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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)
We have previously studied the expression of
alkaline phosphatase
(
ALP
) and alpha2(I) collagen (two phenotypic markers of osteoblastic cell differentiation) during development of the rat mandible, and the spatial and temporal distribution of the respective transcripts. Our current studies utilize the rat mandible and hind foot as in vivo model systems to investigate the relationship between osteoblastic differentiation and proliferation during intramembranous and endochondral bone formation. Pregnant rats, at 15.17, and 19 days of gestation were intraperitoneally injected with various doses of [3H]-thymidine, and sacrificed at various time intervals in order to label dividing embryonic osteoblastic and preosteoblastic cells. Cross sections through the mid-body of 15-day embryos showed [3H-thymidine dose-dependent labeling of a relatively high percentage of cells in the liver (49 +/- 8% at 440 muCi) and a lower percentage of cells of the developing vertebral cartilage (29 +/- 6% at 440 muCi).
ALP
-positive condensed mesenchyme--consisting of mandibular preosteoblast (15 days of gestation) showed a relatively high (32 +/- 5%) level of [3H]-thymidine labeling, compared to surrounding
ALP
-negative loose mesenchymal cells (22 +/- 1%). Similar results were observed in the developing hind foot of 19-day embryos for
ALP
-positive cells (15 +/- 6%) and surrounding
ALP
-negative cells (13 +/- 5%). In both the hind foot and the mandible an overall decrease in labeling was observed during bone development. RNA samples from these tissues show increasing amounts of
ALP
mRNA, and decreasing amounts of histone H4 mRNA between days 15 and 19 of gestation. These data indicate that a general inverse correlation between osteoblastic differentiation and proliferation, similar to the correlation previously described in cultured osteogenic cells, is also present in developing bones in vivo. However, these results indicate that
ALP
-positive preosteoblasts, committed to the osteoblastic lineage, maintain their proliferative capacity. In an attempt to elucidate underlying molecular mechanisms, we further investigated the levels of expression of m-twist in these tissues. This member of the
basic helix-loop-helix
family of transcription regulators has been previously implied as playing a role in osteoblast differentiation in culture. Our results demonstrate a decrease in m-twist levels during bone development in both the mandible and the hind foot.
...
PMID:Endochondral and intramembranous fetal bone development: osteoblastic cell proliferation, and expression of alkaline phosphatase, m-twist, and histone H4. 877
A subtractive hybridization strategy was used to isolate putative genes involved in the development of mouse primordial germ cells (PGC). Complimentary DNA was amplified on RNA isolated from the base of the allantois where PGC are located in the 7.5 days post coitum (dpc) mouse embryo. It was then subtracted by hybridization with cDNA amplified on RNA of the anterior region where PGC are absent. A novel gene thus isolated is designated as Mesp1 and encodes a possible transcription factor MesP1 containing a
basic helix-loop-helix
motif. Its earliest expression was observed at the onset of gastrulation, as early as 6.5 dpc, in the nascent mesodermal cells that first ingressed at the end of the primitive streak. These expressing cells in the lateral and extraembryonic mesoderm showed a wing-shaped distribution. Its initial expression was soon down-regulated at 7.5 dpc before the completion of gastrulation, except at the proximal end of the primitive streak which included the extraembryonic mesoderm and the base of allantois. At 8 dpc, the expression at the base of the allantois moved laterally. This distribution between 7.0 and 8.0 dpc was similar to that of PGC detected by the
alkaline phosphatase
activity. However, the expression of Mesp1 was down-regulated thereafter, when PGC entered in the migration stage. After birth, Mesp1 expression was detected only in mature testes, but in a different isoform from that expressed in the embryo. Mesp1 was mapped to the mid region of chromosome 7, near the mesodermal deficiency gene (mesd). However, a Southern hybridization study clearly showed that Mesp1 was distinctly different from mesd. The amino acid sequence and its expression pattern suggest that MesP1 plays an important role in the development of the nascent mesoderm including PGC.
...
