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Daigo Sakamoto,
Hisaaki Kudo,
Keiji Inohaya,
Hayato Yokoi,
Takanori Narita,
Kiyoshi Naruse,
Hiroshi Mitani,
Kazuo Araki,
Akihiro Shima,
Yuji Ishikawa,
Yoshiyuki Imai, Akira Kudo
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ABSTRACT: A genetic screen for mutations affecting embryogenesis in the medaka, Oryzias latipes, identified a mutant, whiteout (who), that exhibited hypochromic anemia. The who mutant initially had the normal number of blood cells, but it then gradually decreased during the embryonic and larval stages. The blood cells in the who mutants show an elongated morphology and little hemoglobin activity. Genetic mapping localized who to the vicinity of a LG12 marker, olgc1. By utilizing the highly conserved synteny between medaka and pufferfish, we identified a gene for delta-aminolevulinic acid dehydratase (ALAD), which is the second enzyme in the heme synthetic pathway, as a candidate for who. We found a missense mutation in the alad gene that was tightly linked to the who phenotype, strongly suggesting that the hypochromic anemia phenotype in the who mutant is caused by a loss of the alad function. Thus, who mutants represent a model for the human disease ALAD-deficiency porphyria.
Mechanisms of Development 08/2004; 121(7-8):747-52. · 2.83 Impact Factor
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Kimiko Tanaka,
Satoshi Ohisa,
Nobuaki Orihara,
Sae Sakaguchi,
Kyohei Horie,
Kenta Hibiya,
Sayaka Konno,
Akimitsu Miyake,
Davin Setiamarga,
Hiroyuki Takeda,
Yoshiyuki Imai, Akira Kudo
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ABSTRACT: In a genetic screen for mutations affecting organogenesis in the medaka, Oryzias latipes, we identified eight mutants with defects in embryonic hematopoiesis. These mutations were classified into seven complementation groups. In this paper, we characterize the five mutants that were confirmed in the next generation. The beni fuji mutant was defective in the generation of blood cells, exhibiting reduced blood cells at the initiation of circulation. Mutations in two genes, lady finger and ryogyoku, caused abnormal morphology of blood cells, i.e., deformation, along with a progressive decrease in the number of blood cells. The sekirei mutant exhibited photosensitivity with autofluorescent blood cells. Mutations in kyoho resulted in huge blood cells that were approximately three times longer than the wild-type blood cells. The spectrum of phenotypes identified in this study is similar to that of the zebrafish hematopoietic mutants except for the huge blood cells in kyoho. Our results demonstrate that medaka, as well as zebrafish, is a useful model to study hematopoiesis.
Mechanisms of Development 08/2004; 121(7-8):739-46. · 2.83 Impact Factor
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ABSTRACT: The vascular system is highly conserved in all vertebrates in the aspects of anatomy as well as in the genetic mechanism governing it. The embryo of the medaka, Oryzias latipes is small and transparent, providing many advantages for the experimental analysis of the vertebrate vascular system. We isolated a novel medaka transglutaminase gene, termed embryonic transglutaminase, and found that it showed the highest homology to the coagulation factor XIII A subunit of mammals. This gene is expressed in the anterior lateral plate mesoderm, and then expressed specifically in yolk veins consisting two ducts of Cuvier and the vitellocaudal vein. Our data is the first finding that a coagulation factor XIII-like gene is expressed in the early vascular development of vertebrates.
Gene Expression Patterns 06/2004; 4(3):263-6. · 2.02 Impact Factor
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ABSTRACT: Sperm-oocyte fusion is one of the most impressive events in sexual reproduction, and the elucidation of its molecular mechanism has fascinated researchers for a long time. Because of the limitation of materials and difficulties in analyzing membrane protein-protein interactions, many attempts have failed to reach this goal. Recent studies involving gene targeting have clearly demonstrated the various molecules that are involved in sperm-oocyte binding and fusion. Sperm ADAMs (family of proteins with a disintegrin and metalloprotease domain), including fertilin alpha, fertilin beta and cyritestin, have been investigated and found to be important for binding rather than for fusion and painstaking studies have raised suspicions that their putative receptors, oocyte integrins, are necessary for the sperm-oocyte interaction. Recently, several studies have focused the spotlight on CD9 and glycosylphosphatidylinositol (GPI)-anchored proteins on oocytes, and epididymal protein DE on sperm, as candidate molecules involved in sperm-oocyte fusion. Lack of, or interference with the function of, these proteins can disrupt the sperm-oocyte fusion without changing the binding. In this review we highlight the candidate molecules involved in the sperm-oocyte interaction suggested from the recent progress in this research field.
