lncRNA PVT1 silencing inhibits gastric cancer cells’ progression via enhancing chemosensitivity to paclitaxel

•lncRNA PVT1 is an oncogenic and intergenic lncRNA, upregulated in several cancers including gastric cancer.•PVT1 contributes to tumor cells’ growth, metastasis, and chemoresistance.•PVT1 targeting increased the chemosensitivity of paclitaxel.•siRNA-mediated PVT1 targeting synergized the paclitaxel impact in inhibiting gastric cancer cell progression. Gastric cancer (GC) is one of the leading causes of cancer-related deaths worldwide because of its high morbidity and the absence of effective therapies. Even though paclitaxel is a powerful anticancer chemotherapy drug, recent studies have indicated its ineffectiveness against GC cells. Long non-coding RNA (lncRNA) PVT1 has a high expression in GC cells and increases the progression of tumors via inducing drug resistance. In the present study, the effects of the siRNA-mediated lncRNA PVT1 gene silencing along with paclitaxel treatment on the rate of apoptosis, growth, and migration of AGS GC cells were investigated. AGS cells were cultured and then transfected with siRNA PVT1 using electroporation. The MTT test was used to examine the effect of treatments on the viability of cultured cells. Furthermore, the flow cytometry method was used to evaluate the impact of treatments on the cell cycle process and apoptosis induction in GC cells. Finally, the mRNA expression of target genes was assessed using the qRT-PCR method. The results showed that lncRNA PVT1 gene suppression, along with paclitaxel treatment, reduces the viability of cancer cells and significantly increases the apoptosis rate of cancer cells and the number of cells arrested in the G2/M phase compared to the control group. Based on the results of qRT-PCR, combined treatment significantly decreased the expression of MMP3, MMP9, MDR1, MRP1, Bcl-2, k-Ras, and c-Myc genes and increased the expression of the Bax gene compared to the control group. The results of our study showed that lncRNA PVT1 gene targeting, together with paclitaxel treatment, induces apoptosis, inhibits growth, alleviates drug resistance, and reduces the migratory capability of GC cells. Therefore, there is a need for further investigations to evaluate the feasibility and effectiveness of this approach in vivo in animal models.