Biomechanical Modulation of Dental Pulp Stem Cell (DPSC) Properties for Soft Tissue Engineering-Reference-Cited by-同舟云学术

Biomechanical Modulation of Dental Pulp Stem Cell (DPSC) Properties for Soft Tissue Engineering

Published:2023-03-03 Issue:3 Volume:10 Page:323
ISSN:2306-5354
Container-title:Bioengineering
language:en
Short-container-title:Bioengineering

Author:

Gross Tara¹²,Dieterle Martin Philipp³,Vach Kirstin⁴^ORCID,Altenburger Markus Joerg¹²,Hellwig Elmar¹,Proksch Susanne¹²⁵^ORCID

Affiliation:

1. Department of Operative Dentistry and Periodontology, Center for Dental Medicine, Medical Center—University of Freiburg, Faculty of Medicine, Albert-Ludwigs-University of Freiburg, Hugstetter Straße 55, 79106 Freiburg, Germany

2. G.E.R.N. Research Center for Tissue Replacement, Regeneration and Neogenesis, Medical Center—University of Freiburg, Faculty of Medicine, Albert-Ludwigs-University of Freiburg, Engesserstr. 4, 79108 Freiburg, Germany

3. Division of Oral Biotechnology, Center for Dental Medicine, Medical Center—University of Freiburg, Faculty of Medicine, Albert-Ludwigs-University of Freiburg, Hugstetter Str. 55, 79106 Freiburg, Germany

4. Institute of Medical Biometry and Statistics, Medical Center—University of Freiburg, Faculty of Medicine, Albert-Ludwigs—University of Freiburg, Stefan-Meier-Str. 26, 79104 Freiburg, Germany

5. Dental Clinic 1–Operative Dentistry and Periodontology, University Hospital Erlangen, Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), Glückstr. 11, 91054 Erlangen, Germany

Abstract

Dental pulp regeneration strategies frequently result in hard tissue formation and pulp obliteration. The aim of this study was to investigate whether dental pulp stem cells (DPSCs) can be directed toward soft tissue differentiation by extracellular elasticity. STRO-1-positive human dental pulp cells were magnetically enriched and cultured on substrates with elasticities of 1.5, 15, and 28 kPa. The morphology of DPSCs was assessed visually. Proteins relevant in mechanobiology ACTB, ITGB1, FAK, p-FAK, TALIN, VINCULIN, PAXILLIN, ERK 1/2, and p-ERK 1/2 were detected by immunofluorescence imaging. Transcription of the pulp marker genes BMP2, BMP4, MMP2, MMP3, MMP13, FN1, and IGF2 as well as the cytokines ANGPT1, VEGF, CCL2, TGFB1, IL2, ANG, and CSF1 was determined using qPCR. A low stiffness, i.e., 1.5 kPa, resulted in a soft tissue-like phenotype and gene expression, whereas DPSCs on 28 kPa substrates exhibited a differentiation signature resembling hard tissues with a low cytokine expression. Conversely, the highest cytokine expression was observed in cells cultured on intermediate elasticity, i.e., 15 kPa, substrates possibly allowing the cells to act as “trophic mediators”. Our observations highlight the impact of biophysical cues for DPSC fate and enable the design of scaffold materials for clinical pulp regeneration that prevent hard tissue formation.

Funder

University Medical Center Freiburg, Dental School and Hospital, Department of Operative Dentistry and Periodontology

DGR²Z-GC Research Funding of the German Society for Restorative and Regenerative Dentistry

Baden-Wuerttemberg Ministry of Science, Research and Art and the University of Freiburg

Publisher

MDPI AG

Subject

Bioengineering

Link

https://www.mdpi.com/2306-5354/10/3/323/pdf

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