PMID:MesP1: a novel basic helix-loop-helix protein expressed in the nascent mesodermal cells during mouse gastrulation. 878 51
ADD1 is a recently identified
basic helix-loop-helix
leucine zipper-type transcription factor that acts as a positive regulator of adipocyte-specific gene expression. Since adipocytes may share their precursor with osteoblasts, we examined the expression of ADD1 mRNA in osteoblast-like cells. In osteoblastic MC3T3-E1 cells, the level of the ADD1 mRNA expression was low at the early period of cultures while it subsequently increased with time up to more than 10-fold in the later period of cultures along with the expression of
alkaline phosphatase
, a differentiation marker of these cells. In ROS17/2.8 cells, which represent mature osteoblasts, ADD1 mRNA was expressed constitutively. Treatment with retinoic acid (RA) enhanced the ADD1 mRNA expression several fold in these cells within 4 h in a dose-dependent manner. This RA effect on the ADD1 mRNA expression was blocked by dichloro-D-ribofuranosylbenzimidazole but not by cycloheximide. RA treatment did not affect the ADD1 mRNA stability, suggesting the involvement of transcriptional control. Electrophoretic mobility shift assay revealed that proteins in the crude nuclear extracts prepared from ROS17/2.8 cells were bound to the E box-containing ADD1 recognition DNA sequence, E/C, and that this binding activity was enhanced by the RA treatment. Neither the E2A protein recognition sequence nor the Myo-D/E12 recognition sequence competed against the E/C sequence for the binding, indicating the sequence specificity of the binding activity. Furthermore, RA treatment enhanced the transactivation activity of the chloramphenicol acetyltransferase construct containing the E/C sequence in the transient transfection assay in ROS17/2.8 cells. RA treatment also enhanced the ADD1 mRNA expression in another rat calvaria-derived cell line, RCT1, and in the primary cultures of newborn rat calvaria cells. Overexpression of ADD1 in ROS17/2.8 enhanced the level of the osteocalcin mRNA expression. These results indicated that the adipogenic
basic helix-loop-helix
leucine zipper-type transcription factor (ADD1) mRNA was expressed in osteoblastic cells and that its expression was associated with the expression of an osteoblastic phenotype-related gene.
...
PMID:An adipogenic basic helix-loop-helix-leucine zipper type transcription factor (ADD1) mRNA is expressed and regulated by retinoic acid in osteoblastic cells. 912 91
The Saethre-Chotzen syndrome is characterized by premature fusion of cranial sutures resulting from mutations in Twist, a
basic helix-loop-helix
(bHLH) transcription factor. We have identified Twist target genes using human mutant calvaria osteoblastic cells from a child with Saethre-Chotzen syndrome with a Twist mutation that introduces a stop codon upstream of the bHLH domain. We observed that Twist mRNA and protein levels were reduced in mutant cells and that the Twist mutation increased cell growth in mutant osteoblasts compared with control cells. The mutation also caused increased
alkaline phosphatase
and type I collagen expression independently of cell growth. During in vitro osteogenesis, Twist mutant cells showed increased ability to form
alkaline phosphatase
-positive bone-like nodular structures associated with increased type I collagen expression. Mutant cells also showed increased collagen synthesis and matrix production when cultured in aggregates, as well as an increased capacity to form a collagenous matrix in vivo when transplanted into nude mice. In contrast, Twist mutant osteoblasts displayed a cell-autonomous reduction of osteocalcin mRNA expression in basal conditions and during osteogenesis. The data show that genetic deletion of Twist causing reduced Twist dosage increases cell growth, collagen expression, and osteogenic capability, but inhibits osteocalcin gene expression. This provides one mechanism that may contribute to the premature cranial ossification induced by deletion of the bHLH Twist domain in Saethre-Chotzen syndrome.
...
PMID:Increased bone formation and decreased osteocalcin expression induced by reduced Twist dosage in Saethre-Chotzen syndrome. 1134 69
Cellular differentiation entails the coordination of cell cycle arrest and tissue-specific gene expression. We investigated the involvement of
basic helix-loop-helix
(bHLH) factors in differentiation of osteoblasts using the human osteoblastic cell line MG63. Serum starvation induced growth arrest at G1 phase, accompanied by expression of cyclin-dependent kinase inhibitor p21(WAF1/Cip1). Reporter assays with the p21 gene promoter demonstrated that the combination of E2A (E12 or E47) and coactivator CBP was responsible for p21 induction independent of p53. Twist inhibited E2A-CBP-dependent activation of the exogenous and endogenous p21 promoters. Ids similarly inhibited the exogenously transfected p21 promoter; however less antagonistic effect on the endogenous p21 promoter was observed. Twist was predominantly present in nuclei in MG63 cells growing in complete medium, while it localized mainly in the cytoplasm after serum starvation. The fibroblast growth factor receptor 3 gene (FGFR3), which generates signals leading to differentiation of osteoblasts, was found to be controlled by the same transcriptional regulation as the p21 gene. E2A and Twist influenced
alkaline phosphatase
expression, a consensus marker of osteoblast differentiation. Expression of E2A and FGFR3 was seen at the location of osteoblast differentiation in the calvaria of mouse embryos, implicating bHLH molecules in physiological osteoblast differentiation. These results demonstrate that a common regulatory system is involved in at least two distinct steps in osteoblastic differentiation. Our results also provide the molecular basis of Saethre-Chotzen syndrome, caused by mutations of the TWIST and FGFR3 genes.
