Biological Behavior of Human Dental Pulp Cells in Response to Carious Stimuli Analyzed by PCNA Immunostaining and AgNOR Staining

Kobayashi, Ieyoshi; Izumi, Toshio; Okamura, Kazuhiko; Matsuo, Kou; Ishibashi, Yukihide; Sakai, Hidetaka

doi:10.1159/000262164

Cited by 9 publications

(10 citation statements)

References 16 publications

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“…Those findings are in accordance with clinical observations [Massler, 1967;Nyvad and Fejerskov, 1987;Schüpbach et al, 1990] and after lesion arrest of deep carious lesions following stepwise excavation [Bjørndal et al, in press]. The second methodological problem has been technical difficulties in obtaining thin undemineralized tooth sections [Yoshida and Massler, 1964;Brännström and Lind, 1965;Kuwabara and Massler, 1966;Langeland, 1987;Magloire et al, 1988;Kobayashi et al, 1996]. In this study we applied a method to produce undemineralized tissue sections for cellular examinations, which previous studies have proved to be appropriate for examination of teeth [Donath, 1987;.…”

Section: Discussionsupporting

confidence: 80%

“…Due to technical difficulties it has not been possible to examine pulp-dentinal reactions to caries in relation to the undemineralized features of the overlying hard tissue lesion [Yoshida and Massler, 1964;Brännström and Lind, 1965;Kuwabara and Massler, 1966;Langeland, 1987;Magloire et al, 1988;Kobayashi et al, 1996]. It is well known that human enamel is a microporous solid [Bergman, 1963;Dibdin, 1993] allowing transport of stimuli from the external environment to the dentine/pulp complex.…”

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confidence: 99%

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A Quantitative Light Microscopic Study of the Odontoblast and Subodontoblastic Reactions to Active and Arrested Enamel Caries without Cavitation

Bjørndal

Darvann²,

Thylstrup

1997

Caries Res

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This study describes cellular and microradiographic findings in thin undemineralized enamel-dentine sections from 36 enamel caries lesions from freshly extracted third molars. Lesions activity was determined by clinical examination and the estimated age of the lesion at extraction time. The cellular reactions to the enamel/dentine lesion complex were measured using computerized histomorphometry under the following conditions: (a) the cytoplasm:nucleus ratio of the odontoblast cell; (b) the odontoblast cell:dentinal tubule ratio, and (c) the adjacent predentine area (μm²). The first cellular reactions were observed beneath superficial enamel lesions before visible alterations in dentine mineralization. The cytoplasm:nucleus ratio of the odontoblast cells was markedly reduced, and only active lesions showed evidence of cellular proliferation into the cell-free zone. In more advanced active lesions the affected odontoblast cells had a significantly lower cytoplasm:nucleus ratio compared with the controls. Similar changes were not seen in arrested or slow-progressing lesions. Before onset of tertiary dentine formation there was a positive correlation between odontoblast cell size and predentine formation. Primary odontoblast cells were involved in early tertiary or reactionary dentine formation without odontoblast cell replacement. Reactionary dentine was only seen in active lesions, suggesting that reactions in the dentine/pulp complex are closely associated with the external environment.

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Section: Discussionsupporting

confidence: 80%

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confidence: 99%

A Quantitative Light Microscopic Study of the Odontoblast and Subodontoblastic Reactions to Active and Arrested Enamel Caries without Cavitation

Bjørndal

Darvann²,

Thylstrup

1997

Caries Res

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“…It plays crucial roles during DNA replication in cell growth. PCNA allows detecting cell proliferation because it is increased specially during S phase of cell cycle, which is why it has been used as a biological or endogenous immunohistochemical marker to verify cell proliferation (Kobayashi et al. 1996, Matsuzaka et al.…”

Section: Discussionmentioning

confidence: 99%

Expression of insulin‐like growth factor‐1 and proliferating cell nuclear antigen in human pulp cells of teeth with complete and incomplete root development

et al. 2009

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“…In physiological conditions, no proliferating cells are found in the human coronal pulp and only a low proliferative activity is confined to the radicular pulp (1). Upon advanced dental caries, PCNA stained cells become detectable in the coronal pulp (2). After dental lesion and 5-bromo-2 0 -deoxyuridine (BrdU) labeling, the staining disappears from the pulp-dentin border, and a wide range of proliferative cells is seen within the dental pulp.…”

Section: Introductionmentioning

confidence: 99%

Plithotaxis, a collective cell migration, regulates the sliding of proliferating pulp cells located in the apical niche

Hirata

Dimitrova-Nakov

Djole

et al. 2014

Connective Tissue Research

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Using the proliferating cell nuclear antigen (PCNA) immunostaining, we previously identified, after pulp exposure, three zones of proliferating cells in the rat molar pulp. Zones I and II were in the crown near the pulp. Zone III was near the apex revealing a recruitment of mitotic cells at distance from the lesion. To gain further insight into the spatio-temporal evolution of proliferating pulp cells of zone III, we performed a longitudinal study of PCNA staining in rat molar mesial root at 3, 8, and 15 d after pulp exposure associated to implantation of unloaded or amelogenin loaded agarose beads. At day 3 after implantation, PCNA-positive cells were located in the central part of the radicular pulp. At day 8, PCNA-labeled cells were aligned in the lateral part of the pulp beneath the odontoblast/sub-odontoblast layer. At day 15, PCNA labeling became undetectable in the root and was located in the coronal pulp. These results suggest that after pulp exposure, PCNA-positive cells may migrate from the central part of the radicular pulp to the sub-odontoblast cell layer and then from the apical root to the crown. Electron microscopy and immunostaining analysis showed that pulpal cells were linked by desmosome-like and gap-junctions. Extracellular matrix was composed of thin collagen fibrils associated with glycosaminoglycans favoring cell mobility. These data suggest that the syncytium-like structure formed by pulp radicular cells may be a pre-request for plithotaxis, a collective cell migration process. This emergent mechanism may govern pulp healing and regeneration after dental lesion.

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Biological Behavior of Human Dental Pulp Cells in Response to Carious Stimuli Analyzed by PCNA Immunostaining and AgNOR Staining

Cited by 9 publications

References 16 publications

A Quantitative Light Microscopic Study of the Odontoblast and Subodontoblastic Reactions to Active and Arrested Enamel Caries without Cavitation

A Quantitative Light Microscopic Study of the Odontoblast and Subodontoblastic Reactions to Active and Arrested Enamel Caries without Cavitation

Expression of insulin‐like growth factor‐1 and proliferating cell nuclear antigen in human pulp cells of teeth with complete and incomplete root development

Plithotaxis, a collective cell migration, regulates the sliding of proliferating pulp cells located in the apical niche

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