Upregulation of EPSTI1/Drp1/AKT1 Signaling Pathways Using pDNA/Melittin Against Breast Cancer.

Abstract

This study investigates the role of genes related to breast cancer in apoptosis control. A melittin nucleic acid sequence was synthesized and introduced into a pcDNA3.1(+) Mammalian Expression Plasmid. The cloning accuracy was assessed using PCR testing and enzyme digestion techniques. The vectors were transfected into cells using LipofectamineTM2000. The transfection efficacy of MCF-7 and 4T1 cells was evaluated using fluorescence and bright-field imaging. Pure melittin produced from bee venom had a notable hemolytic impact, with lower hemolytic activity levels than the positive control, Triton X-100. The growth rate of 4T1 and MCF-7 cancer cells was significantly inhibited. The apoptosis rates were 8.54%, 46.20%, and 78.82% for free pDNA, melittin, and pDNA-melittin, respectively. The C-pDNA/Melittin-treated group showed a statistically significant reduction in cancer factors compared to the control group. The treated tumors exhibited significant necrosis and late apoptosis, with a prevalence ranging from about 5% to 10% of the lesions. After exposure to pDNA-melittin, there was no significant increase in transcription levels of caspase-3, caspase-8, BCRA1, BAX, Drp1, AKT1, and EPSTI1 genes in the normal non-cancerous groups. The findings provide novel opportunities for the therapeutic targeting of malignancies via melittin and the stimulation of the EPSTI1/Drp1/AKT1 signaling cascades.