BackgroundCervical cancer, primarily caused by HPV infection, remains a global health concern. Current treatments face challenges including drug resistance and toxicity. This study investigates combining E5-siRNA with chemotherapy drugs, Oxaliplatin and Ifosfamide, to enhance treatment efficacy in HPV-16 positive cervical cancer cells, targeting E5 oncoprotein to overcome limitations of existing therapies. MethodsThe CaSki cervical cancer cell line was transfected with E5-siRNA, and subsequently treated with Oxaliplatin/Ifosfamide. Quantitative real-time PCR was employed to assess the expression of related genes including p53, MMP2, Nanog, and Caspases. Cell apoptosis, cell cycle progression, and cell viability were evaluated using Annexin V/PI staining, DAPI staining, and MTT test, respectively. Furthermore, stemness ability was determined through a colony formation assay, and cell motility was assessed by wound healing assay. ResultsE5-siRNA transfection significantly reduced E5 mRNA expression in CaSki cells compared to the control group. The MTT assay revealed that monotherapy with E5-siRNA, Oxaliplatin, or Ifosfamide had moderate effects on cell viability. However, combination therapy showed synergistic effects, reducing the IC50 of Oxaliplatin from 11.42 × 10−8 M (45.36 μg/ml) to 6.71 × 10−8 M (26.66 μg/ml) and Ifosfamide from 12.52 × 10−5 M (32.7 μg/ml) to 8.206 × 10−5 M (21.43 μg/ml). Flow cytometry analysis demonstrated a significant increase in apoptosis for combination treatments, with apoptosis rates rising from 11.02 % (Oxaliplatin alone) and 16.98 % (Ifosfamide alone) to 24.8 % (Oxaliplatin + E5-siRNA) and 34.9 % (Ifosfamide + E5-siRNA). The sub-G1 cell population increased from 15.7 % (Oxaliplatin alone) and 18 % (Ifosfamide alone) to 21.9 % (Oxaliplatin + E5-siRNA) and 27.1 % (Ifosfamide + E5-siRNA), indicating cell cycle arrest. The colony formation assay revealed a substantial decrease in the number of colonies following combination treatment. qRT-PCR analysis showed decreased expression of stemness-related genes CD44 and Nanog, and migration-related genes MMP2 and CXCL8 in the combination groups. Apoptosis-related genes Casp-3, Casp-9, and pP53 showed increased expression following combination therapy, while BAX expression increased and BCL2 expression decreased relative to the control. ConclusionThe study demonstrates that combining E5-siRNA with Oxaliplatin or Ifosfamide enhances the efficacy of chemotherapy in HPV-16 positive cervical cancer cells. This synergistic approach effectively targets multiple aspects of cancer cell behavior, including proliferation, apoptosis, migration, and stemness. The findings suggest that this combination strategy could potentially allow for lower chemotherapy doses, thereby reducing toxicity while maintaining therapeutic efficacy. This research provides valuable insights into targeting HPV E5 as a complementary approach to existing therapies focused on E6 and E7 oncoproteins, opening new avenues for combination therapies in cervical cancer treatment.