Reproduction (Cambridge, England) 05/2004; 127(4):423-9. · 3.09 Impact Factor
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ABSTRACT: Pax-5 is the key regulator in B cell development. Pax-5-deficient mice show defects in B cell commitment and recombination of IgH chain gene rearrangement from DJ to VDJ. Previously, we found that Pax-5 bound to KI and KII sites, which play a crucial role in kappa-chain gene rearrangement. However, the function of Pax-5 in Ig kappa chain gene rearrangement has not been investigated. To address this issue, we newly established pre-BI cell lines expressing the pre-B cell receptor from Pax-5-deficient mice and used them in an in vitro culture system, in which kappa-chain gene rearrangement is induced by removing IL-7. By examining the Pax-5-deficient pre-BI (knockout (KO)) cells, we show in this study that, despite recombination-activating gene 1 and 2 expression, these KO cells did not rearrange the kappa-chain gene following the absence of kappa sterile transcription. Consistent with these data, fluorescent in situ hybridization analyses revealed that the J(kappa) locus in KO cells was located at the nuclear periphery as a repressive compartment. Transfection of KO cells with Pax-5 constructs indicated that the transactivation domain of Pax-5 was required for kappa sterile transcription and kappa-chain gene rearrangement. Moreover, the hormone-inducible system in KO cells demonstrated that Pax-5 directly functioned in kappa sterile transcription. These results indicate that Pax-5 is necessary for kappa sterile transcription during Ig kappa chain gene rearrangement.
The Journal of Immunology 05/2004; 172(8):4858-65. · 5.79 Impact Factor
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ABSTRACT: The myoseptum of fishes, composed of dense collagen, is a connective tissue layer that forms in the embryo, dividing somites from the trunk, and its structure and function are similar to those of the mammalian tendon. Both the myoseptum and tendon serve as the transmitter of muscular contractility to bones and adjoining muscles, and their structure is indispensable for movement of vertebrate animals. We cloned the zebrafish periostin gene and examined its expression and function in the myoseptum. The expression in embryos started in the rostral part of each segmented somite in the early segmentation stage; and consequently, metameric stripes were observed. At the end of segmentation, the expression region shifted to the transverse myoseptum and the myotome-epidermis boundary, and each myotome was surrounded by periostin. Using a polyclonal antibody, we found that the periostin protein was localized to the transverse myoseptum. Consistently, periostin morpholino antisense oligonucleotide led to defects in myoseptum formation, a delay in the differentiation of myofibers, and disorder of connection between myofibrils and myoseptum. We demonstrated here that periostin is the first molecule involved in myoseptum formation and propose that periostin secretion on the surface of the myoseptum is required for the adhesion of muscle fiber bundles to the myoseptum and the differentiation of muscle fibers.
Developmental Biology 04/2004; 267(2):473-87. · 4.07 Impact Factor
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Nippon rinsho. Japanese journal of clinical medicine 03/2004; 62 Suppl 2:85-9.
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ABSTRACT: Overexpression of the ATP-binding cassette transporter ABCG2 reportedly causes multidrug resistance, whereas altered drug-resistance profiles and substrate specificity are implicated for certain variant forms of ABCG2. At least three variant forms of ABCG2 have been hitherto documented on the basis of their amino acid moieties (i.e., arginine, glycine and threonine) at position 482. In the present study we have generated those ABCG2 variants by site-directed mutagenesis and expressed them in HEK-293 cells. Exogenous expression of the Arg(482), Gly(482), and Thr(482) variant forms of ABCG2 conferred HEK-293 cell resistance toward mitoxantrone 15-, 47- and 54-fold, respectively, as compared with mock-transfected HEK-293 cells. The transport activity of those variants was examined by using plasma-membrane vesicles prepared from ABCG2-overexpressing HEK-293 cells. [Arg(482)]ABCG2 transports [(3)H]methotrexate in an ATP-dependent manner; however, no transport activity was observed with the other variants (Gly(482) and Thr(482)). Transport of methotrexate by [Arg(482)]ABCG2 was significantly inhibited by mitoxantrone, doxorubicin and rhodamine 123, but not by S -octylglutathione. Furthermore, ABCG2 was found to exist in the plasma membrane as a homodimer bound via cysteinyl disulphide bond(s). Treatment with mercaptoethanol decreased its apparent molecular mass from 140 to 70 kDa. Nevertheless, ATP-dependent transport of methotrexate by [Arg(482)]ABCG2 was little affected by such mercaptoethanol treatment. It is concluded that Arg(482) is a critical amino acid moiety in the substrate specificity and transport of ABCG2 for certain drugs, such as methotrexate.
