Cold atmospheric plasma generated reactive species aided inhibitory effects on human melanoma cells: an in vitro and in silico study

Dharmendra Kumar Yadav,Manish Adhikari,Bhagirath Ghimire,Surendra Kumar,Eun-Ha Choi,Mi-Hyun Kim,Ihn Han

doi:10.1038/s41598-020-60356-0

Dharmendra Kumar Yadav, Manish Adhikari + Show 5 more

Open Access

https://doi.org/10.1038/s41598-020-60356-0

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Journal: Scientific Reports	Publication Date: Feb 25, 2020
Citations: 43	License type: open-access

Affiliation: Kwangwoon University, Gachon University

Abstract

Malignant melanoma is considered to be a heterogeneous disease that arises from altered genes and transformed melanocytes. In this study, special softjet cold atmospheric plasma was used to treat three different human melanoma cells using air and N2 gases to check the anti-melanoma activity. The physical effects by plasma revealed an increase in the temperature with the gradual reduction in pH at 60 sec, 180 sec and 300 sec air and N2 plasma treatment. Cellular toxicity revealed a decreased in cell survival (~50% cell survival using air gas and <~60% cell survival using N2 gas at 60 sec plasma treatment in G-361 cells). Gene analysis by q-PCR revealed that 3 min and 5 min air and N2 plasma treatment activated apoptotic pathways by triggering apoptotic genes in all three melanoma cell lines. The apoptosis was confirmed by DAPI staining and its related pathways were further explored according to protein-protein docking, and their probable activation mechanism was revealed. The pathways highlighted that activation of apoptosis which leads to cellular cascades and hence stimulation ASK1 (docking method) revealed that softjet plasma can be an effective modality for human melanoma treatment.

Highlights

Malignant melanoma is considered to be a heterogeneous disease that arises from altered genes and transformed melanocytes
We examined the effect of soft jet cold atmospheric plasma (CAP) using air and N2 gases on normal human dermal fibroblast and different human melanoma cell lines: G-361, SK-MEL-31, and WM-266-4
The in vitro results showed that soft jet CAP from the air and N2 gas can plausibly be used to inhibit melanoma progression

Summary

Introduction

Malignant melanoma is considered to be a heterogeneous disease that arises from altered genes and transformed melanocytes. Special softjet cold atmospheric plasma was used to treat three different human melanoma cells using air and N2 gases to check the anti-melanoma activity. The pathways highlighted that activation of apoptosis which leads to cellular cascades and stimulation ASK1 (docking method) revealed that softjet plasma can be an effective modality for human melanoma treatment. The softjet plasma device induced reactive atoms to combine with each other and other molecules to form reactive oxygen and nitrogen species (RONS)[15,16,17] These characteristics of soft jet cold atmospheric plasma have encouraged its therapeutic application for melanoma treatment. The results demonstrated the downregulation of metabolic viability with the simultaneous upregulation of apoptosis and its related genes This new approach toward abrogating the apoptotic pathway using softjet CAP may provide a different strategy for melanoma treatment. The in vitro results showed that soft jet CAP from the air and N2 gas can plausibly be used to inhibit melanoma progression

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Conclusion