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DNMT1 Inhibitor Restores RUNX2 Expression and Mineralization in Periodontal Ligament Cells

Rahyza Inácio Freire de Assis, Arthur Schmidt, Francesca Racca, Rodrigo A. da Silva, William Fernando Zambuzzi, Karina Gonzáles Silvério, Francisco Humberto Nociti, Vanessa Galego Arias Pecorari, Małgorzata Wiench, Denise Carleto Andia

2021DNA and Cell Biology30 citationsDOIOpen Access PDF

Abstract

Periodontal ligament cells (PDLCs) have well documented osteogenic potential; however, this commitment can be highly heterogenous, limiting their applications in tissue regeneration. In this study, we use PDLC populations characterized by high and low osteogenic potential (h-PDLCs and l-PDLCs, respectively) to identify possible sources of such heterogeneity and to investigate whether the osteogenic differentiation can be enhanced by epigenetic modulation. In h-PDLCs, low basal expression levels of pluripotency markers ( NANOG , OCT4 ), DNA methyltransferases ( DNMT1 , DNMT3B ), and enzymes involved in active DNA demethylation ( TET1 , TET3 ) were prerequisite to high osteogenic potential. Furthermore, these genes were downregulated upon early osteogenesis, possibly allowing for the increase in expression of the key osteogenic transcription factors, Runt-related transcription factor 2 ( RUNX2 ) and SP7 , and ultimately, mineral nodule formation. l-PDLCs appeared locked in the multipotent state and this was further enhanced upon early osteogenic stimulation, correlating with low RUNX2 expression and impaired mineralization. Further upregulation of DNMT s was also evident, while pretreatment with RG108, the DNMTs' inhibitor, enhanced the osteogenic program in l-PDLCs through downregulation of DNMT s, increased RUNX2 expression and nuclear localization, accelerated expression of osteogenic markers, and increased mineralization. These findings point toward the role of DNMTs and Ten Eleven Translocations (TETs) in osteogenic commitment and support application of epigenetic approaches to modulate biomineralization in PDLCs.

Topics & Concepts

RUNX2BiologyCell biologyDNA methylationHomeobox protein NANOGDownregulation and upregulationEpigeneticsMethyltransferaseDNMT1Transcription factorMolecular biologyGene expressionEmbryonic stem cellMethylationInduced pluripotent stem cellDNAGeneticsGeneEpigenetics and DNA MethylationCancer-related gene regulationMesenchymal stem cell research
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