) PFU induced 0.10+/-0.03 cm(3) of new bone, whereas ADCMVBMP-9 at a lower viral dose of 10(7) PFU induced more bone, with an average volume of 0.29+/-0.01 cm(3).
...
PMID:Osteogenic potential of five different recombinant human bone morphogenetic protein adenoviral vectors in the rat. 1293 40
Previous studies have shown that mouse osteoblastic MC3T3-E1 cells undergo apoptosis when exposed to a mixture of proinflammatory cytokines. Bone morphogenetic protein (BMP)s are important regulators of osteoblast differentiation. Because regulation of osteoblastic differentiation is poorly understood, we sought to determine if
BMP-4
-induced differentiation of osteoblastic cells depends on the activity of the key apoptotic proteases, i.e. the caspases.
BMP-4
induced the growth arrest and differentiation of osteoblastic cell line MC3T3-E1, as evidenced by the appearance of osteoblastic phenotypes such as
alkaline phosphatase
(
ALP
) activation and parathyroid hormone (PTH)-dependent production of cAMP. Surprisingly,
BMP-4
induced transient and potent activation of caspase-8, caspase-2, and caspase-3, in this order. However, no apoptosis or necrosis in
BMP-4
-treated cells could be detected by FACS using annexin-V/propodium iodine double staining. Peptide inhibition of caspase activity led to a dramatic reduction in
ALP
activation and PTH-induced production of cAMP in
BMP-4
-treated cells. Although
BMP-4
treatment resulted in cell-cycle G0/G1 arrest as detected by FACS cell-cycle analysis, caspase inhibitors (caspase-8, caspase-2, and caspase-3 inhibitors) could block the G0/G1 arrest in MC3T3-E1 cells. Taken together, these results confirm a unique and unanticipated role for the caspase-mediated signal cascade in the differentiation of osteoblasts.
...
PMID:Activation of caspases is required for osteoblastic differentiation. 1295 9
One major problem of current cartilage repair techniques is that three-dimensional encapsulated mesenchymal progenitor cells frequently differentiate into hypertrophic cells that express type X collagen and osteogenic marker genes. Studies on wild-type cells of murine mesenchymal C3H10T1/2 progenitor cells as well as on cells transfected with cDNA encoding for bone morphogenetic protein (BMP)-2 or -4 in alginate revealed that the formation of markers for osteogenesis and chondrogenic hypertrophy apparently depended on the BMP-transfection. Cells were encapsulated in ultrahigh-viscosity, clinical grade alginate and differentiation was studied over a period of 17 days. Consistent with results published previously staining with haematoxylin-eosin or Alcian blue, immunohistochemical analysis, and quantitative RT-PCR confirmed the expression of chondrogenic markers (chondroitin-4- and -6-sulfate as well as type II collagen). Production of chondrogenic markers was particularly high in
BMP-4
transfected cells. Hypertrophic chondrogenesis did not occur in
BMP-4
transfected cells, as revealed by measurement of type X collagen, but could be demonstrated for wild-type cells and to some extent for BMP-2 transfected cells. The osteogenic markers, type I collagen,
alkaline phosphatase
, and Cbfa1 were upregulated in all cell lines even though the levels and the time of upregulation differed significantly. In any case, the markers were less and only very shortly expressed in
BMP-4
transfected cells as revealed quantitatively by real time RT-PCR. Thus, the in vitro results suggested that
BMP-4
is a very promising candidate for suppressing chondrogenic hypertrophy, while simultaneously enhancing the production of chondrogenic components.
...
