Litcius/Paper detail

Temporally programmed STING nanoadjuvant delivery unlocks synergistic chemotherapy-induced antitumor immunity

Zimeng Yang, Hengzhi Liu, Hengzhi Liu, Shuo Li, Zhaochu Xu, Wenxiao Li, Yubo Liu, Qingzhi Lv, Hongzhuo Liu, Hongzhuo Liu, Zhonggui He, Yongjun Wang

2025Science Advances15 citationsDOIOpen Access PDF

Abstract

Stimulator of interferon genes (STING) agonists have attracted notable attention for their potent immune activation capabilities. However, their clinical application is hindered by systemic toxicity and delivery inefficiencies. We addressed these challenges by developing a lymph node-targeted STING agonist nanoadjuvant (Mn/MSA-2@Lipo) combined with a temporally optimized delivery strategy. Mn/MSA-2@Lipo uses manganese ions to amplify STING pathway activation while achieving efficient lymph node accumulation and antigen presentation. We first induced immunogenic cell death (ICD) through chemotherapy to release tumor antigens, followed by the administration of the nanoadjuvant at an optimized time interval, the approach effectively synchronizes dendritic cell (DC) antigen uptake and maturation. This combination therapy notably enhanced antitumor immunity in melanoma and breast cancer models, achieving complete tumor regression and inducing long-lasting immune memory, all while demonstrating an excellent safety profile. Our findings highlight the critical importance of delivery timing optimization, offering a promising strategy for the clinical translation of STING agonists and the design of advanced immunotherapies.

Topics & Concepts

StingStimulator of interferon genesImmune systemMedicineImmunotherapyImmunogenic cell deathLymph nodeAntigenCancer researchT cellDendritic cellAcquired immune systemImmunologyInnate immune systemAerospace engineeringEngineeringinterferon and immune responsesViral Infections and VectorsImmune Response and Inflammation