Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells

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Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells Publisher Pubmed

Shariati Najafabadi S¹ ; Amirpour N¹ ; Amini S¹ ; Zare N² ; Kazemi M³ ; Salehi H¹

Show Affiliations

1. Department of Anatomical Sciences and Molecular Biology, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
2. Applied Physiology Research Center, Cardiovascular Research Institute, Isfahan University of Medical Sciences, Isfahan, Iran
3. Department of Genetics and Molecular Biology, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran

Source: Molecular Biology Reports Published:2021

Abstract

Human adipose stem cells (hADSCs) are proper cell sources for tissue regeneration. They mainly mediate their therapeutic effects through paracrine factors as exosomes. The exosomes contents are protein, lipid and RNA. Exosomes are effective in restoring the function of neurons and astrocytes in neurodegenerative diseases, and improve the therapeutic outcomes. We investigated the effect of hADSCs derived exosomes on survival and neural differentiation of PC12 cells in vitro. The isolated hADSCs, were characterized by flow cytometry. Exosomes were separated from hADSC-condition medium using Exo-spinTM kit and characterized by DLS and TEM. Then acridine orange staining was performed to confirm entrance of exosomes into PC12 cells. PC12 cells were treated with culture medium containing NGF and exosome. Cell viability was assessed by MTT assay, and neural differentiation by ICC technique and qRT-PCR. TEM and DLS data confirmed the isolation of exosomes according to their size (30–100 nm) and acridine orange staining indicated entrance of exosomes to target cells. MTT assay showed that cell viability was significantly increased in exosome treated group. ICC technique revealed that the expression of Map2 was superior in the exosome treated group. Based on qRT-PCR data, Map2 and β-tub III gene expression was increased in the exosome treated group. Significant expression of Gfap was seen in the NGF and NGF/EXO treated groups. Present study indicated that hADSCs derived exosomes might enhance cell viability and promote neuronal differentiation and expression of mature neural marker in PC12 cells. © 2021, The Author(s), under exclusive licence to Springer Nature B.V.

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Style	Citing Format
MLA	Shariati Najafabadi S, et al.. "Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells." Molecular Biology Reports, vol. 48, no. 6, 2021, pp. 5033-5043.
APA	Shariati Najafabadi S, Amirpour N, Amini S, Zare N, Kazemi M, Salehi H (2021). Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells. Molecular Biology Reports, 48(6), 5033-5043.
Chicago	Shariati Najafabadi S, Amirpour N, Amini S, Zare N, Kazemi M, Salehi H. "Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells." Molecular Biology Reports 48, no. 6 (2021): 5033-5043.
Harvard	Shariati Najafabadi S et al. (2021) 'Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells', Molecular Biology Reports, 48(6), pp. 5033-5043.
Vancouver	Shariati Najafabadi S, Amirpour N, Amini S, Zare N, Kazemi M, Salehi H. Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells. Molecular Biology Reports. 2021;48(6):5033-5043.
BibTex	@article{ author = {Shariati Najafabadi S and Amirpour N and Amini S and Zare N and Kazemi M and Salehi H}, title = {Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells}, journal = {Molecular Biology Reports}, volume = {48}, number = {6}, pages = {5033-5043}, year = {2021} }
RIS	TY - JOUR AU - Shariati Najafabadi S AU - Amirpour N AU - Amini S AU - Zare N AU - Kazemi M AU - Salehi H TI - Human Adipose Derived Stem Cell Exosomes Enhance the Neural Differentiation of Pc12 Cells JO - Molecular Biology Reports VL - 48 IS - 6 SP - 5033 EP - 5043 PY - 2021 ER -

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