Biochemical Journal 09/2003; 373(Pt 3):767-74. · 4.90 Impact Factor
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ABSTRACT: Pax5 is an essential transcription factor for B cell development, and it is reported that Pax5 expression was reduced in the IL-7 receptor (IL-7R) knockout mouse. To investigate whether signals from the IL-7R regulate Pax5 transcription, we searched the consensus sequence of signal transducers and activators of transcription (STAT) in the Pax5 promoter region, since STAT is one of the components of cytokine signal transduction. A STAT-binding motif, termed SBM, was identified at 1,118 bp upstream of the transcriptional start site, and SBM completely overlapped with the binding site for early B cell factor (EBF). STAT5 was phosphorylated in the presence of IL-7 in the IL-7-dependent preB cell line, PreBR1, and phosphorylated-STAT5 as well as EBF was found to bind to the SBM. Moreover, we also revealed STAT5 binding to SBM in PreBR1 cells by chromatin immunoprecipitation assay. Transient co-transfection of reporter genes together with expression vectors of a constitutive active form of STAT5 and EBF into NIH3T3 cells demonstrated that STAT5 enhanced EBF-regulating transcription. Our results suggest that STAT5 phosphorylated by IL-7 can directly up-regulate Pax5 transcription in early B cells.
European Journal of Immunology 08/2003; 33(7):1824-9. · 5.10 Impact Factor
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ABSTRACT: Osteoclastogenesis is regulated by RANKL expressed on stromal cells. In this study, we sought to isolate a new surface molecule regulating osteoclastogenesis on stromal cells by generating monoclonal antibodies. A rat was immunized with the mouse stromal cell line, TSB13, which can support osteoclastogenesis, and a monoclonal antibody, A15-1, was obtained. A15-1 bound to a surface antigen on TSB13 cells, termed osteoclastogenesis-related antigen (OCRA), and immunoprecipitation with this antibody revealed that OCRA was a 220-kDa molecule. By means of flow cytometry, the A15-1 antigen (OCRA) was found to be expressed on various mesenchymal cell lines but not on hematopoietic cell lines, and the expression level of OCRA on the TSB13 cells was slightly increased by treatment with 1alpha,25(OH)2D3. When osteoclast progenitors and TSB13 cells were co-cultured in the presence of 1alpha,25(OH)2D3, the addition of A15-1 inhibited osteoclast differentiation in a dose-dependent manner; however, no significant inhibition of soluble RANKL-induced osteoclastogenesis was observed, suggesting that A15-1 inhibited only stromal cell-dependent osteoclastogenesis. The same inhibitory effect of A15-1 was also observed when primary bone marrow-derived stromal cells were used. The osteoclastogenesis-promoting effects of other osteotropic factors, such as parathyroid hormone (PTH) and interleukin (IL)-1beta, were also inhibited by A15-1. Time-course analysis of osteoclast differentiation in vitro indicated that the initial 2 days of treatment with A15-1 was sufficient for inhibition, suggesting that A15-1 inhibits the early stages of osteoclast differentiation. Finally, we investigated the in vivo effects of A15-1 on PTH-induced hypercalcemia in mice. Treatment with A15-1 significantly decreased the osteoclast surface in the PTH-administered mice. Taken together, our data indicate that OCRA, a novel A15-1-detected antigen, regulates stromal cell-dependent osteoclastogenesis.
Journal of Bone and Mineral Research 05/2003; 18(4):686-95. · 6.37 Impact Factor
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ABSTRACT: Although TRAF6 is essential for both RANKL- and TNFalpha-induced osteoclastogenesis, it has remained unclear whether other members of the TRAF family are involved in osteoclastogenesis. We examined TRAF5 function in both RANKL- and TNFalpha-induced osteoclastogenesis by using osteoclast progenitor cells from TRAF5-deficient mice. The results demonstrated that RANKL or TNFalpha did not effectively induce osteoclast differentiation from osteoclast progenitor cells derived from these mice into mature multinucleated osteoclasts, although c-jun N-terminal kinase (JNK) and NF-kappaB activation was apparently observed in osteoclast progenitor cells. In the parathyroid hormone (PTH)-induced hypercalcemia model, calcium concentration peaked at day 3 after administration. However, in TRAF5-deficient mice, this peak was delayed and found at day 5, showing less effective osteoclast differentiation. Thus, we have provided the first evidence showing that TRAF5 is involved in osteoclastogenesis.
