Kaori Hamada scite author profile

Recent reports have described that NCSCs (neural crest-derived stem cells) are not only present in the embryonic neural crest but also in the adult tissues. Dental pulp is one of mesenchymal soft tissues origin from cranial neural crest cells, and thought to be a source of adult stem cells. Here, we investigated the existence of NCSC-like cells in apical pulp of human developing tooth. Human impacted third molars with immature apex freshly extracted were obtained. The cells derived from the apical pulp tissue not framed by dentin or the coronal pulp tissues were cultured by primary explant culture. APDCs (apical pulp-derived cells) and CPCs (coronal pulp cells) formed spheres under neurosphere culture condition. The number of spheres from APDCs was larger than that from CPCs. The sphere-forming cells derived from APDCs had self-renewal capacity, and expressed neural crest-associated markers (p75, Snail and Slug) and NSC (neural stem cell) markers (Nestin and Musashi1). The expression pattern of mesenchymal stem cell markers, CD105 and CD166, on the surface of sphere-forming cells derived APDCs was different from that of APDCs. These sphere-forming cells could differentiate into multiple mesenchymal lineages (osteoblasts, adipocytes, chondrocytes and smooth muscle cells) and neural lineage (neurons) in vitro, and generated ectopic bone tissues on the border of HA (hydroxyapatite) scaffold in vivo. The results of this study suggest that APDCs contain cells with characteristics of NCSCs reported previously in mice. Humans developing tooth with immature apex is an effective source of cells for neural crest lineage tissue regeneration.

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Stretch Activates Jun N-terminal Kinase/Stress-activated Protein Kinase in Vascular Smooth Muscle Cells through Mechanisms Involving Autocrine ATP Stimulation of Purinoceptors

Hamada¹,

Takuwa²,

Yokoyama³

et al. 1998

Journal of Biological Chemistry

109

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Hard tissue regeneration capacity of apical pulp derived cells (APDCs) from human tooth with immature apex

Abe

Yamaguchi

Watanabe

et al. 2008

Biochemical and Biophysical Research Communications

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Characterization of the radioresponse of human apical papilla-derived cells

et al. 2011

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BackgroundThe purpose of this study was to characterize the radiobiological properties of stem/progenitor cells derived from apical papilla-derived cells (APDCs) compared to bulk APDCs.MethodsAPDCs were isolated from freshly extracted human third molars with immature apices. Multipotent spheres, which are thought to contain an enriched population of stem/progenitor cells, were formed from the APDCs, using a neurosphere culture technique. After γ-irradiation, papillary sphere-forming cells (PSFCs) and bulk APDCs were subjected to radiosensitivity and hard tissue-forming assays.ResultsCompared to bulk APDCs, the PSFCs exhibited a radioresistant phenotype and a higher capacity for DNA double strand break repair. Irradiation induced a significant increase in a senescence-like phenotype in both cell types. Neither type of cells exhibited a significant induction of apoptotic changes after 8 Gy of irradiation. Ability to form hard tissue in vivo was significantly decreased in PSFCs, but not in APDCs following 4 Gy of irradiation.ConclusionsWe demonstrated for the first time that stem/progenitor cells derived from APDCs exhibit a radioresistant phenotype; however, the hard tissue forming ability in vivo, but not bulk APDCs, was significantly reduced after irradiation.

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An endothelin ETA receptor antagonist, FR139317, ameliorates cerebral vasospasm in dogs

et al. 1993

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Kaori Hamada

Neural crest stem cell property of apical pulp cells derived from human developing tooth

Stretch Activates Jun N-terminal Kinase/Stress-activated Protein Kinase in Vascular Smooth Muscle Cells through Mechanisms Involving Autocrine ATP Stimulation of Purinoceptors

Hard tissue regeneration capacity of apical pulp derived cells (APDCs) from human tooth with immature apex

Characterization of the radioresponse of human apical papilla-derived cells

An endothelin ETA receptor antagonist, FR139317, ameliorates cerebral vasospasm in dogs

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