PMID:Chondrogenic differentiation of mesenchymal progenitor cells encapsulated in ultrahigh-viscosity alginate. 1455 23
Ossification of the posterior longitudinal ligament of the spine (OPLL) is characterized by ectopic bone formation in the spinal ligaments. Mechanical stress, which acts on the posterior ligaments, is thought to be an important factor in the progression of OPLL. To elucidate this mechanism, we investigated the effects of in vitro sinusoidal cyclic stretch (120% peak to peak, at 1 Hz) on cultured spinal ligament cells derived from OPLL and non-OPLL patients. The mRNA expressions of
alkaline phosphatase
(
ALP
), osteopontin, bone morphogenetic protein (BMP)-2,
BMP-4
, and BMP receptors as well as
ALP
activity in cell layers and production of BMPs into the conditioned medium were significantly increased by cyclic stretch in OPLL cells, whereas no change was observed in non-OPLL cells. A stretch-activated Ca(2+) channel blocker, Gd(3+), the voltage-dependent L-type Ca(2+) channel blockers diltiazem and nifedipine, and Ca(2+)-free medium suppressed stretch-induced
ALP
activity, which suggests a role of Ca(2+) influx in the signal transduction of mechanical stress to the osteogenic response of OPLL cells. Our study provides first evidences that mechanical stress plays a key role in the progression of OPLL through the induction of osteogenic differentiation in spinal ligament cells and the promotion of the autocrine/paracrine mechanism of BMPs in this lesion.
...
PMID:Uniaxial cyclic stretch induces osteogenic differentiation and synthesis of bone morphogenetic proteins of spinal ligament cells derived from patients with ossification of the posterior longitudinal ligaments. 1455 50
Osteogenic protein-1 (OP-1, also called BMP-7), a member of the BMP family and the TGF-beta superfamily, induces formation of new bone and cartilage, but also regulates a wide array of processes. In the present study, the expression of several characteristic biochemical markers of ligaments, such as Six1, Scleraxis, aggrecan, and type I collagen in primary cultures of adult rat medial collateral ligament (MCL) cells was determined. The effects of OP-1 on cell proliferation and on gene expression were subsequently examined. OP-1 stimulated cell proliferation,
alkaline phosphatase
(AP) activity, and the steady-state mRNA levels of the transcription factor Runx2/Cbfa1 in a dose- and time-dependent manner. The mRNA levels of type I collagen only increased slightly, but the activity of the cloned collagen promoter increased by 2-fold in transiently transfected MCL cells. OP-1 also stimulated aggrecan mRNA expression. The mRNA levels of Six1 and Scleraxis were not detectably altered by OP-1. In control cultures, the steady-state mRNA levels of ActR-I, BMPR-IA, BMPR-IB, and BMPR-II increased as a function of time in culture. The mRNA levels of BMP-1 and -4 increased significantly after 12 days, but those of BMP-2 and -6 did not change. The GDF-1, -3, -5, -6, and -8 mRNA levels in the control cultures also increased as a function of time. OP-1 treatment stimulated mRNA expression of BMPR-IA and BMPR-II, but had little effect on ActR-I and BMPR-IB mRNA expression. OP-1 lowered the BMP-1, -2, and -6 mRNA levels without changing the
BMP-4
mRNA level. OP-1 treatment also reduced the mRNA levels of GDFs detected. In summary, the present study demonstrated that OP-1 stimulated cell proliferation and mRNA expression of several biochemical markers in this ligament cell culture model and established the spatial and temporal appearance of several members of the TGF-beta superfamily.
...
