Farklı Hücre Tiplerinin Fotobiyomodülasyon ve Askorbik Asit Varlığında Hücre Tabakası Oluşturma Potansiyellerinin İncelenmesi
Date
2022Author
Demir, Hatice
xmlui.dri2xhtml.METS-1.0.item-emb
Acik erisimxmlui.mirage2.itemSummaryView.MetaData
Show full item recordAbstract
This study was funded by Hacettepe University Scientific Research Projects Coordination
Unit (BAP) graduate project entitled "Examination of the potential of different cell types to
form cell sheet in the presence of ascorbic acid and photobiomodulation" (FYL-2020
18707).
In this study, it is aimed to investigate the formation of cell sheets in the presence of
ascorbic acid and polychromatic light (600-1200 nm) with cells in different morphologies.
For this purpose, three types of cells have been selected, human umbilical cord-derived
mesenchymal stem cells (HUC-MSCs), human dermal fibroblast cells (BJ) and human
keratinocyte epithelial cells (HS2). In the first part of the study, characterization studies of
HUC-MSCs were performed. Then, in order to obtain a cell sheets from these cells, 20
µg/mL vitamin C (VC) was added to the culture medium, the appropriate
photobiomodulation (PBMT) parameters were determined and cell sheets were obtained at 5-7 days in VC group and 6-7 days in PBMT and PBMT+VC groups. In characterization
studies, the extracellular matrix (ECM) structure, cell morphology, nucleus structure and
different gene expression levels of cell sheets were examined. In this context,
immunofluorescence and Hematoxylin-Eosin (H&E) staining results and
macroscopic/microscopic observations showed that the thickest and opaque cell sheet was
obtained in the PBMT+VC group. Real-time polymerase chain reaction (RT-PCR) results
showed that while VC and PBMT are causing to increase of ECM, they did not
significantly affect stem cell gene expressions. However, PBMT upregulates osteogenic
genes (OCN, RUNX2) expression levels. Hydroxyproline assays results were also
regulated upwards in the presence of VC and PBMT. The similar studies were also carried
out for BJ fibroblasts and HS2 cells. While no cell sheets were obtained in the PBMT
group for the BJ fibroblast cell line, no significant differences were observed between the
cell sheets obtained in the VC and PBMT+VC group on the 6th-7th days. RT-PCR and
hydroxyproline assay results also supported that ECM increased in the presence of VC and
PBMT. In the VC and PBMT+VC group for the HS2 cell line, the cell sheets were
obtained in the 8th-9th days.
In conclusion, cell sheets could be obtained effectively in the presence of vitamin C for
different cell types. Photobiomodulation with polychromatic light was found to have an
increasing effect on cell proliferation at the studied conditions. Photobiomodulation
provided sheet formation in HUC-MSCs and HS2 cells, and it was also effective in
osteogenic differentiation in HUC-MSCs. The results are promising for clinical
applications.