Adjuvant loaded nanoparticles are a potent strategy for developing effective combined cancer immunotherapies. A polyinosinic-polycytidylic acid (poly I:C) is a ligand for toll-like receptor 3 and a promising cancer adjuvant. However, regarding intravenous administration, the potential for and the mechanism of poly I:C loaded nanoparticles as a cancer vaccine are largely unknown. We investigated the effects of using a combination of poly I:C and an antigen loaded liposome for cancer immunotherapy and a key process for achieving effective antitumor immunity of the liposome system under conditions of intravenous vaccination. A poly I:C and ovalbumin (OVA) loaded octaarginine (R8) modified liposome (PoIC/OVA-R8L) drastically inhibited the systemic cytokine production derived from the poly I:C intravenous injection. Treatment with PoIC/OVA-R8L improved the immune status in B16-OVA tumors to an inflamed immune status and induced a significant combined antitumor effect with the anti-programmed cell death 1 ligand (PD-L1). In a mechanistic analysis compared with a high dose of the free form of poly I:C, interestingly, local cytokine production, maturation of antigen presenting cells and antigen presentation were comparable. Conversely, significant differences were identified in the processes after OVA-specific CTL generation. Collectively, our findings have implications for the development of intravenous liposomal vaccines.