Conditioned Medium from Human Uterine Cervical Stem Cells Regulates Oxidative Stress and Angiogenesis of Retinal Pigment Epithelial Cells
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Conditioned Medium from Human Uterine Cervical Stem Cells Regulates Oxidative Stress and Angiogenesis of Retinal Pigment Epithelial CellsAutor(es)
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2022Cita bibliográfica
Eiro, N., Sendon-Lago, J., Cid, S., Saa, J., de Pablo, N., Vega, B., Bermudez, M. A., Perez-Fernandez, R., & Vizoso, F. J. (2022). Conditioned Medium from Human Uterine Cervical Stem Cells Regulates Oxidative Stress and Angiogenesis of Retinal Pigment Epithelial Cells. Ophthalmic research, 65(5), 556-565. https://doi.org/10.1159/000524484
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[Abstract] Introduction: Retinal homeostasis is essential to avoid retinal pigment epithelium (RPE) damage resulting in photoreceptor death and blindness. Mesenchymal stem cells-based cell therapy could contribute to the maintenance of the retinal homeostasis. We have explored the effect of human uterine cervical stem cells (hUCESCs)-conditioned medium (hUCESC-CM) on RPE cells under oxidative stress condition. Methods: ARPE-19 cells were treated with hydrogen peroxide (H2O2) in the presence or absence of hUCESC-CM. qRT-PCR and Western blot were used to evaluate the expression of oxidative stress-related (HO-1, GCLC, and HSPB1) and vasculogenesis-related (VEGFA, PDGFA, and PDGFB) factors. Also, we assessed in vitro effects of hUCESC-CM on endothelial-cell (HUVEC) tube formation. Results: mRNA expression of HO-1, GCLC, HSPB1, VEGFA, PDGFA, and PDGFB were significantly increased in ARPE-19 cells treated with H2O2 + hUCESC-CM compared to cells treated with H2O2 only. Regarding the tube formation assay, HUVEC treated with supernatant from ARPE-19 cells treated with H2O2 + hUCESC-CM showed a significant increase in average vessel length, number of capillary-like junctions, and average of vessels area compared with HUVEC treated with supernatant from ARPE-19 cells treated with H2O2 only. Conclusion: Our results show potential therapeutic effects of hUCESC-CM on RPE, such as protection from damage by oxidative stress, stimulation of detoxifying genes, and a better vascularization.
Palabras chave
Mesenchymal stem cells
Human uterine cervical stem cells
Conditioned medium
Secretome
Retinal pigment epithelium
Oxidative stress
Angiogenesis
Human uterine cervical stem cells
Conditioned medium
Secretome
Retinal pigment epithelium
Oxidative stress
Angiogenesis
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Creative Commons Attribution-NonCommercial-4.0 International License (CC BY-NC)