Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues

Research output: Contribution to journalJournal articleResearchpeer-review

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Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues. / Pessoa, Lais Vicari De Figueiredo; Pires, Pedro Ratto Lisboa; Collado, Maite Del; Pieri, Naira Caroline Godoy; Recchia, Kaiana; Souza, Aline Fernanda; Perecin, Felipe; Da Silveira, Juliano Coelho; Andrade, Andre Furugen Cesar De; Ambrosio, Carlos Eduardo; Bressan, Fabiana Fernandes; Meirelles, Flavio Vieira.

In: Stem Cells International, Vol. 2019, 1393791, 2019.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Pessoa, LVDF, Pires, PRL, Collado, MD, Pieri, NCG, Recchia, K, Souza, AF, Perecin, F, Da Silveira, JC, Andrade, AFCD, Ambrosio, CE, Bressan, FF & Meirelles, FV 2019, 'Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues', Stem Cells International, vol. 2019, 1393791. https://doi.org/10.1155/2019/1393791

APA

Pessoa, L. V. D. F., Pires, P. R. L., Collado, M. D., Pieri, N. C. G., Recchia, K., Souza, A. F., Perecin, F., Da Silveira, J. C., Andrade, A. F. C. D., Ambrosio, C. E., Bressan, F. F., & Meirelles, F. V. (2019). Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues. Stem Cells International, 2019, [1393791]. https://doi.org/10.1155/2019/1393791

Vancouver

Pessoa LVDF, Pires PRL, Collado MD, Pieri NCG, Recchia K, Souza AF et al. Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues. Stem Cells International. 2019;2019. 1393791. https://doi.org/10.1155/2019/1393791

Author

Pessoa, Lais Vicari De Figueiredo ; Pires, Pedro Ratto Lisboa ; Collado, Maite Del ; Pieri, Naira Caroline Godoy ; Recchia, Kaiana ; Souza, Aline Fernanda ; Perecin, Felipe ; Da Silveira, Juliano Coelho ; Andrade, Andre Furugen Cesar De ; Ambrosio, Carlos Eduardo ; Bressan, Fabiana Fernandes ; Meirelles, Flavio Vieira. / Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues. In: Stem Cells International. 2019 ; Vol. 2019.

Bibtex

@article{88cb9bf6025e48288fb6ad772d3f838c,
title = "Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues",
abstract = "Introduction. Pluripotent stem cells are believed to have greater clinical potential than mesenchymal stem cells due to their ability to differentiate into almost any cell type of an organism, and since 2006, the generation of patient-specific induced pluripotent stem cells (iPSCs) has become possible in multiple species. Objectives. We hypothesize that different cell types respond differently to the reprogramming process; thus, the goals of this study were to isolate and characterize equine adult and fetal cells and induce these cells to pluripotency for future regenerative and translational purposes. Methods. Adult equine fibroblasts (eFibros) and mesenchymal cells derived from the bone marrow (eBMmsc), adipose tissue (eADmsc), and umbilical cord tissue (eUCmsc) were isolated, their multipotency was characterized, and the cells were induced in vitro into pluripotency (eiPSCs). eiPSCs were generated through a lentiviral system using the factors OCT4, SOX2, c-MYC, and KLF4. The morphology and in vitro pluripotency maintenance potential (alkaline phosphatase detection, embryoid body formation, in vitro spontaneous differentiation, and expression of pluripotency markers) of the eiPSCs were characterized. Additionally, a miRNA profile analysis of the mesenchymal and eiPSCs was performed. Results. Multipotent cells were successfully isolated, but the eBMmsc failed to generate eiPSCs. The eADmsc-, eUCmsc-, and eFibros-derived iPSCs were positive for alkaline phosphatase, OCT4 and NANOG, were exclusively dependent on bFGF, and formed embryoid bodies. The miRNA profile revealed a segregated pattern between the eiPSCs and multipotent controls: the levels of miR-302/367 and the miR-92 family were increased in the eiPSCs, while the levels of miR-23, miR-27, and miR-30, as well as the let-7 family were increased in the nonpluripotent cells. Conclusions. We were able to generate bFGF-dependent iPSCs from eADmsc, eUCmsc, and eFibros with human OSKM, and the miRNA profile revealed that clonal lines may respond differently to the reprogramming process.",
author = "Pessoa, {Lais Vicari De Figueiredo} and Pires, {Pedro Ratto Lisboa} and Collado, {Maite Del} and Pieri, {Naira Caroline Godoy} and Kaiana Recchia and Souza, {Aline Fernanda} and Felipe Perecin and {Da Silveira}, {Juliano Coelho} and Andrade, {Andre Furugen Cesar De} and Ambrosio, {Carlos Eduardo} and Bressan, {Fabiana Fernandes} and Meirelles, {Flavio Vieira}",
year = "2019",
doi = "10.1155/2019/1393791",
language = "English",
volume = "2019",
journal = "Stem Cells International",
issn = "1687-966X",
publisher = "Hindawi Publishing Corporation",

