低剂量X射线照射下掺杂氧化钇纳米闪烁体的全身抗肿瘤免疫反应

Systemic antitumor immune response of doped yttria nanoscintillators under low-dose x-ray irradiation.

作者信息

Sahin Onur, Mackeyev Yuri, Vijay Geraldine V, Roy Soumyabrata, Meiyazhagan Ashokkumar, Zahra Yasmin, Tezcan Okan, Gonzalez Valeria, Abousaida Belal, Wagner Holden R, Fernandes Pearl, Mowzoon-Mogharrabi Riaz, Venkatesulu Bhanu P, Hsieh Cheng-En, Kim Joseph B K, Raghuram Subhiksha, Zhang Xiang, Miller Kristen A, Gao Guanhui, Singh Pankaj K, Cho Sang Hyun, Papineni Rao V L, Ajayan Pulickel M, Krishnan Sunil

机构信息

Department of Materials Science and Nanoengineering, Rice University, Houston, TX 77005, USA.

Department of Neurosurgery, McGovern Medical School at UTHealth Houston, Houston, TX 77030, USA.

出版信息

Sci Adv. 2025 Mar 28;11(13):eadr4008. doi: 10.1126/sciadv.adr4008. Epub 2025 Mar 26.

DOI:10.1126/sciadv.adr4008

PMID:40138411

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11939067/

Abstract

Inadequate light penetration in tissues restricts photodynamic therapy to treating only superficial tumors. To enable x-ray-excited photodynamic therapy (XPDT) that targets deep-seated tumors, we synthesized a nanoscintillator-photosensitizer complex containing 5% Eu-doped YO fluorescing at 611 nanometers and decorated with SiO containing the scintillation-coupled photosensitizer methylene blue and a polyethylene glycol coating [PEGylated YO:Eu@SiO-methylene blue (pYSM)]. When irradiated, pYSMs generate singlet oxygen species in vitro, causing cytotoxicity with hallmarks of immunogenic cell death (calreticulin translocation to the cell membrane). Intravenously administered pYSMs home passively to pancreatic tumor xenografts and, upon 10 gray irradiation, cause significant tumor regression ( < 0.01). On combining XPDT with anti-PD1 immunotherapy, a distant nonirradiated tumor also regresses via an increase in intratumoral activated CD8 cytotoxic T cells. Collectively, we advance a systemically delivered XPDT strategy that mediates an antitumor effect in both irradiated and nonirradiated (abscopal) tumors when coupled with immunotherapy, converting an immunologically "cold" tumor to an immunologically "hot" tumor.

摘要

组织中光线穿透不足限制了光动力疗法仅能治疗浅表肿瘤。为了实现针对深部肿瘤的X射线激发光动力疗法（XPDT），我们合成了一种纳米闪烁体-光敏剂复合物，其中包含5%铕掺杂的在611纳米处发出荧光的YO，并装饰有含有闪烁耦合光敏剂亚甲蓝和聚乙二醇涂层的SiO[聚乙二醇化的YO:Eu@SiO-亚甲蓝（pYSM）]。照射时，pYSM在体外产生单线态氧物种，导致具有免疫原性细胞死亡特征（钙网蛋白转运至细胞膜）的细胞毒性。静脉注射的pYSM被动归巢至胰腺肿瘤异种移植物，在10戈瑞照射后，导致显著的肿瘤消退（<0.01）。将XPDT与抗PD1免疫疗法相结合时，远处未照射的肿瘤也会通过肿瘤内活化的CD8细胞毒性T细胞增加而消退。总体而言，我们提出了一种全身递送的XPDT策略，当与免疫疗法联合使用时，该策略在照射和未照射（远隔效应）的肿瘤中均介导抗肿瘤作用，将免疫“冷”肿瘤转化为免疫“热”肿瘤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c5d/11939067/f82f08f20cb8/sciadv.adr4008-f1.jpg

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低剂量X射线照射下掺杂氧化钇纳米闪烁体的全身抗肿瘤免疫反应

Systemic antitumor immune response of doped yttria nanoscintillators under low-dose x-ray irradiation.

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