Micromolar sodium fluoride promotes osteo/odontogenic differentiation in dental pulp stem cells by inhibiting PI3K/AKT pathway

Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs...

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Published inArchives of oral biology Vol. 131; p. 105265
Main Authors Xu, Shuaimei, Xie, Xinghuan, Li, Changzhou, Liu, Zhongjun, Zuo, Daming
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2021
Subjects
Cell Differentiation
Cell Proliferation
Cells, Cultured
Dental Caries
Dental Pulp
Dental pulp stem cells
Humans
Odontogenesis
Osteogenesis
Phosphatidylinositol 3-Kinases
PI3K/AKT pathway
Proto-Oncogene Proteins c-akt
Sodium fluoride
Sodium Fluoride - pharmacology
Stem Cells
ARS
ALP
DMP1
Cell differentiation
DSPP
PI3K/AKT pathway
MSCs
NaF
DPSCs
RNA-seq
Dental pulp stem cells
KEGG
Sodium fluoride
GAPDH
BSP
OM
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Abstract Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs. DPSCs were isolated from healthy human third molars and were cultured in conditioned media with different concentrations of NaF. RNA sequencing (RNA-seq) combined with Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis was used to assess the pathways regulated by NaF. Alkaline phosphatase activity, Alizarin red staining, Western blotting, and real-time qRT-PCR were used to determine the osteo/odontogenic differentiation in DPSCs treated with NaF. NaF significantly promoted the osteo/odontogenic differentiation of DPSCs at micromolar levels. Furthermore, RNA-seq and KEGG pathway enrichment analysis indicated that the PI3K/AKT pathway was involved in the pro-osteoclastogenesis effect of NaF. Western blotting analysis exhibited that the phosphorylation of AKT was decreased in NaF-treated DPSCs. Chemical inhibition of the PI3K/AKT pathway abrogated the NaF-promoted DPSCs osteo/odontogenic differentiation. Micromolar NaF can promote the osteo/odontogenic differentiation of DPSCs by inhibiting the PI3K/AKT pathway. The data used to support the findings of this study are available from the corresponding author upon request. •Micromolar NaF promotes osteo/odontogenic differentiation of DPSCs.•Activation of PI3K/AKT pathway is suppressed in NaF-treated DPSCs.•NaF affects DPSC differentiation via the PI3K/AKT pathway.
AbstractList Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs. DPSCs were isolated from healthy human third molars and were cultured in conditioned media with different concentrations of NaF. RNA sequencing (RNA-seq) combined with Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis was used to assess the pathways regulated by NaF. Alkaline phosphatase activity, Alizarin red staining, Western blotting, and real-time qRT-PCR were used to determine the osteo/odontogenic differentiation in DPSCs treated with NaF. NaF significantly promoted the osteo/odontogenic differentiation of DPSCs at micromolar levels. Furthermore, RNA-seq and KEGG pathway enrichment analysis indicated that the PI3K/AKT pathway was involved in the pro-osteoclastogenesis effect of NaF. Western blotting analysis exhibited that the phosphorylation of AKT was decreased in NaF-treated DPSCs. Chemical inhibition of the PI3K/AKT pathway abrogated the NaF-promoted DPSCs osteo/odontogenic differentiation. Micromolar NaF can promote the osteo/odontogenic differentiation of DPSCs by inhibiting the PI3K/AKT pathway. The data used to support the findings of this study are available from the corresponding author upon request. •Micromolar NaF promotes osteo/odontogenic differentiation of DPSCs.•Activation of PI3K/AKT pathway is suppressed in NaF-treated DPSCs.•NaF affects DPSC differentiation via the PI3K/AKT pathway.
Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs.OBJECTIVESodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs.DPSCs were isolated from healthy human third molars and were cultured in conditioned media with different concentrations of NaF. RNA sequencing (RNA-seq) combined with Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis was used to assess the pathways regulated by NaF. Alkaline phosphatase activity, Alizarin red staining, Western blotting, and real-time qRT-PCR were used to determine the osteo/odontogenic differentiation in DPSCs treated with NaF.DESIGNDPSCs were isolated from healthy human third molars and were cultured in conditioned media with different concentrations of NaF. RNA sequencing (RNA-seq) combined with Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis was used to assess the pathways regulated by NaF. Alkaline phosphatase activity, Alizarin red staining, Western blotting, and real-time qRT-PCR were used to determine the osteo/odontogenic differentiation in DPSCs treated with NaF.NaF significantly promoted the osteo/odontogenic differentiation of DPSCs at micromolar levels. Furthermore, RNA-seq and KEGG pathway enrichment analysis indicated that the PI3K/AKT pathway was involved in the pro-osteoclastogenesis effect of NaF. Western blotting analysis exhibited that the phosphorylation of AKT was decreased in NaF-treated DPSCs. Chemical inhibition of the PI3K/AKT pathway abrogated the NaF-promoted DPSCs osteo/odontogenic differentiation.RESULTSNaF significantly promoted the osteo/odontogenic differentiation of DPSCs at micromolar levels. Furthermore, RNA-seq and KEGG pathway enrichment analysis indicated that the PI3K/AKT pathway was involved in the pro-osteoclastogenesis effect of NaF. Western blotting analysis exhibited that the phosphorylation of AKT was decreased in NaF-treated DPSCs. Chemical inhibition of the PI3K/AKT pathway abrogated the NaF-promoted DPSCs osteo/odontogenic differentiation.Micromolar NaF can promote the osteo/odontogenic differentiation of DPSCs by inhibiting the PI3K/AKT pathway.CONCLUSIONMicromolar NaF can promote the osteo/odontogenic differentiation of DPSCs by inhibiting the PI3K/AKT pathway.The data used to support the findings of this study are available from the corresponding author upon request.DATA AVAILABILITYThe data used to support the findings of this study are available from the corresponding author upon request.
Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is not fully understood. In this study, we characterized the impact of micromolar levels of NaF on the osteo/odontogenic differentiation of DPSCs. DPSCs were isolated from healthy human third molars and were cultured in conditioned media with different concentrations of NaF. RNA sequencing (RNA-seq) combined with Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis was used to assess the pathways regulated by NaF. Alkaline phosphatase activity, Alizarin red staining, Western blotting, and real-time qRT-PCR were used to determine the osteo/odontogenic differentiation in DPSCs treated with NaF. NaF significantly promoted the osteo/odontogenic differentiation of DPSCs at micromolar levels. Furthermore, RNA-seq and KEGG pathway enrichment analysis indicated that the PI3K/AKT pathway was involved in the pro-osteoclastogenesis effect of NaF. Western blotting analysis exhibited that the phosphorylation of AKT was decreased in NaF-treated DPSCs. Chemical inhibition of the PI3K/AKT pathway abrogated the NaF-promoted DPSCs osteo/odontogenic differentiation. Micromolar NaF can promote the osteo/odontogenic differentiation of DPSCs by inhibiting the PI3K/AKT pathway. The data used to support the findings of this study are available from the corresponding author upon request.
ArticleNumber 105265
Author Li, Changzhou
Zuo, Daming
Xie, Xinghuan
Liu, Zhongjun
Xu, Shuaimei
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Keywords ARS
ALP
DMP1
Cell differentiation
DSPP
PI3K/AKT pathway
MSCs
NaF
DPSCs
RNA-seq
Dental pulp stem cells
KEGG
Sodium fluoride
GAPDH
BSP
OM
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– reference: 34968883 - Arch Oral Biol. 2022 Feb;134:105341
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Snippet Sodium fluoride (NaF) plays an important role in preventing dental caries. However, the regulatory effect of NaF on the committed differentiation of DPSCs is...
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SubjectTerms Cell Differentiation
Cell Proliferation
Cells, Cultured
Dental Caries
Dental Pulp
Dental pulp stem cells
Humans
Odontogenesis
Osteogenesis
Phosphatidylinositol 3-Kinases
PI3K/AKT pathway
Proto-Oncogene Proteins c-akt
Sodium fluoride
Sodium Fluoride - pharmacology
Stem Cells
Title Micromolar sodium fluoride promotes osteo/odontogenic differentiation in dental pulp stem cells by inhibiting PI3K/AKT pathway
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0003996921002284
https://dx.doi.org/10.1016/j.archoralbio.2021.105265
https://www.ncbi.nlm.nih.gov/pubmed/34601318
https://www.proquest.com/docview/2579085849
Volume 131
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