Journal of Bone and Mineral Research 04/2003; 18(3):443-50. · 6.37 Impact Factor
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ABSTRACT: Osteosarcoma by nature shows aggressive pulmonary metastasis; however, the underlying molecular mechanisms remain unclear. We previously showed that N-cadherin and cadherin-11 (OB-cadherin), which are highly expressed in normal osteoblasts, are anomalously expressed in human osteosarcoma (Kashima et al., Am J Pathol 1999;155:1549-55). In the present study, we examined the role of cadherins in osteosarcoma metastasis using the mouse osteosarcoma cell line Dunn and its highly metastatic subline LM8. Oligonucleotide array and RT-PCR analyses demonstrated that Dunn and LM8 cells did not express appreciable levels of several members of the cadherin family, and Western blot analysis confirmed that Dunn and LM8 cells did not express P-cadherin, E-cadherin, N-cadherin or cadherin-11 protein. We therefore investigated the functional consequences of cadherin overexpression on cell migration and in vivo metastatic potential of LM8 cells. Several LM8 clones were isolated which expressed exogenous N-cadherin and cadherin-11 localized to the cell membrane and able to bind to beta-catenin. Overexpression of N-cadherin or cadherin-11 in LM8 cells did not affect cell proliferation but caused an inhibitory effect on cell migration in vitro. In vivo analysis showed that N-cadherin- and cadherin-11-overexpressing cells exhibited a marked reduction in their ability to form pulmonary metastases, with significant decreases in lung weight and the number and weight of metastatic lesions, as well as the size and weight of primary lesions at the s.c.-inoculated site. These observations demonstrate that disruption of N-cadherin- and cadherin-11-mediated cell-cell adhesion is critical in the pulmonary metastasis of osteosarcoma.
International Journal of Cancer 04/2003; 104(2):147-54. · 5.44 Impact Factor
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ABSTRACT: TRANCE (TNF-related activation-induced cytokine)-deficient mice completely lack osteoclasts, and develop severe osteopetrosis. These mice also show a defect in their pre-B cell differentiation. In the present study, the expression of TRANCE was examined in pre-B cell lines using flow cytometry and reverse transcription-PCR. Three pre-B cell lines, 18-81, B3P816-1, and 38B9, expressed TRANCE on their surface, and two pre-B cell lines, 7OZ/3 and NFS5, at the late pre-B cell stage, expressed it at low levels, although their mRNA expression was normal. Another pre-B cell line, 38-C-13, at the intermediate stage between pre-B and immature B cells, did not express TRANCE. The IL-7-dependent pre-B cell line PreBR, which expresses the pre-B cell receptor on the cell surface, also expressed TRANCE. When differentiation of PreBR cells was induced in vitro by removing IL-7 from cultures, TRANCE expression dropped; it was restored by the addition of IL-7, suggesting that TRANCE functions in cooperation with IL-7. To examine the function of TRANCE, we introduced the TRANCE gene into PreBR cells and established two transfectants that constitutively expressed TRANCE, even in the absence of IL-7. In these transfectants, after removal of IL-7, the number of cells that succeeded in kappa chain rearrangement was decreased to one third; and CD40 expression decreased to less than one tenth. Moreover, the percentage of cells in the S/G2/M phase was increased by 50% over the mock transfectant. These findings indicate that, before kappa chain rearrangement occurs, TRANCE together with IL-7 induces pre-B cells to proliferate and makes this rearrangement more efficient.
