Anti-cancer effect of sodium pentaborate in combination with cisplatin on lung cancer cell lines.

Abstract

Background: Despite the development of novel therapeutic modalities, lung cancer persists as the leading cause of cancer-related mortality. Platinum-based treatments represent the most prominent treatment option, with cisplatin being the most frequently utilized chemotherapeutic agent. However, cisplatin has several serious side effects. A substantial body of evidence has emerged in recent years indicating that boron compounds exhibit anti-cancer properties when administered as monotherapy or in combination with chemotherapy agents. The objective of this study is to examine the anti-cancer effects of Cisplatin (Cis) and sodium pentaborate pentahydrate (NaB), both individually and in combination, on non-small cell lung cancer (NSCLC) cell line A-549 cells and small cell lung cancer (SCLC) cell line DMS-114 cells under in vitro conditions.

Methods and results: The effects of cisplatin and NAB on cell survival, apoptosis, the cell cycle, and the expression levels of apoptotic, anti-apoptotic, and tumor suppressor genes were determined by an MTS assay, an Annexin-V assay, a cell cycle analysis, and real-time PCR (qPCR). It was found that the IC-50 value of cisplatin, which was 10 µM when used alone, decreased to 2.5 µM when combined with a non-toxic dose of NaB on the A-549 cell line. BAX and TP53 gene expression levels were elevated by the Nab-Cisplatin combination in the A-549 cell line. The combination was observed to result in an approximately 19-fold increase in CDK2 gene expression in the A-549 cell line and an approximately 6-fold increase in the DMS-114 line, which resulted in S phase and/or G2 phase arrest on the cell cycle. Gene expression levels of Survivin and Ki-67 were decreased by the combination on both cell lines when compared with cisplatin alone. The findings demonstrate that NaB exerts an anti-cancer effect on the A-549 and DMS-114 cell lines. Moreover, when combined with cisplatin, it produces a synergistic anti-cancer effect on the A-549 cell line, whereby apoptosis is activated and cell proliferation is inhibited.

Conclusion: The combination of NaB and cisplatin represents a novel approach to the treatment of NSCLC. This is due to the fact that it reduces the IC-50 value of cisplatin and also results in a greater inhibition of cell division and a stronger induction of cell death when used in the context of a combined treatment. Further insight into the effects of the NaB-cisplatin combination will be gained from in vivo experiments and clinical studies.