Thermoresistant flagellin-adjuvanted cancer vaccine combined with photothermal therapy synergizes with anti-PD-1 treatment.

IF 10.3 1区医学 Q1 IMMUNOLOGY

Journal for Immunotherapy of Cancer Pub Date : 2025-03-21 DOI:10.1136/jitc-2024-010272

Jayalakshmi Thiruppathi, Veena Vijayan, Hye Suk Hwang, Yong Jun Bang, Vandara Loeurng, Seol Hee Hong, Aravindkumar Sundaram, In-Kyu Park, Shee Eun Lee, Joon Haeng Rhee

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引用次数: 0

Abstract

Background: Cancer immunotherapy, leveraging the immune system to target and eradicate cancer cells, has transformed cancer treatment paradigms. Immune checkpoint inhibitors (ICIs) are used in a wide array of cancers, but only a limited fraction of patients are responding. Cancer vaccines could elicit antigen-specific immune responses and establish long-term immune memory, preventing recurrence and metastasis. Despite their promising profiles, ICIs and cancer vaccines by themselves are often insufficient to overcome the immunosuppressive tumor microenvironment (TME) and recurrence/metastasis. Addressing these challenges is crucial for improving cancer immunotherapy outcomes.

Methods: The targeted liposomal formulation (TLIF), displaying Cyclic RGD (cRGD) peptide on the surface and encapsulating ICG and thermoresistant flagellin (FlaB) inside, was used for photothermal therapy (PTT), which was designed to induce robust immunogenic cell death (ICD) and release tumor antigens (TAs). We employed a mouse breast cancer model amenable to PTT. Utilizing a bilateral DD-Her2/neu tumor implantation model, we evaluated local and abscopal effects of combinatorial approaches employing PTT, FlaB-adjuvanted peptide vaccine (FlaB-Vax), and anti-PD-1 treatment. FlaB-Vax was designed to trigger tumor-associated antigen (TAA)-specific immune responses, which will trigger specific anti-tumor immunity. TLIF-PTT aimed to reduce tumor burden and induce ICD-mediated TA liberation for epitope spreading. Sustained anti-tumor immune memory was assessed by orthotopic rechallenging cured mice with the DD-Her2/neu tumor cells.

Results: The combination of TLIF-PTT and FlaB-Vax provided significantly enhanced primary tumor suppression, with strong abscopal effects and long-lasting immune memory. The addition of anti-PD-1 therapy further improved long-term relapse-free survival, highlighting the potential of this combinatorial approach to induce durable antitumor immunity and sustainably prevent cancer recurrence and metastasis.

Conclusion: This study demonstrates that the combination of TLIF-PTT and FlaB-Vax synergistically induced synergistic anti-tumor immune responses, which were efficaciously potentiated by anti-PD-1 treatment for recurrence-free long-term survival.

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耐高温鞭毛蛋白佐剂癌症疫苗联合光热疗法与抗pd -1治疗协同作用。

背景：癌症免疫疗法，利用免疫系统靶向和根除癌细胞，已经改变了癌症治疗范式。免疫检查点抑制剂（ICIs）广泛用于各种癌症，但只有一小部分患者有反应。肿瘤疫苗可引起抗原特异性免疫反应，建立长期免疫记忆，防止复发和转移。尽管ICIs和癌症疫苗具有良好的前景，但它们本身往往不足以克服免疫抑制性肿瘤微环境（TME）和复发/转移。解决这些挑战对于改善癌症免疫治疗效果至关重要。方法：采用表面显示环状RGD （cRGD）肽，内包覆ICG和耐热鞭毛蛋白（FlaB）的靶向脂质体制剂（TLIF）进行光热治疗（PTT），旨在诱导强效免疫原性细胞死亡（ICD）和释放肿瘤抗原（TAs）。我们采用了一种适合PTT的小鼠乳腺癌模型。利用双侧DD-Her2/新肿瘤植入模型，我们评估了采用PTT、flab佐剂肽疫苗（FlaB-Vax）和抗pd -1治疗的组合方法的局部和体外效果。FlaB-Vax被设计用于触发肿瘤相关抗原（TAA）特异性免疫反应，这将触发特异性抗肿瘤免疫。tliff - ptt旨在减轻肿瘤负担，诱导icd介导的TA释放以促进表位扩散。用DD-Her2/新肿瘤细胞原位再挑战治愈小鼠，评估持续抗肿瘤免疫记忆。结果：tliff - ptt联合FlaB-Vax对原发肿瘤的抑制作用明显增强，具有较强的体外作用和持久的免疫记忆。抗pd -1治疗的加入进一步提高了长期无复发生存期，突出了这种联合方法在诱导持久抗肿瘤免疫和持续预防癌症复发和转移方面的潜力。结论：本研究表明，tliff - ptt联合FlaB-Vax可协同诱导协同抗肿瘤免疫反应，抗pd -1治疗可有效增强这种协同抗肿瘤免疫反应，提高无复发长期生存期。

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来源期刊

Journal for Immunotherapy of Cancer Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

17.70

自引率

4.60%

发文量

522

审稿时长

18 weeks

期刊介绍： The Journal for ImmunoTherapy of Cancer (JITC) is a peer-reviewed publication that promotes scientific exchange and deepens knowledge in the constantly evolving fields of tumor immunology and cancer immunotherapy. With an open access format, JITC encourages widespread access to its findings. The journal covers a wide range of topics, spanning from basic science to translational and clinical research. Key areas of interest include tumor-host interactions, the intricate tumor microenvironment, animal models, the identification of predictive and prognostic immune biomarkers, groundbreaking pharmaceutical and cellular therapies, innovative vaccines, combination immune-based treatments, and the study of immune-related toxicity.