...
PMID:Common regulation of growth arrest and differentiation of osteoblasts by helix-loop-helix factors. 1158 22
The muscle-specific, basic helix-loop-helix transcription factor MyoD can induce cells from other mesenchymal lineages to express a skeletal muscle phenotype. Interestingly, MyoD is initially upregulated in myogenic cells incubated with bone morphogenetic proteins (BMPs), a treatment that induces osteogenic differentiation, suggesting that MyoD has a role in BMP-induced osteogenesis of myogenic cells. This possibility is supported by our observations that muscle satellite cells derived from adult MyoD(-/-) mice show severely impaired osteogenic induction by BMP-7 (osteogenic protein 1; OP-1) as indicated by the decreased gene expression of the bone markers
alkaline phosphatase
, osteocalcin, Runx2/Cbfa1, and Osterix. Ectopic expression of MyoD increased
alkaline phosphatase
activity and Osterix mRNA expression in response to BMP treatment. Similarly, ectopic expression of MyoD in the pluripotent mesenchymal cell line C3H10T1/2 increased
alkaline phosphatase
activity induced by BMP-7. Transcription assays showed that transfection with a MyoD-expression vector, but not other myogenic
basic helix-loop-helix
transcription factors (Myf5, myogenin) increased Runx2/Cbfa1 transactivation of a reporter gene construct containing either six OSE sequences in tandem or a single OSE site. This effect was enhanced by BMP treatment. These studies, therefore, demonstrate that the muscle transcription factor MyoD is required for efficient BMP-induced osteogenesis of myogenic cells and indicate that MyoD might exert its effects through co-operative interactions with Runx2/Cbfa1.
...
PMID:MyoD enhances BMP7-induced osteogenic differentiation of myogenic cell cultures. 1502 Jun 74
Inflammatory myopathies (IM) are acquired diseases of skeletal muscle comprising dermatomyositis (DM), polymyositis (PM), and inclusion-body myositis (IBM). Immunosuppressive therapies, usually beneficial for DM and PM, are poorly effective in IBM. We report the isolation and characterization of mesoangioblasts, vessel-associated stem cells, from diagnostic muscle biopsies of IM. The number of cells isolated, proliferation rate and lifespan, markers expression, and ability to differentiate into smooth muscle do not differ among normal and IM mesoangioblasts. At variance with normal, DM and PM mesoangioblasts, cells isolated from IBM, fail to differentiate into skeletal myotubes. These data correlate with lack in connective tissue of IBM muscle of
alkaline phosphatase
(
ALP
)-positive cells, conversely dramatically increased in PM and DM. A myogenic inhibitory
basic helix-loop-helix
factor B3 is highly expressed in IBM mesoangioblasts. Indeed, silencing this gene or overexpressing MyoD rescues the myogenic defect of IBM mesoangioblasts, opening novel cell-based therapeutic strategies for this crippling disorder.
...
PMID:MyoD expression restores defective myogenic differentiation of human mesoangioblasts from inclusion-body myositis muscle. 1707 52
The
basic helix-loop-helix
(bHLH) transcription factor Math5 (Atoh7) is required for retinal ganglion cell (RGC) and optic nerve development. Using Math5-lacZ knockout mice, we have identified an additional expression domain for Math5 outside the eye, in functionally connected structures of the central auditory system. In the adult hindbrain, the cytoplasmic Math5-lacZ reporter is expressed within the ventral cochlear nucleus (VCN), in a subpopulation of neurons that project to medial nucleus of the trapezoid body (MNTB), lateral superior olive (LSO), and lateral lemniscus (LL). These cells were identified as globular and small spherical bushy cells based on their morphology, abundance, distribution within the cochlear nucleus (CN), co-expression of Kv1.1, Kv3.1b and Kcnq4 potassium channels, and projection patterns within the auditory brainstem. Math5-lacZ is also expressed by cochlear root neurons in the auditory nerve. During embryonic development, Math5-lacZ was detected in precursor cells emerging from the caudal rhombic lip from embryonic day (E)12 onwards, consistent with the time course of CN neurogenesis. These cells co-express MafB and are post-mitotic. Math5 expression in the CN was verified by mRNA in situ hybridization, and the identity of positive neurons was confirmed morphologically using a Math5-Cre BAC transgene with an
alkaline phosphatase
reporter. The hindbrains of Math5 mutants appear grossly normal, with the exception of the CN. Although overall CN dimensions are unchanged, the lacZ-positive cells are significantly smaller in Math5 -/- mice compared to Math5 +/- mice, suggesting these neurons may function abnormally. The auditory brainstem response (ABR) of Math5 mutants was evaluated in a BALB/cJ congenic background. ABR thresholds of Math5 -/- mice were similar to those of wild-type and heterozygous mice, but the interpeak latencies for Peaks II-IV were significantly altered. These temporal changes are consistent with a higher-level auditory processing disorder involving the CN, potentially affecting the integration of binaural sensory information.
