Pulsed electric field induces exocytosis and overexpression of MAGE antigens in melanoma

Author:

Szlasa Wojciech,Sauer Natalia,Baczyńska Dagmara,Ziętek Marcin,Haczkiewicz-Leśniak Katarzyna,Karpiński Paweł,Fleszar Mariusz,Fortuna Paulina,Kulus Michał J.,Piotrowska Aleksandra,Kmiecik Alicja,Barańska Agnieszka,Michel Olga,Novickij Vitalij,Tarek Mounir,Kasperkiewicz Paulina,Dzięgiel Piotr,Podhorska-Okołów Marzenna,Saczko Jolanta,Kulbacka Julita

Abstract

AbstractNanosecond pulsed electric field (nsPEF) has emerged as a promising approach for inducing cell death in melanoma, either as a standalone treatment or in combination with chemotherapeutics. However, to date, there has been a shortage of studies exploring the impact of nsPEF on the expression of cancer-specific molecules. In this investigation, we sought to assess the effects of nsPEF on melanoma-specific MAGE (Melanoma Antigen Gene Protein Family) expression. To achieve this, melanoma cells were exposed to nsPEF with parameters set at 8 kV/cm, 200 ns duration, 100 pulses, and a frequency of 10 kHz. We also aimed to comprehensively describe the consequences of this electric field on melanoma cells' invasion and proliferation potential. Our findings reveal that following exposure to nsPEF, melanoma cells release microvesicles containing MAGE antigens, leading to a simultaneous increase in the expression and mRNA content of membrane-associated antigens such as MAGE-A1. Notably, we observed an unexpected increase in the expression of PD-1 as well. While we did not observe significant differences in the cells' proliferation or invasion potential, a remarkable alteration in the cells' metabolomic and lipidomic profiles towards a less aggressive phenotype was evident. Furthermore, we validated these results using ex vivo tissue cultures and 3D melanoma culture models. Our study demonstrates that nsPEF can elevate the expression of membrane-associated proteins, including melanoma-specific antigens. The mechanism underlying the overexpression of MAGE antigens involves the initial release of microvesicles containing MAGE antigens, followed by a gradual increase in mRNA levels, ultimately resulting in elevated expression of MAGE antigens post-experiment. These findings shed light on a novel method for modulating cancer cells to overexpress cancer-specific molecules, thereby potentially enhancing their sensitivity to targeted anticancer therapy.

Funder

Narodowe Centrum Nauki

Publisher

Springer Science and Business Media LLC

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