A review of carbohydrate polymer-synthesized nanoparticles in cancer immunotherapy: Past, present and future perspectives

Cancer continues to be a leading factor in mortality and tackling it has been made difficult by the development of immune escape. Furthermore, alternative treatments like surgery, chemotherapy, and radiation have been unsuccessful in eradicating cancer. Despite being effective, they have not succeeded in providing a full cancer treatment and exhibit several negative effects. The field of immunotherapy has been improved by utilizing cancer vaccines, immune checkpoint inhibitors (ICIs), and adoptive cell transfer to enhance immune responses to tumors. Nevertheless, cancer cells need to adapt and become immune to immune reactions, leading to the need for innovative treatment methods. Carbohydrate polymers and their nanoparticles have been beneficial in improving cancer immunotherapy by being customizable to specifically target the immune system. These nanoparticles can change the tumor microenvironment and accelerate immunotherapy by affecting immune cells such as T cells and dendritic cells. Incorporating both chemotherapy and phototherapy into nanoparticles can improve immunotherapy. Furthermore, besides controlling immune reactions, carbohydrate polymer nanoparticles can also be used for theranostic purposes, where they are used to image tumor cells and activate the immune system to eradicate cancer.