...
PMID:Math5 expression and function in the central auditory system. 1797 45
Transcription factors regulate tissue-specific differentiation of pluripotent mesenchyme to osteoblast (OB), myoblast (MB), and other lineages. Osterix (Osx) is an essential transcription factor for bone development because knockout results in lack of a mineralized skeleton. The proximal Osx promoter contains numerous binding sequences for MyoD and 14 repeats of a binding sequence for Myf5. These
basic helix-loop-helix
(bHLH) transcription factors have a critical role in MB differentiation and muscle development. We tested the hypothesis that bHLH transcription factors also support OB differentiation through regulation of Osx. Transfection of a MyoD expression vector into two primitive mesenchymal cell lines, C3H/10T1/2 and C2C12, stimulated a 1.2-kb Osx promoter-luciferase reporter 70-fold. Myf5 stimulated the Osx promoter 6-fold. Deletion analysis of the promoter revealed that one of three proximal bHLH sites is essential for MyoD activity. The Myf5 repeat conferred 60% of Myf5 activity with additional upstream sequence required for full activity. MyoD bound the active bHLH sequence and its 3'-flanking region, as shown by EMSA and chromatin immunoprecipitation assays. Real-time PCR revealed that primitive C2C12 and C3H/10T1/2 cells, pre-osteoblastic MC3T3 cells, and undifferentiated primary marrow stromal cells express the muscle transcription factors. C2C12 cells, which differentiate to MB spontaneously and form myotubules, were treated with bone morphogenetic protein 2 (BMP-2) to induce OB differentiation. BMP-2 stimulated expression of Osx and the differentiation marker
alkaline phosphatase
and blocked myotubule development. BMP-2 suppressed the muscle transcription factor myogenin, but expression of MyoD and Myf5 persisted. Silencing of MyoD inhibited BMP-2 stimulation of Osx and blocked the later appearance of bone
alkaline phosphatase
. MyoD support of Osx transcription contributes to early OB differentiation.
...
PMID:The muscle transcription factor MyoD promotes osteoblast differentiation by stimulation of the Osterix promoter. 1837 33
The TWIST family of
basic helix-loop-helix
transcription factors, Twist-1 and Dermo-1 are known mediators of mesodermal tissue development and contribute to correct patterning of the skeleton. In this study, we demonstrate that freshly purified human bone marrow-derived mesenchymal stromal/stem cells (MSC) express high levels of Twist-1 and Dermo-1 which are downregulated following ex vivo expansion. Enforced expression of Twist-1 or Dermo-1 in human MSC cultures increased expression of the MSC marker, STRO-1, and the early osteogenic transcription factors, Runx2 and Msx2. Conversely, overexpression of Twist-1 and Dermo-1 was associated with a decrease in the gene expression of osteoblast-associated markers, bone morphogenic protein-2, bone sialoprotein, osteopontin,
alkaline phosphatase
and osteocalcin. High expressing Twist-1 or Dermo-1 MSC lines exhibited an enhanced proliferative potential of approximately 2.5-fold compared with control MSC populations that were associated with elevated levels of Id-1 and Id-2 gene expression. Functional studies demonstrated that high expressing Twist-1 and Dermo-1 MSC displayed a decreased capacity for osteo/chondrogenic differentiation and an enhanced capacity to undergo adipogenesis. These findings implicate the TWIST gene family members as potential mediators of MSC self-renewal and lineage commitment in postnatal skeletal tissues by exerting their effects on genes involved in the early stages of bone development.
...
PMID:TWIST family of basic helix-loop-helix transcription factors mediate human mesenchymal stem cell growth and commitment. 1960 39
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