Stem cell contributions to cementoblast differentiation in healthy periodontal ligament and periodontitis

Loss of tissue attachment as a consequence of bacterial infection and inflammation represents the main therapeutic target for the treatment of periodontitis. Cementoblasts, the cells that produce the mineralized tissue, cementum, that is responsible for connecting the soft periodontal tissue to the...

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Veröffentlicht in:	Stem cells (Dayton, Ohio) Ohio), 2021-01, Vol.39 (1), p.92-102
Hauptverfasser:	Zhao, Jing, Faure, Louis, Adameyko, Igor, Sharpe, Paul T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Attachment Bacterial diseases CD90 antigen Cell differentiation cementoblasts Cementum Differentiation Gum disease Homeostasis Ligaments Lipopolysaccharides Periodontal disease Periodontal diseases Periodontal ligament Periodontitis Populations Regeneration Soft tissues Stem cells Tissues Wnt protein Wnt signaling
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creator	Zhao, Jing Faure, Louis Adameyko, Igor Sharpe, Paul T.
description	Loss of tissue attachment as a consequence of bacterial infection and inflammation represents the main therapeutic target for the treatment of periodontitis. Cementoblasts, the cells that produce the mineralized tissue, cementum, that is responsible for connecting the soft periodontal tissue to the tooth, are a key cell type for maintaining/restoring tissue attachment following disease. Here, we identify two distinct stem cell populations that contribute to cementoblast differentiation at different times. During postnatal development, cementoblasts are formed from perivascular‐derived cells expressing CD90 and perivascular‐associated cells that express Axin2. During adult homeostasis, only Wnt‐responsive Axin2+ cells form cementoblasts but following experimental induction of periodontal disease, CD90+ cells become the main source of cementoblasts. We thus show that different populations of resident stem cells are mobilized at different times and during disease to generate precursors for cementoblast differentiation and thus provide an insight into the targeting cells resident cells for novel therapeutic approaches. The differentiation of these stem cells into cementoblasts is however inhibited by bacterial products such as lipopolysaccharides, emphasizing that regeneration of periodontal ligament soft tissue and restoration of attachment will require a multipronged approach. During homeostasis, two cells populations (Axin2+ and CD90+ cells) differentiate into cementoblasts in the periodontium. In adults, only Axin2+ cells continue contributing to cementoblast formation, whereas CD90+ cells are not necessary during adult homeostasis. Following induction of periodontitis, CD90+ cells are stimulated to differentiate into cementoblasts
doi_str_mv	10.1002/stem.3288
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The differentiation of these stem cells into cementoblasts is however inhibited by bacterial products such as lipopolysaccharides, emphasizing that regeneration of periodontal ligament soft tissue and restoration of attachment will require a multipronged approach. During homeostasis, two cells populations (Axin2+ and CD90+ cells) differentiate into cementoblasts in the periodontium. In adults, only Axin2+ cells continue contributing to cementoblast formation, whereas CD90+ cells are not necessary during adult homeostasis. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Oxford University Press Journals All Titles (1996-Current); Alma/SFX Local Collection
subjects	Attachment Bacterial diseases CD90 antigen Cell differentiation cementoblasts Cementum Differentiation Gum disease Homeostasis Ligaments Lipopolysaccharides Periodontal disease Periodontal diseases Periodontal ligament Periodontitis Populations Regeneration Soft tissues Stem cells Tissues Wnt protein Wnt signaling
title	Stem cell contributions to cementoblast differentiation in healthy periodontal ligament and periodontitis
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