Yantian Chen scite author profile

Although mesenchymal stem cells (MSCs) based therapy has been considered as a promising tool for tissue repair and regeneration, the optimal cell source remains unknown. Umbilical cord (UC), dental pulp (DP), and menstrual blood (MB) are easily accessible sources, which make them attractive candidates for MSCs. The goal of this study was to compare the biological characteristics, including morphology, proliferation, antiapoptosis, multilineage differentiation capacity, and immunophenotype of UC-, DP-, and MB-MSCs in order to provide a theoretical basis for clinical selection and application of these cells. As a result, all UC-, DP-, and MB-MSCs have self-renewal capacity and multipotentiality. However, the UC-MSCs seemed to have higher cell proliferation ability, while DP-MSCs may have significant advantages for osteogenic differentiation, lower cell apoptosis, and senescence. These differences may be associated with the different expression level of cytokines, including vascular endothelial growth factor, fibroblast growth factor, keratinocyte growth factor, and hepatocyte growth factor in each of the MSCs. Comprehensively, our results suggest DP-MSCs may be a desired source for clinical applications of cell therapy.

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Salt ions and related parameters affect PEI–DNA particle size and transfection efficiency in Chinese hamster ovary cells

Sang

Xie

et al. 2013

Cytotechnology

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Transfection efficiency is directly associated with the expression level and quantity of recombinant protein after the transient transfection of animal cells. The transfection process can be influenced by many still-unknown factors, so it is valuable to study the precise mechanism and explore these factors in gene delivery. Polyethylenimine (PEI) is considered to have high transfection efficiency and endosome-disrupting capacity. Here we aimed to investigate optimal conditions for transfection efficiency by setting different parameters, including salt ion concentration, DNA/PEI ratio, and incubation time. We examined the PEI-DNA particle size using a Malvern particle size analyzer and assessed the transfection efficiency using flow cytometry in Chinese hamster ovary-S cells. Salt ions, higher amounts of PEI tended to improve the aggregation of PEI-DNA particles and the particle size of PEI-DNA complexes and the transfection efficiency were increased. Besides, the particle size was also found to benefit from longer incubation time. However, the transfection efficiency increased to maximum of 68.92 % at an incubation time of 10 min, but decreased significantly thereafter to 23.71 %, when incubating for 120 min (P < 0.05). Besides, PEI-DNA complexes formed in salt-free condition were unstable. Our results suggest DNA and PEI incubated in 300 mM NaCl at a ratio of 1:4 for 10 min could achieve the optimal transfection efficiency. Our results might provide guidance for the optimization of transfection efficiency and the industrial production of recombinant proteins.

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In vitro proliferation and osteogenic differentiation of human dental pulp stem cells in injectable thermo-sensitive chitosan/β-glycerophosphate/hydroxyapatite hydrogel

Chen

Zhang

et al. 2016

J Biomater Appl

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Injectable thermo-sensitive hydrogels have a potential application in bone tissue engineering for their sensitivities and minimal invasive properties. Human dental pulp stem cells have been considered a promising tool for tissue reconstruction. The objective of this study was to investigate the proliferation and osteogenic differentiation of dental pulp stem cells in injectable thermo-sensitive chitosan/β-glycerophosphate/hydroxyapatite hydrogel in vitro. The chitosan /β-glycerophosphate hydrogel and chitosan/β-glycerophosphate/hydroxyapatite hydrogel were prepared using the sol-gel method. The injectability of chitosan /β-glycerophosphate hydrogel and chitosan/β-glycerophosphate/hydroxyapatite hydrogel was measured using a commercial disposable syringe. Scanning electron microscopy was used to observe the inner structure of hydrogels. Then dental pulp stem cells were seeded in chitosan /β-glycerophosphate hydrogel and chitosan/β-glycerophosphate/hydroxyapatite hydrogel, respectively. The growth of dental pulp stem cells was periodically observed under an inverted microscope. The proliferation of dental pulp stem cells was detected by using an Alamar Blue kit, while cell apoptosis was determined by using a Live/Dead Viability/Cytotoxicity kit. The osteogenic differentiations of dental pulp stem cells in chitosan /β-glycerophosphate hydrogel and chitosan/β-glycerophosphate/hydroxyapatite hydrogel were evaluated by alkaline phosphatase activity assay and mRNA expression of osteogenesis gene for 21 days in osteogenic medium. The results indicated that there was no significant difference between chitosan /β-glycerophosphate hydrogel and chitosan/β-glycerophosphate/hydroxyapatite hydrogel in injectability. Cells within the chitosan/β-glycerophosphate/hydroxyapatite hydrogel displayed a typical adherent cell morphology and rapid proliferation with high cellular viability after 14 days of culture. Dental pulp stem cells seeded in chitosan/β-glycerophosphate/hydroxyapatite hydrogels had a higher alkaline phosphatase activity and better up-regulation of gene expression levels of Runx-2, Collagen I, alkaline phosphatase and osteocalcin than in chitosan /β-glycerophosphate hydrogels after osteogenic differentiation. These results demonstrated that the chitosan/β-glycerophosphate/hydroxyapatite hydrogel had excellent cellular compatibility and the superiority in promoting dental pulp stem cells osteogenic differentiation in vitro, showing that the combination of dental pulp stem cells and chitosan/β-glycerophosphate/hydroxyapatite hydrogel has the potential to be used for bone tissue engineering.

