Reprogramming the immunosuppressive tumor microenvironment results in successful clearance of tumors resistant to radiation therapy and anti-PD-1/PD-L1.

IF 7.2 2区 医学 Oncoimmunology Pub Date : 2023-06-15 eCollection Date: 2023-01-01 DOI:10.1080/2162402X.2023.2223094
Debayan Mukherjee, Erminia Romano, Richard Walshaw, Leo A H Zeef, Antonia Banyard, Stephen J Kitcatt, Eleanor J Cheadle, Karoliina Tuomela, Swati Pendharkar, Aws Al-Deka, Beatrice Salerno, Sophie Raby, Ian G Mills, Jamie Honeychurch, Tim M Illidge
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Abstract

Despite breakthroughs in immune checkpoint inhibitors (ICI), the majority of tumors, including those poorly infiltrated by CD8+ T cells or heavily infiltrated by immunosuppressive immune effector cells, are unlikely to result in clinically meaningful tumor responses. Radiation therapy (RT) has been combined with ICI to potentially overcome this resistance and improve response rates but reported clinical trial results have thus far been disappointing. Novel approaches are required to overcome this resistance and reprogram the immunosuppressive tumor microenvironment (TME) and address this major unmet clinical need. Using diverse preclinical tumor models of prostate and bladder cancer, including an autochthonous prostate tumor (Pten-/-/trp53-/-) that respond poorly to radiation therapy (RT) and anti-PD-L1 combinations, the key drivers of this resistance within the TME were profiled and used to develop rationalized combination therapies that simultaneously enhance activation of anti-cancer T cell responses and reprogram the immunosuppressive TME. The addition of anti-CD40mAb to RT resulted in an increase in IFN-y signaling, activation of Th-1 pathways with an increased infiltration of CD8+ T-cells and regulatory T-cells with associated activation of the CTLA-4 signaling pathway in the TME. Anti-CTLA-4mAb in combination with RT further reprogrammed the immunosuppressive TME, resulting in durable, long-term tumor control. Our data provide novel insights into the underlying mechanisms of the immunosuppressive TME that result in resistance to RT and anti-PD-1 inhibitors and inform therapeutic approaches to reprogramming the immune contexture in the TME to potentially improve tumor responses and clinical outcomes.

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对免疫抑制性肿瘤微环境进行重编程,可成功清除对放疗和抗PD-1/PD-L1产生耐药性的肿瘤。
尽管免疫检查点抑制剂(ICI)取得了突破性进展,但大多数肿瘤,包括CD8+ T细胞浸润较差或免疫抑制性免疫效应细胞浸润较多的肿瘤,不太可能产生有临床意义的肿瘤反应。放射治疗(RT)与 ICI 联用有可能克服这种抗药性并提高应答率,但迄今为止所报道的临床试验结果令人失望。需要采用新的方法来克服这种耐药性,并对免疫抑制性肿瘤微环境(TME)进行重编程,以满足这一尚未得到满足的重大临床需求。利用对放射治疗(RT)和抗-PD-L1联合疗法反应不佳的自体前列腺肿瘤(Pten-/-/trp53-/-)等多种前列腺癌和膀胱癌临床前肿瘤模型,分析了TME内这种抗药性的关键驱动因素,并用于开发合理的联合疗法,以同时增强抗癌T细胞反应的激活和免疫抑制性TME的重编程。在RT中加入抗CD40mAb可增加IFN-y信号传导,激活Th-1通路,增加CD8+ T细胞和调节性T细胞的浸润,同时激活TME中的CTLA-4信号通路。抗CTLA-4mAb联合RT进一步重编程了免疫抑制性TME,从而实现了持久、长期的肿瘤控制。我们的数据为了解导致对 RT 和抗-PD-1 抑制剂产生耐药性的免疫抑制性 TME 的潜在机制提供了新的见解,并为重新规划 TME 中的免疫环境以改善肿瘤反应和临床疗效的治疗方法提供了参考。
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来源期刊
Oncoimmunology
Oncoimmunology ONCOLOGY-IMMUNOLOGY
CiteScore
12.80
自引率
2.80%
发文量
276
期刊介绍: Tumor immunology explores the natural and therapy-induced recognition of cancers, along with the complex interplay between oncogenesis, inflammation, and immunosurveillance. In response to recent advancements, a new journal, OncoImmunology, is being launched to specifically address tumor immunology. The field has seen significant progress with the clinical demonstration and FDA approval of anticancer immunotherapies. There's also growing evidence suggesting that many current chemotherapeutic agents rely on immune effectors for their efficacy. While oncologists have historically utilized chemotherapeutic and radiotherapeutic regimens successfully, they may have unwittingly leveraged the immune system's ability to recognize tumor-specific antigens and control cancer growth. Consequently, immunological biomarkers are increasingly crucial for cancer prognosis and predicting chemotherapy efficacy. There's strong support for combining conventional anticancer therapies with immunotherapies. OncoImmunology will welcome high-profile submissions spanning fundamental, translational, and clinical aspects of tumor immunology, including solid and hematological cancers, inflammation, and both innate and acquired immune responses.
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