Ken Ichi Tezuka scite author profile

Notch signaling is an evolutionarily conserved mechanism that plays a critical role in the determination of multiple cellular differentiation pathways and morphogenesis during embryogenesis. The limb bud high-density culture is an established model that recapitulates mesenchymal condensation and chondrocyte differentiation. Reverse transcription-polymerase chain reaction (RT-PCR) showed that Notch and its related genes were expressed in such cultures on day 1 and reached a peak between day 3 and day 5, when cell condensation and nodule formation were initiated. Immunohistochemical experiments revealed that the expression of Notch1 was initially localized within the nodules and shifted to their peripheral region as the cell differentiation progressed. We disrupted Notch signaling by using a gamma-secretase inhibitor, N-[N-(3,5-difluorophenacetyl-L-alanyl)]-S-phenylglycine t-butyl ester (DAPT), to analyze the function of Notch signaling in the culture system. The blocking of Notch signaling by DAPT apparently promoted the initiation of prechondrogenic condensation and fusion of the nodules, and such an effect was reversed by exogenous expression of the Notch cytoplasmic domain. DAPT treatment also induced chondrogenic markers and bone morphogenetic protein (BMP)-related molecules, including type II collagen, Sox9, GDF5, and Id1. These observations imply that the Notch signal may have an important role in chondrogenic differentiation by negatively regulating the initiation of prechondrogenic condensation and nodule formation.

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Molecular cloning of a possible cysteine proteinase predominantly expressed in osteoclasts.

Tezuka¹,

Tezuka²,

Maejima³

et al. 1994

Journal of Biological Chemistry

316

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Dual origin of melanocytes defined by Sox1 expression and their region‐specific distribution in mammalian skin

et al. 2013

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Melanocytes are pigment-producing cells generated from neural crest cells (NCCs) that delaminate from the dorsal neural tube. The widely accepted premise that NCCs migrating along the dorsolateral pathway are the main source of melanocytes in the skin was recently challenged by the finding that Schwann cell precursors are the major cellular source of melanocytes in the skin. Still, in a wide variety of vertebrate embryos, melanocytes are exclusively derived from NCCs. In this study, we show that a NCC population that is not derived from Sox1 + dorsal neuroepithelial cells but are derived from Sox1 À cells differentiate into a significant population of melanocytes in the skin of mice. Later, these Sox1 À cells clearly segregate from cells that originated from Sox1 + dorsal neuroepithelial cell-derived NCCs. The possible derivation of Sox1 À cells from epidermal cells also strengthens their non-neuroepithelial origin.

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Priming with FGF2 stimulates human dental pulp cells to promote axonal regeneration and locomotor function recovery after spinal cord injury

Nagashima

Miwa

Soumiya

et al. 2017

Sci Rep

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Human dental pulp cells (DPCs), adherent cells derived from dental pulp tissues, are potential tools for cell transplantation therapy. However, little work has been done to optimize such transplantation. In this study, DPCs were treated with fibroblast growth factor-2 (FGF2) for 5–6 consecutive serial passages and were transplanted into the injury site immediately after complete transection of the rat spinal cord. FGF2 priming facilitated the DPCs to promote axonal regeneration and to improve locomotor function in the rat with spinal cord injury (SCI). Additional analyses revealed that FGF2 priming protected cultured DPCs from hydrogen-peroxide–induced cell death and increased the number of DPCs in the SCI rat spinal cord even 7 weeks after transplantation. The production of major neurotrophic factors was equivalent in FGF2-treated and untreated DPCs. These observations suggest that FGF2 priming might protect DPCs from the post-trauma microenvironment in which DPCs infiltrate and resident immune cells generate cytotoxic reactive oxygen species. Surviving DPCs could increase the availability of neurotrophic factors in the lesion site, thereby promoting axonal regeneration and locomotor function recovery.

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Expression of Cre recombinase in the mouse developing chondrocytes driven by the mouse ?2(XI) collagen promoter

et al. 2005

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cDNA Expression Cloning of the 85-kDa Protein Overexpressed in Adriamycin-Resistant Cells

Noguchi

Naito

Tezuka³

et al. 1993

Biochemical and Biophysical Research Communications

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Ken Ichi Tezuka

Identification of osteopontin in isolated rabbit osteoclasts

Three-dimensional reconstruction of chick calvarial osteocytes and their cell processes using confocal microscopy

Involvement of Notch signaling in initiation of prechondrogenic condensation and nodule formation in limb bud micromass cultures

Molecular cloning of a possible cysteine proteinase predominantly expressed in osteoclasts.

Dual origin of melanocytes defined by Sox1 expression and their region‐specific distribution in mammalian skin

Priming with FGF2 stimulates human dental pulp cells to promote axonal regeneration and locomotor function recovery after spinal cord injury

Expression of Cre recombinase in the mouse developing chondrocytes driven by the mouse ?2(XI) collagen promoter

cDNA Expression Cloning of the 85-kDa Protein Overexpressed in Adriamycin-Resistant Cells

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