PMID:Effects of osteogenic protein-1 (OP-1, BMP-7) on gene expression in cultured medial collateral ligament cells. 1458 33
Bone morphogenetic proteins (BMPs) promote the differentiation of osteoprogenitor cells, and also induce osteogenesis in bone marrow stromal cells (MSC) from rats and mice. However, compared to results with animal models, BMPs are relatively inefficient in inducing human MSC to undergo osteogenesis, and are much less effective in promoting bone formation in human clinical trials. Previous studies indicated that, while human MSC respond to dexamethasone with elevated levels of the osteoblast marker
alkaline phosphatase
, most isolates of human MSC fail to show
alkaline phosphatase
induction in response to BMP-2,
BMP-4
, or BMP-7. Several other genes known to be induced by BMPs are appropriately regulated; thus, human MSC are capable of some BMP-activated signaling. Analysis of the BMP receptors ALK-3 and ALK-6 indicated that, although ALK-6 mRNA was not expressed in human MSC, overexpressing a constitutively active ALK-6 receptor did not induce elevated
alkaline phosphatase
. Real-time RT-PCR was used to investigate expression of several osteoblast-related transcription factors in MSC after 6 days' exposure to BMP2 or dexamethasone. Msx-2, a transcription factor that has been reported to inhibit differentiation of osteoprogenitor cells, showed 10-fold elevation in BMP-2-treated human MSC, but not in BMP-2-treated rat MSC. Overexpression of Msx-2 in human and rat MSC, however, did not alter
alkaline phosphatase
levels, which suggests that absence of BMP-stimulated
alkaline phosphatase
was not caused by the BMP-2-induced increase in Msx-2. Although Runx2 isoforms have been implicated in control of osteoblast differentiation, levels of this transcription factor were unaffected by BMP treatment. Expression of the FKHR transcription factor, which has been reported to regulate
alkaline phosphatase
transcription in mouse cells, showed a modest increase in response to BMP-2, but a much greater increase in dexamethasone-treated cells. We propose that BMP regulation of the bone/liver/kidney
alkaline phosphatase
gene is indirect, requiring expression of new transcription factor(s) that behave differently in rodent and human MSC.
...
PMID:Different effects of BMP-2 on marrow stromal cells from human and rat bone. 1474 40
Transforming growth factor-beta (TGF-beta), one of the most abundant cytokines in bone matrix, has positive and negative effects on bone formation, although the molecular mechanisms of these effects are not fully understood. Bone morphogenetic proteins (BMPs), members of the TGF-beta superfamily, induce bone formation in vitro and in vivo. Here, we show that osteoblastic differentiation of mouse C2C12 cells was greatly enhanced by the TGF-beta type I receptor kinase inhibitor SB431542. Endogenous TGF-beta was found to be highly active, and induced expression of inhibitory Smads during the maturation phase of osteoblastic differentiation induced by
BMP-4
. SB431542 suppressed endogenous TGF-beta signaling and repressed the expression of inhibitory Smads during this period, possibly leading to acceleration of BMP signaling. SB431542 also induced the production of
alkaline phosphatase
and bone sialoprotein, and matrix mineralization of human mesenchymal stem cells. Thus, signaling cross-talk between BMP and TGF-beta pathways plays a crucial role in the regulation of osteoblastic differentiation, and TGF-beta inhibitors may be invaluable for the treatment of various bone diseases by accelerating BMP-induced osteogenesis.
...
PMID:Endogenous TGF-beta signaling suppresses maturation of osteoblastic mesenchymal cells. 1474 25
Muscle-based gene therapy and tissue engineering hold great promise for improving bone healing. However, the relative advantage of muscle-derived stem cells (MDSCs) or primary muscle-derived cells (MDCs) remains to be defined. We compared the ability of MDSCs and different subpopulations of MDCs (PP1 and PP3) to induce bone formation via ex vivo gene therapy. We were able to efficiently transduce the MDSCs and all the other evaluated populations of MDCs (efficiency of transduction = approximately 80%) by using a retroviral vector expressing human
bone morphogenetic protein 4
(
BMP4
). All the transduced cell populations secreted high levels of
BMP4
(140-300 ng/10(6) cells/24 h), but the MDSCs differentiated toward the osteogenic lineage more effectively than did the other muscle cell populations, as indicated by the expression of
alkaline phosphatase
, an early osteogenic marker. von Kossa staining indicated that mineralized bone formed as early as 7 days after implantation of any of the
BMP4
-expressing cell populations into immunocompetent syngeneic mice; however, MDSCs expressing
BMP4
produced significantly more bone than did the other MDC populations, as evidenced by both histomorphometry and biochemical analysis. Further investigation revealed that MDSCs expressing
BMP4
persisted for a significantly longer period of time at the bone forming sites than did the other
BMP4
-expressing MDC populations. Additionally, MDSCs expressing
BMP4
triggered a smaller infiltration of CD4 lymphocytes within the bone forming areas than did the other MDC populations expressing
BMP4
. Finally, we demonstrated that MDSCs expressing
BMP4
can heal a critical-sized skull bone defect in immunocompetent mice. In summary, this study shows that MDSCs are better than primary MDCs for use as cellular vehicles in
BMP4
-based ex vivo gene therapy to improve bone healing. The advantage of MDSCs may be attributable, at least in part, to their lower immunogenicity and higher capacity for in vivo survival.
