Francesca Racca scite author profile

Francesca Racca

3Publications

37Citation Statements Received

123Citation Statements Given

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Universidade Estadual de Campinas

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DNMT1 Inhibitor Restores RUNX2 Expression and Mineralization in Periodontal Ligament Cells

Assis

Schmidt

Racca

et al. 2021

DNA and Cell Biology

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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 DNMTs was also evident, while pretreatment with RG108, the DNMTs' inhibitor, enhanced the osteogenic program in l-PDLCs through downregulation of DNMTs, 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.

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Osteogenic Commitment of Human Periodontal Ligament Cells Is Predetermined by Methylation, Chromatin Accessibility and Expression of Key Transcription Factors

Assis

Racca

Ferreira

et al. 2022

Cells

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Periodontal ligament stem cells (PDLCs) can be used as a valuable source in cell therapies to regenerate bone tissue. However, the potential therapeutic outcomes are unpredictable due to PDLCs’ heterogeneity regarding the capacity for osteoblast differentiation and mineral nodules production. Here, we identify epigenetic (DNA (hydroxy)methylation), chromatin (ATAC-seq) and transcriptional (RNA-seq) differences between PDLCs presenting with low (l) and high (h) osteogenic potential. The primary cell populations were investigated at basal state (cultured in DMEM) and after 10 days of osteogenic stimulation (OM). At a basal state, the expression of transcription factors (TFs) and the presence of gene regulatory regions related to osteogenesis were detected in h-PDLCs in contrast to neuronal differentiation prevalent in l-PDLCs. These differences were also observed under stimulated conditions, with genes and biological processes associated with osteoblast phenotype activated more in h-PDLCs. Importantly, even after the induction, l-PDLCs showed hypermethylation and low expression of genes related to bone development. Furthermore, the analysis of TFs motifs combined with TFs expression suggested the relevance of SP1, SP7 and DLX4 regulation in h-PDLCs, while motifs for SIX and OLIG2 TFs were uniquely enriched in l-PDLCs. Additional analysis including a second l-PDLC population indicated that the high expression of OCT4, SIX3 and PPARG TFs could be predictive of low osteogenic commitment. In summary, several biological processes related to osteoblast commitment were activated in h-PDLCs from the onset, while l-PDLCs showed delay in the activation of the osteoblastic program, restricted by the persistent methylation of gene related to bone development. These processes are pre-determined by distinguishable epigenetic and transcriptional patterns, the recognition of which could help in selection of PDLCs with pre-osteoblastic phenotype.

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Regulação epigenética em genes marcadores de diferenciação osteogênica, em células multipotentes do ligamento periodontal com diferentes potenciais osteogênicos

et al. 2019

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Células multipotentes do ligamento periodontal de humanos (PDLSCs) podem dar origem ao tecido ósseo e são candidatas promissoras ao reparo periodontal e em terapias regenerativas em doenças ósseas. No entanto, algumas PDLSCs apresentam diferentes potenciais osteogênicos, o que pode estar relacionado à baixa previsibilidade e alta variação em resultados de regeneração óssea. O fenótipo celular é determinado por mecanismos, entre eles destacam-se a regulação de genes linhagem-específica, marcadores de multipotencialidade e mecanismos epigenéticos. Porém, esses mecanismos não estão completamente elucidados e ainda não se sabe as razões biológicas para que PDLSCs apresentem potenciais osteogênicos distintos. Portanto, para a aplicação segura das PDLSCs em ensaios clínicos futuros, é preciso melhor entender a osteogênese nestas células. O objetivo foi produzir resultados que preenchessem lacunas no conhecimento da diferenciação osteogênica, avaliando o impacto da osteogênese em marcadores de multipotencialidade e de linhagem específica, em PDLSCs com potenciais osteogênicos distintos.

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Francesca Racca

DNMT1 Inhibitor Restores RUNX2 Expression and Mineralization in Periodontal Ligament Cells

Osteogenic Commitment of Human Periodontal Ligament Cells Is Predetermined by Methylation, Chromatin Accessibility and Expression of Key Transcription Factors

Regulação epigenética em genes marcadores de diferenciação osteogênica, em células multipotentes do ligamento periodontal com diferentes potenciais osteogênicos

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