European Journal of Immunology 03/2003; 33(2):334-41. · 5.10 Impact Factor
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Tomonori Kaifu,
Jin Nakahara,
Masanori Inui,
Kenichi Mishima,
Toshihiko Momiyama,
Mitsuji Kaji,
Akiko Sugahara,
Hisami Koito,
Azusa Ujike-Asai,
Akira Nakamura,
Kiyoshi Kanazawa,
Kyoko Tan-Takeuchi,
Katsunori Iwasaki,
Wayne M Yokoyama, Akira Kudo,
Michihiro Fujiwara,
Hiroaki Asou,
Toshiyuki Takai
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ABSTRACT: Deletions in the DAP12 gene in humans result in Nasu-Hakola disease, characterized by a combination of bone fractures and psychotic symptoms similar to schizophrenia, rapidly progressing to presenile dementia. However, it is not known why these disorders develop upon deficiency in DAP12, an immunoreceptor signal activator protein initially identified in the immune system. Here we show that DAP12-deficient (DAP12(-/-)) mice develop an increased bone mass (osteopetrosis) and a reduction of myelin (hypomyelinosis) accentuated in the thalamus. In vitro osteoclast induction from DAP12(-/-) bone marrow cells yielded immature cells with attenuated bone resorption activity. Moreover, immature oligodendrocytes were arrested in the vicinity of the thalamus, suggesting that the primary defects in DAP12(-/-) mice are the developmental arrest of osteoclasts and oligodendrocytes. In addition, the mutant mice also showed synaptic degeneration, impaired prepulse inhibition, which is commonly observed in several neuropsychiatric diseases in humans including schizophrenia, and aberrant electrophysiological profiles in the thalami. These results provide a molecular basis for a unique combination of skeletal and psychotic characteristics of Nasu-Hakola disease as well as for schizophrenia and presenile dementia.
Journal of Clinical Investigation 03/2003; 111(3):323-32. · 15.39 Impact Factor
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ABSTRACT: Although TRAF6 is essential for both RANKL- and TNFα-induced osteoclastogenesis, it has remained unclear whether other members of the TRAF family are involved in osteoclastogenesis. We examined TRAF5 function in both RANKL- and TNFα-induced osteoclastogenesis by using osteoclast progenitor cells from TRAF5-deficient mice. The results demonstrated that RANKL or TNFα did not effectively induce osteoclast differentiation from osteoclast progenitor cells derived from these mice into mature multinucleated osteoclasts, although c-jun N-terminal kinase (JNK) and NF-κB activation was apparently observed in osteoclast progenitor cells. In the parathyroid hormone (PTH)-induced hypercalcemia model, calcium concentration peaked at day 3 after administration. However, in TRAF5-deficient mice, this peak was delayed and found at day 5, showing less effective osteoclast differentiation. Thus, we have provided the first evidence showing that TRAF5 is involved in osteoclastogenesis.
Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research 02/2003; 18(3):443 - 450. · 6.04 Impact Factor
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ABSTRACT: The zebrafish zisp gene encodes a putative transmembrane protein with a DHHC zinc finger motif. At the segmentation period zisp is expressed in the adaxial cells and the somites in a striping pattern. The zisp transcripts are localized to the posterior parts within the individual somites. In fused somites mutants, zisp is expressed throughout the somitic mesoderm. These expression patterns are similar to those of myoD. In addition to the somitic expression, the zisp expression was observed in lens cells at the late segmentation period and the early pharyngula period.
Mechanisms of Development 01/2003; 119 Suppl 1:S311-4. · 2.83 Impact Factor
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ABSTRACT: CD9 is a membrane protein belonging to the tetraspanin family. Despite CD9's broad tissue distribution, the only abnormality observed in CD9-deficient mice was infertility of females, which was responsible for a defect in the sperm-egg fusion process. However, the function of CD9 in sperm-egg fusion is not clear at all because the technique to analyze the activity of molecules in sperm-egg fusion has not been established. We demonstrated that the exogenous mouse CD9, expressed by polyadenylated mRNA injection at the germinal-vesicle stage oocytes, was precisely localized to the egg plasma membrane, and the expression reversed the infertility of CD9(-/-) eggs. Then, two other tetraspanins, human CD9 and mouse CD81, overexpressed with this technique on CD9(-/-) eggs restored the fertilization rate up to approximately 90 and approximately 50% against that of wild type eggs, respectively. Moreover, in the presence of an anti-mouse CD9 mAb, which blocks sperm-egg fusion, expression of human CD9 or mouse CD81 on eggs also rescued the fusibility. These results suggested that human CD9 plays a crucial role in human fertilization, and mouse CD81 has the potential to compensate for CD9 function in sperm-egg fusion. In addition, the polyadenylated mRNA injection is effective for molecular analysis of sperm-egg fusion.
