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Condensate nanovaccine adjuvants augment CD8+ T-Cell-dependent antitumor immunity through mtDNA leakage-triggered cGAS-STING axis activation

Yu Tang, Zhiyuan Luo, Zhao Ma, Lingling Han, Yurong Zhou, Tianci Liang, Kangsen Yang, Lei Zhao, Xiaoyuan Chen, Pengfei Zhang

2025Signal Transduction and Targeted Therapy14 citationsDOIOpen Access PDF

Abstract

T lymphocytes (CTLs), which are essential for effective cancer vaccine performance. Inspired by natural biomolecular condensates, we developed a versatile noncovalent protein self-assembly strategy distinct from traditional approaches requiring structural domain modifications or bifunctional crosslinkers. Our methodology employs amphiphilic molecules (sodium myristate/SMA and sodium dodecyl thiolate/SDT) as molecular bridges to mediate protein‒protein interactions through hydrophobic forces and disulfide bond formation. This process generates nanoscale protein condensate (PCD) vaccines with exceptional stability. As a novel adjuvant system, these synthetic condensates significantly enhance antigen cross-presentation by optimizing key parameters: antigen loading capacity, lymph node targeting, cytosolic delivery, and lysosomal escape. Consequently, they induce robust antigen-specific CTL responses and humoral immunity, demonstrating potent antitumor efficacy. Importantly, we found that the synthetic protein condensate (PCD) alone can act as a nanoadjuvant. By increasing mitochondrial membrane permeability, PCD induces mitochondrial DNA leakage into the cytosol, activating the cGAS‒STING pathway and promoting DC maturation. This safe and scalable platform eliminates the need for complex covalent modifications or genetic engineering, and it facilitates the design of diverse modular antigens, including neoantigens and viral antigens. Given its straightforward manufacturing process and superior immunogenicity, this synthetic PCD vaccine adjuvant has significant potential for clinical application and translation.

Topics & Concepts

AdjuvantCTL*Immune systemCytotoxic T cellAntigenChemistryEffectorBiologyCell biologyProtein engineeringCytosolCancer vaccineImmunityProtein degradationProteaseBiochemistryMitochondrionProteasomeMutantLinkerDNA vaccinationEpitopeCellular immunityHumoral immunityCytotoxicityCancer immunotherapyDrug discoveryComputational biologyAntibodySynthetic biologyInnate immune systemAcquired immune systemT cellImmunotherapy and Immune Responsesinterferon and immune responsesvaccines and immunoinformatics approaches
Condensate nanovaccine adjuvants augment CD8+ T-Cell-dependent antitumor immunity through mtDNA leakage-triggered cGAS-STING axis activation | Litcius