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Multi-Level Factorial Analysis of Ca²⁺/P_i Supplementation as Bio-Instructive Media for In Vitro Biomimetic Engineering of Three-Dimensional Osteogenic Hybrids

Chai

Roberts

Bael

et al. 2012

Tissue Engineering Part C: Methods

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We report on the in vitro use of Ca(2+)/P(i) supplementation as a bio-instructive medium to drive human periosteum-derived cells (hPDCs) toward osteogenic differentiation on three-dimensional (3D) porous Ti6Al4V scaffolds. Through a multilevel factorial analysis, we have systematically investigated the biological effect and interactions of Ca(2+) or P(i) supplementation in three selected media preparations (i.e., basic growth medium, osteogenic medium [OM], and osteogenic medium without β-glycerophosphate [OM(-)]) and have identified specific conditions which induce proliferation and significant osteogenic differentiation of two-dimensional (2D) hPDC cultures. These findings were translated from 2D to 3D cultures conditions to instruct hPDCs to populate porous Ti6Al4V scaffolds and to differentiate into the osteoblast lineage with collagenous matrix production and subsequent matrix mineralization on the 3D structures. These osteogenic hybrids may potentially serve as a clinically relevant customizable bone reparative unit, providing a biomimetic template to more effectively mediate in vivo bone regeneration.

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Effects of Sinusoidal Magnetic Field Observed on Cell Proliferation, Ion Concentration, and Osmolarity in Two Human Cancer Cell Lines

Ling-zhen

Dong

Chen

et al. 2006

Electromagnetic Biology and Medicine

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Low frequency magnetic fields have previously been shown to affect cell functions. In this article, the effects of 20 mT, 50 Hz sinusoidal magnetic field on cell proliferation, ion concentration, and osmolarity in two human cancer cell lines (HL-60 and SK-Hep-1) were investigated. Inhibition of cell growth was observed. On the other hand, the exposure also increased the Na+, K+ ion concentration and osmolarity in cell supernatant compared to the control group. To our knowledge, this is the first study on cancer cells where magnetic fields affect osmolarity in cell supernatant. In addition, a model of cells exposed to the oscillating magnetic field is described as well as the characteristics of ions in and out of cells. The experimental data appears to be consistent with the theoretical analysis. The results are also discussed in terms of the relationships among cell growth, ion concentration, and osmolarity. Magnetic field inhibitions of cell growth in vitro may relate to changes in cell ion concentration and osmolarity.

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Yantian Chen

Comparative Analysis of Human Mesenchymal Stem Cells from Umbilical Cord, Dental Pulp, and Menstrual Blood as Sources for Cell Therapy

Salt ions and related parameters affect PEI–DNA particle size and transfection efficiency in Chinese hamster ovary cells

In vitro proliferation and osteogenic differentiation of human dental pulp stem cells in injectable thermo-sensitive chitosan/β-glycerophosphate/hydroxyapatite hydrogel

Multi-Level Factorial Analysis of Ca²⁺/P_i Supplementation as Bio-Instructive Media for In Vitro Biomimetic Engineering of Three-Dimensional Osteogenic Hybrids

Effects of Sinusoidal Magnetic Field Observed on Cell Proliferation, Ion Concentration, and Osmolarity in Two Human Cancer Cell Lines

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Yantian Chen

Comparative Analysis of Human Mesenchymal Stem Cells from Umbilical Cord, Dental Pulp, and Menstrual Blood as Sources for Cell Therapy

Salt ions and related parameters affect PEI–DNA particle size and transfection efficiency in Chinese hamster ovary cells

In vitro proliferation and osteogenic differentiation of human dental pulp stem cells in injectable thermo-sensitive chitosan/β-glycerophosphate/hydroxyapatite hydrogel

Multi-Level Factorial Analysis of Ca2+/Pi Supplementation as Bio-Instructive Media for In Vitro Biomimetic Engineering of Three-Dimensional Osteogenic Hybrids

Effects of Sinusoidal Magnetic Field Observed on Cell Proliferation, Ion Concentration, and Osmolarity in Two Human Cancer Cell Lines

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Multi-Level Factorial Analysis of Ca²⁺/P_i Supplementation as Bio-Instructive Media for In Vitro Biomimetic Engineering of Three-Dimensional Osteogenic Hybrids