Developmental Biology 08/2002; 247(2):327-34. · 4.07 Impact Factor
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ABSTRACT: Many studies have shown that FcgammaRIIB is a negative regulator of B cell receptor signaling, and even though FcgammaRIIB is expressed through all developmental stages of the B cell lineage, its involvement in pre-B cell receptor (pre-BCR) signaling has not been examined. To investigate FcgammaRIIB function at the pre-B cell stage, we have established pre-BCR positive pre-B cell lines from normal mice and FcgammaRIIB-deficient mice, named PreBR and Fcgamma(-/-)PreBR, respectively. These cell lines are able to differentiate into immature B cells in vitro by removal of IL-7. In PreBR, apoptosis was moderately induced by F(ab')(2) anti-mu Ab, but not by intact anti-mu Ab. Phosphorylation of SH2-containing inositol 5-phosphatase (SHIP) and Dok, which are involved in FcgammaRIIB signaling, was induced by anti-mu cross-linking in PreBR. In contrast, apoptosis was strongly induced by both the F(ab')(2) and intact anti-mu Abs in Fcgamma(-/-)PreBR, and the level of phosphorylation of SHIP or Dok was much lower in Fcgamma(-/-)PreBR than those observed in PreBR. Restoration of FcgammaRIIB to Fcgamma(-/-)PreBR followed by anti-mu cross-linking blocked severe apoptosis, and up-regulated SHIP and Dok phosphorylation. The results demonstrate that FcgammaRIIB negatively regulates pre-BCR-mediated signaling for apoptosis.
The Journal of Immunology 02/2002; 168(2):629-34. · 5.79 Impact Factor
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ABSTRACT: Periostin is a secreted protein that is highly expressed in early osteoblastic cells in vitro and in periosteum and periodontal ligament tissues in vivo. It is known that periostin supports cellular adhesion and spreading in vitro. Although, the mechanisms of transcriptional regulation of periostin are poorly understood, gene-profiling data have revealed that overexpression of Twist, a basic helix-loop-helix (bHLH) transcription factor, resulted in increased periostin expression as validated by Northern blot and reverse transcription-polymerase chain reaction (RT-PCR) analyses. Twist is an important transcription factor for cell type determination and differentiation and has been shown to play an important regulatory role in early osteogenesis. In situ hybridization of mouse calvarial bones indicated that periostin and Twist mRNA are co-localized at the osteogenic fronts of calvarial bones. To characterize the 5' flanking region of the periostin gene, primer extension was carried out to identify the transcription start site, and DNA sequence analysis confirmed the presence of a 'Twist-box' response element. The results of electrophoretic mobility shift assay (EMSA) using nuclear extracts of MC3T3-E1 cells revealed that Twist bound to the Twist-box sequence on the periostin promoter. In vivo footprinting experiments using ligation-mediated PCR (LM-PCR) indicated that the Twist-box sequence was protected in undifferentiated MC3T3-E1 preosteoblasts but not in differentiated MC3T3-E1 osteoblasts. To determine whether Twist actually regulates the periostin expression, 293T cells were transiently co-transfected with the periostin promoter construct and the human Twist expression vector. Reporter analysis indicated that the periostin promoter activities were enhanced by overexpression of Twist. These data suggest that Twist can bind to the periostin promoter in undifferentiated preosteoblasts and up-regulate periostin expression, consistent with the up-regulation of periostin expression by Twist as observed in the gene-profiling data.
Journal of Cellular Biochemistry 02/2002; 86(4):792-804. · 2.87 Impact Factor
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ABSTRACT: The migration and adhesion of osteoblasts requires several classical cadherins. Cadherin-11, one of the classical cadherins, was expressed in mouse osteoblasts in skull bone and femur, revealed by immunohistochemistry. To elucidate the function of cadherin-11 in osteoblastogenesis, cadherin-11 null mutant mice were investigated. Although apparently normal at birth, Alizarin red staining of null mutant mice showed a reduced calcified area at the frontal suture that caused a round-shaped calvaria with increasing animal age to 3 months. Consequently, there was a reduction in bone density at the femoral metaphyses and the diploë of calvaria in null mutant mice. In the in vitro culture of newborn calvarial cells, the calcified area of mutant cells was smaller than those derived from wild-type littermates. These results show that absence of cadherin-11 leads to reduced bone density in some parts of skeletons including calvaria and long bone metaphyses, and thus suggest that cadherin-11 plays roles in the regulation of osteoblast differentiation and in the mineralization of the osteoid matrix.
Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research 06/2001; 16(7):1265 - 1271. · 6.04 Impact Factor
