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Graphene Oxide Enhances Biogenesis and Release of Exosomes in Human Ovarian Cancer Cells. | LitMetric

Graphene Oxide Enhances Biogenesis and Release of Exosomes in Human Ovarian Cancer Cells.

Int J Nanomedicine

Department of Stem Cell and Regenerative Biotechnology, Konkuk University, Seoul, 05029, Korea.

Published: December 2022

AI Article Synopsis

  • The study investigates how graphene oxide (GO) affects the creation and release of exosomes in human ovarian cancer cells (SKOV3), revealing that GO, along with cisplatin and C6-ceramide, inhibits cell survival and increases stress levels, leading to more exosomes being produced.
  • Exosomes from GO-treated cells showed higher levels of specific protein markers (TSG101, CD9, CD63, CD81) and greater amounts of cytokines and chemokines compared to control cells, indicating enhanced intercellular communication.
  • The findings suggest that GO could be a useful tool for manipulating exosome production in cancer therapy, as treatments with other inhibitors like N-acetyl

Article Abstract

Background: Exosomes, which are nanovesicles secreted by almost all the cells, mediate intercellular communication and are involved in various physiological and pathological processes. We aimed to investigate the effects of graphene oxide (GO) on the biogenesis and release of exosomes in human ovarian cancer (SKOV3) cells.

Methods: Exosomes were isolated using ultracentrifugation and ExoQuick and characterized by various analytical techniques. The expression levels of exosome markers were analyzed via quantitative reverse transcription-polymerase chain reaction and enzyme-linked immunosorbent assay.

Results: Graphene oxide (10-50 μg/mL), cisplatin (2-10 μg/mL), and C6-ceramide (5-25 μM) inhibited the cell viability, proliferation, and cytotoxicity in a dose-dependent manner. We observed that graphene oxide (GO), cisplatin (CIS), and C6-Ceramide (C6-Cer) stimulated acetylcholine esterase and neutral sphingomyelinase activity, total exosome protein concentration, and exosome counts associated with increased level of apoptosis, oxidative stress and endoplasmic reticulum stress. In contrast, GW4869 treatment inhibits biogenesis and release of exosomes. We observed that the human ovarian cancer cells secreted exosomes with typical cup-shaped morphology and surface protein biomarkers. The expression levels of TSG101, CD9, CD63, and CD81 were significantly higher in GO-treated cells than in control cells. Further, cytokine and chemokine levels were significantly higher in exosomes isolated from GO-treated SKOV3 cells than in those isolated from control cells. SKOV3 cells pre-treated with N-acetylcysteine or GW4869 displayed a significant reduction in GO-induced exosome biogenesis and release. Furthermore, endocytic inhibitors decrease exosome biogenesis and release by impairing endocytic pathways.

Conclusion: This study identifies GO as a potential tool for targeting the exosome pathway and stimulating exosome biogenesis and release. We believe that the knowledge acquired in this study can be potentially extended to other exosome-dominated pathologies and model systems. Furthermore, these nanoparticles can provide a promising means to enhance exosome production in SKOV3 cells.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9717435PMC
http://dx.doi.org/10.2147/IJN.S385113DOI Listing

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