Department of Ultrasound in Medicine, The Second Affiliated Hospital of Zhejiang University School of Medicine, Zhejiang University, Hangzhou 310009 China.
ZJU-Hangzhou Global Scientific and Technological Innovation Center, Hangzhou 311215, China.
Nano Lett. 2023 Oct 11;23(19):9133-9142. doi: 10.1021/acs.nanolett.3c03098. Epub 2023 Sep 28.
Immunotherapy has emerged as a triumph in the treatment of malignant cancers. Nevertheless, current immunotherapeutics are insufficient in addressing tumors characterized by tumor cells' inadequate antigenicity and the tumor microenvironment's low immunogenicity (TME). Herein, we developed a novel multifunctional nanoassembly termed FMMC through the self-assembly of indoleamine 2,3-dioxygenase 1 (IDO-1) inhibitor 1-methyl-tryptophan prodrug (FM), Ce6, and ionic manganese (Mn) via noncovalent interactions. The laser-ignited FMMC treatment could induce effective immunogenic cell death and activate the STING/MHC-I signaling pathway, thus deeply sculpting the tumor-intrinsic antigenicity to achieve dendritic cell (DC)-dependent and -independent T cell responses against tumors. Meanwhile, by inhibiting IDO-1, FMMC could lead to immunosuppressive TME reversion to an immunoactivated one. FMMC-based phototherapy led to the up-regulation of programmed death-ligand 1 (PD-L1), enhancing the sensitivity of tumors to anti-PD-1 therapy. Furthermore, the incorporation of Mn into FMMC resulted in an augmented longitudinal relaxivity and enhanced the MRI for monitoring the growth of primary tumors and lung metastases. Collectively, the superior reprogramming performance of immunosuppressive tumor cells and TME, combined with excellent anticancer efficacy and MRI capability, made FMMC a promising immune nanosculptor for cancer theranostics.
免疫疗法在恶性癌症的治疗中取得了重大突破。然而,目前的免疫疗法在解决肿瘤细胞抗原性不足和肿瘤微环境免疫原性低(TME)的肿瘤方面还不够有效。在此,我们通过非共价相互作用,将色氨酸 2,3-双加氧酶 1(IDO-1)抑制剂 1-甲基色氨酸前药(FM)、Ce6 和离子锰(Mn)自组装成一种新型多功能纳米组装体,称为 FMMC。激光引发的 FMMC 治疗可以诱导有效的免疫原性细胞死亡并激活 STING/MHC-I 信号通路,从而深入塑造肿瘤内在抗原性,实现树突状细胞(DC)依赖性和非依赖性 T 细胞对肿瘤的反应。同时,通过抑制 IDO-1,FMMC 可以导致免疫抑制的 TME 向免疫激活状态的逆转。基于 FMMC 的光疗导致程序性死亡配体 1(PD-L1)的上调,增强了肿瘤对抗 PD-1 治疗的敏感性。此外,将 Mn 掺入 FMMC 中会导致纵向弛豫率增强,并增强 MRI 监测原发性肿瘤和肺转移的生长。总的来说,FMMC 对免疫抑制性肿瘤细胞和 TME 的卓越重编程性能,结合优异的抗癌疗效和 MRI 能力,使其成为癌症治疗和诊断的有前途的免疫纳米雕刻器。
