Human dental follicle precursor cells of wisdom teeth: isolation and differentiation towards osteoblasts for implants with and without scaffolds

Haddouti, El-Mustapha; Skroch, Marco; Zippel, Nina; Müller, Claudia; Birova, B.; Pansky, Andreas; Kleinfeld, Claudia; Winter, M.; Tobiasch, Edda

doi:10.1002/mawe.200900505

Cited by 17 publications

(15 citation statements)

References 34 publications

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“…Isolation of human stem cells from the dental follicle (hDFSCs) was performed as described by Haddouti et al 56. from three young donors with healthy periodontal status.…”

Section: Methodsmentioning

confidence: 99%

Human dental stem cells suppress PMN activity after infection with the periodontopathogens Prevotella intermedia and Tannerella forsythia

Hieke¹,

Kriebel²,

Engelmann³

et al. 2016

Sci Rep

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Periodontitis is characterized by inflammation associated with the colonization of different oral pathogens. We here aimed to investigate how bacteria and host cells shape their environment in order to limit inflammation and tissue damage in the presence of the pathogen. Human dental follicle stem cells (hDFSCs) were co-cultured with gram-negative P. intermedia and T. forsythia and were quantified for adherence and internalization as well as migration and interleukin secretion. To delineate hDFSC-specific effects, gingival epithelial cells (Ca9-22) were used as controls. Direct effects of hDFSCs on neutrophils (PMN) after interaction with bacteria were analyzed via chemotactic attraction, phagocytic activity and NET formation. We show that P. intermedia and T. forsythia adhere to and internalize into hDFSCs. This infection decreased the migratory capacity of the hDFSCs by 50%, did not disturb hDFSC differentiation potential and provoked an increase in IL-6 and IL-8 secretion while leaving IL-10 levels unaltered. These environmental modulations correlated with reduced PMN chemotaxis, phagocytic activity and NET formation. Our results suggest that P. intermedia and T. forsythia infected hDFSCs maintain their stem cell functionality, reduce PMN-induced tissue and bone degradation via suppression of PMN-activity, and at the same time allow for the survival of the oral pathogens.

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“…Isolation of human stem cells from the dental follicle (hDFSCs) was performed as described by Haddouti et al 56. from three young donors with healthy periodontal status.…”

Section: Methodsmentioning

confidence: 99%

Human dental stem cells suppress PMN activity after infection with the periodontopathogens Prevotella intermedia and Tannerella forsythia

Hieke¹,

Kriebel²,

Engelmann³

et al. 2016

Sci Rep

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“…Haddouti and colleagues showed that DFCs have a strong commitment towards the osteogenic lineage and show a more quantitative osteogenic differentiation (Haddouti et al, 2009). Thus, DFCs and BCDCs seem to be more committed towards osteogenic lineage.…”

Section: The Characterization Of Atscs Dfcs and Bcdcs For Bone Regenmentioning

confidence: 99%

Oral Tissues as Source for Bone Regeneration in Dental Implantology

Khan¹,

Kleinfeld²,

Winter³

et al. 2012

Tissue Regeneration - From Basic Biology to Clinical Application

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“…Interestingly, preliminary results obtained with dental follicle MSC of wisdom teeth, isolated during routine dental surgery [41], show that these cells use solely the P3 promoter for the expression of splicing variants (Longo, Tobiasch and Luparello, unpubl. data), thereby suggesting that MSC from different tissue sources may be endowed with differing transcriptional programmings.…”

Section: Discussionmentioning

confidence: 99%

PTHrP in differentiating human mesenchymal stem cells: Transcript isoform expression, promoter methylation, and protein accumulation

et al. 2013

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Human PTHrP gene displays a complex organization with nine exons producing diverse mRNA variants due to alternative splicing at 5 0 and 3 0 ends and the existence of three different transcriptional promoters (P1, P2 and P3), two of which (P2 and P3) contain CpG islands. It is known that the expression of PTHrP isoforms may be differentially regulated in a developmental stage-and tissue-specific manner. To search for novel molecular markers of stemness/differentiation, here we have examined isoform expression in fat-derived mesenchymal stem cells both maintained in stem conditions and induced toward adipo-and osteogenesis. In addition, the expression of the splicing isoforms derived from P2 and P3 promoters was correlated to the state of methylation of the latter. Moreover, we also performed a quantitative evaluation of intracellular and secreted PTHrP protein product in undifferentiated stem cells and in parallel cultures at various differentiation stages. The data obtained indicate that from the stemness condition to that of osteo-and adipo-genic differentiated cells, the expression of isoforms becomes increasingly selective, thereby being a potential gene signature for the monitoring of cell stem or committed/differentiating state and that the switching-off of PTHrP isoform expression is mostly promoter methylation-dependent. Moreover, PTHrP intracellular retention is down-regulated in osteo-differentiating cells whereas the secretion of the protein in the extracellular medium is up-regulated with respect to stem cells, thereby suggesting that these variations of the intracellular and extracellular levels of PTHrP could potentially be enclosed in the list of the available protein signature of osteogenic differentiation. Ó 2013 Published by Elsevier Masson SAS.

show abstract

Human dental follicle precursor cells of wisdom teeth: isolation and differentiation towards osteoblasts for implants with and without scaffolds

Cited by 17 publications

References 34 publications

Human dental stem cells suppress PMN activity after infection with the periodontopathogens Prevotella intermedia and Tannerella forsythia

Human dental stem cells suppress PMN activity after infection with the periodontopathogens Prevotella intermedia and Tannerella forsythia

Oral Tissues as Source for Bone Regeneration in Dental Implantology

PTHrP in differentiating human mesenchymal stem cells: Transcript isoform expression, promoter methylation, and protein accumulation

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