...
PMID:Ex vivo gene therapy-induced endochondral bone formation: comparison of muscle-derived stem cells and different subpopulations of primary muscle-derived cells. 1519 44
Mouse primordial germ cells (PGCs) are initially identified as a cluster of
alkaline phosphatase
(AP)-positive cells within the extraembryonic mesoderm near the posterior part of the primitive streak at embryonic day (E) 7.25. Clonal analysis of epiblast cells has revealed that the putative precursors of PGCs are localized in the proximal epiblast, and we demonstrated that the conditions required for PGC formation are induced in the proximal region of epiblasts by extraembryonic ectoderm. Bone morphogenetic protein (BMP) 4 and BMP8b, which belong to the transforming growth factor-beta (TGF-beta) superfamily, might generate induction signals from extraembryonic ectoderm. Smad1 and Smad5, which are intracellular signaling molecules for
BMP4
, might also play a critical role in stimulating epiblasts to form PGC. However, how pluripotential epiblasts temporally and spatially respond to BMP signals to form PGCs remains unclear. The present study examines changes of responsiveness to
BMP4
for PGC formation in epiblasts and their molecular mechanisms. We initially examined the effect of recombinant human (rh)
BMP4
upon cultured epiblasts at different developmental stages, and found that they acquire the ability to respond to
BMP4
signals for PGC formation between E5.25 and E5.5. In addition, such competence was conferred upon epiblasts by the extraembryonic ectoderm. We also showed that the increased expression of Smad1 and the onset of Smad5 expression induced by extraembryonic ectoderm might be responsible for quick acquisition of this competence. Furthermore, we show that only proximal epiblast cells maintain responsiveness to
BMP4
for PGC formation at E6.0, and that this is associated with the proximal epiblast-specific expression of Smad5. These results explain why only the proximal region of epiblasts can sustain the ability to form PGCs.
...
PMID:Mouse epiblasts change responsiveness to BMP4 signal required for PGC formation through functions of extraembryonic ectoderm. 1551 57
Bone morphogenetic proteins (BMPs) have multiple functions in the development and growth of skeletal and extraskeletal tissues. Therefore, BMPs may regulate the regeneration of periodontal tissue. To investigate this issue, we examined the effects of
BMP-4
, -5 and -6 on DNA synthesis and the expression of bone-related proteins in cultures of human periodontal ligament (HPL) cells. The expression of bone-related proteins was determined by Real-time polymerase chain reaction and enzyme linked immunosorbent assay in cultures of HPL cells. DNA synthesis was estimated by measuring bromoderoxyuridine incorporation. It was found that
BMP-4
, -5 and -6 enhanced DNA synthesis dose-dependently.
BMP-4
and -5 increased the levels of osteopontin, BMP-2,
alkaline phosphatase
and core binding factor alpha 1 mRNAs. BMP-6 stimulated the expression of osteopontin, BMP-2, ALPase and osteoprotegerin. These findings show that
BMP-4
, -5 and -6 have different actions on the expression of bone-related proteins and may play a role in the regeneration of periodontal tissue by promoting cell proliferation and protein expression.
...
PMID:Effect of bone morphogenetic proteins-4, -5 and -6 on DNA synthesis and expression of bone-related proteins in cultured human periodontal ligament cells. 1551 25
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