1. Academic Validation
  2. BCL2A1 regulates Canady Helios Cold Plasma-induced cell death in triple-negative breast cancer

BCL2A1 regulates Canady Helios Cold Plasma-induced cell death in triple-negative breast cancer

  • Sci Rep. 2022 Mar 8;12(1):4038. doi: 10.1038/s41598-022-07027-4.
Saravana R K Murthy 1 Xiaoqian Cheng 1 Taisen Zhuang 2 Lawan Ly 1 Olivia Jones 1 Giacomo Basadonna 3 Michael Keidar 4 Jerome Canady 5 6 7
Affiliations

Affiliations

  • 1 Jerome Canady Research Institute for Advanced Biological and Technological Sciences, Takoma Park, MD, USA.
  • 2 Plasma Medicine Life Sciences, Takoma Park, MD, USA.
  • 3 University of Massachusetts School of Medicine, Worcester, MA, USA.
  • 4 The George Washington University, Washington, DC, USA.
  • 5 Jerome Canady Research Institute for Advanced Biological and Technological Sciences, Takoma Park, MD, USA. drjcanady@jcri-abts.com.
  • 6 The George Washington University, Washington, DC, USA. drjcanady@jcri-abts.com.
  • 7 Holy Cross Hospital, Department of Surgery, Silver Spring, MD, USA. drjcanady@jcri-abts.com.
Abstract

Breast Cancer is the leading cause of Cancer death among women. Triple-negative breast Cancer (TNBC) has a poor prognosis and frequently relapses early compared with other subtypes. The Cold Atmospheric Plasma (CAP) is a promising therapy for prognostically poor breast Cancer such as TNBC. The Canady Helios Cold Plasma (CHCP) induces cell death in the TNBC cell line without thermal damage, however, the mechanism of cell death by CAP treatment is ambiguous and the mechanism of resistance to cell death in some subset of cells has not been addressed. We investigate the expression profile of 48 apoptotic and 35 oxidative gene markers after CHCP treatment in six different types of breast Cancer cell lines including luminal A (ER+ PR+/-HER2-), luminal B (ER+PR+/-HER2+), (ER-PR-HER2+), basal-like: ER-PR-HER2- cells were tested with CHCP at different power settings and at 4 different incubation time. The expression levels of the gene markers were determined at 4 different intervals after the treatment. The protein expression of BCL2A1 was only induced after CHCP treatment in TNBC cell lines (p < 0.01), whereas the HER2-positive and ER, PR positive cell lines showed little or no expression of BCL2A1. The BCL2A1 and TNF-alpha expression levels showed a significant correlation within TNBC cell lines (p < 0.01). Silencing BCL2A1 mRNA by siRNA increased the potency of the CHCP treatment. A Combination of CHCP and CPI203, a BET bromodomain inhibitor, and a BCL2A1 antagonist increased the CHCP-induced cell death (p < 0.05). Our results revealed that BCL2A1 is a key gene for resistance during CHCP induced cell death. This resistance in TNBCs could be reversed with a combination of siRNA or BCL2A1 antagonist-CHCP therapy.

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