}

RIS

TY - JOUR

T1 - Generation and miRNA Characterization of Equine Induced Pluripotent Stem Cells Derived from Fetal and Adult Multipotent Tissues

AU - Pessoa, Lais Vicari De Figueiredo

AU - Pires, Pedro Ratto Lisboa

AU - Collado, Maite Del

AU - Pieri, Naira Caroline Godoy

AU - Recchia, Kaiana

AU - Souza, Aline Fernanda

AU - Perecin, Felipe

AU - Da Silveira, Juliano Coelho

AU - Andrade, Andre Furugen Cesar De

AU - Ambrosio, Carlos Eduardo

AU - Bressan, Fabiana Fernandes

AU - Meirelles, Flavio Vieira

PY - 2019

Y1 - 2019

N2 - Introduction. Pluripotent stem cells are believed to have greater clinical potential than mesenchymal stem cells due to their ability to differentiate into almost any cell type of an organism, and since 2006, the generation of patient-specific induced pluripotent stem cells (iPSCs) has become possible in multiple species. Objectives. We hypothesize that different cell types respond differently to the reprogramming process; thus, the goals of this study were to isolate and characterize equine adult and fetal cells and induce these cells to pluripotency for future regenerative and translational purposes. Methods. Adult equine fibroblasts (eFibros) and mesenchymal cells derived from the bone marrow (eBMmsc), adipose tissue (eADmsc), and umbilical cord tissue (eUCmsc) were isolated, their multipotency was characterized, and the cells were induced in vitro into pluripotency (eiPSCs). eiPSCs were generated through a lentiviral system using the factors OCT4, SOX2, c-MYC, and KLF4. The morphology and in vitro pluripotency maintenance potential (alkaline phosphatase detection, embryoid body formation, in vitro spontaneous differentiation, and expression of pluripotency markers) of the eiPSCs were characterized. Additionally, a miRNA profile analysis of the mesenchymal and eiPSCs was performed. Results. Multipotent cells were successfully isolated, but the eBMmsc failed to generate eiPSCs. The eADmsc-, eUCmsc-, and eFibros-derived iPSCs were positive for alkaline phosphatase, OCT4 and NANOG, were exclusively dependent on bFGF, and formed embryoid bodies. The miRNA profile revealed a segregated pattern between the eiPSCs and multipotent controls: the levels of miR-302/367 and the miR-92 family were increased in the eiPSCs, while the levels of miR-23, miR-27, and miR-30, as well as the let-7 family were increased in the nonpluripotent cells. Conclusions. We were able to generate bFGF-dependent iPSCs from eADmsc, eUCmsc, and eFibros with human OSKM, and the miRNA profile revealed that clonal lines may respond differently to the reprogramming process.

AB - Introduction. Pluripotent stem cells are believed to have greater clinical potential than mesenchymal stem cells due to their ability to differentiate into almost any cell type of an organism, and since 2006, the generation of patient-specific induced pluripotent stem cells (iPSCs) has become possible in multiple species. Objectives. We hypothesize that different cell types respond differently to the reprogramming process; thus, the goals of this study were to isolate and characterize equine adult and fetal cells and induce these cells to pluripotency for future regenerative and translational purposes. Methods. Adult equine fibroblasts (eFibros) and mesenchymal cells derived from the bone marrow (eBMmsc), adipose tissue (eADmsc), and umbilical cord tissue (eUCmsc) were isolated, their multipotency was characterized, and the cells were induced in vitro into pluripotency (eiPSCs). eiPSCs were generated through a lentiviral system using the factors OCT4, SOX2, c-MYC, and KLF4. The morphology and in vitro pluripotency maintenance potential (alkaline phosphatase detection, embryoid body formation, in vitro spontaneous differentiation, and expression of pluripotency markers) of the eiPSCs were characterized. Additionally, a miRNA profile analysis of the mesenchymal and eiPSCs was performed. Results. Multipotent cells were successfully isolated, but the eBMmsc failed to generate eiPSCs. The eADmsc-, eUCmsc-, and eFibros-derived iPSCs were positive for alkaline phosphatase, OCT4 and NANOG, were exclusively dependent on bFGF, and formed embryoid bodies. The miRNA profile revealed a segregated pattern between the eiPSCs and multipotent controls: the levels of miR-302/367 and the miR-92 family were increased in the eiPSCs, while the levels of miR-23, miR-27, and miR-30, as well as the let-7 family were increased in the nonpluripotent cells. Conclusions. We were able to generate bFGF-dependent iPSCs from eADmsc, eUCmsc, and eFibros with human OSKM, and the miRNA profile revealed that clonal lines may respond differently to the reprogramming process.

U2 - 10.1155/2019/1393791

DO - 10.1155/2019/1393791

M3 - Journal article

C2 - 31191664

AN - SCOPUS:85071513841

VL - 2019

JO - Stem Cells International

JF - Stem Cells International

SN - 1687-966X

M1 - 1393791

ER -

ID: 227873864