National Engineering Research Center for Nanomedicine, College of Life Science and Technology, Huazhong University of Science and Technology, Wuhan, 430074, P. R. China.
Nanoscale. 2021 Jun 14;13(22):9989-10001. doi: 10.1039/d1nr01552d. Epub 2021 Jun 2.
Photodynamic therapy (PDT) is frequently used in cancer treatment in clinical settings. However, its applications in stroma-rich solid tumors, e.g., triple negative breast cancer, are limited by abnormal mechanical microenvironments. Solid stress accumulated in stroma-rich solid tumors compresses tumor blood vessels, hampers the delivery of photosensitizers (PSs) in tumor tissues, and poses a major challenge for potent PDT. Here, we report a novel combination strategy to augment PDT based cancer therapy by combining hydroxyethyl starch-chlorin e6 conjugate self-assembled nanoparticles (HES-Ce6 NPs) with the transforming growth factor-β (TGFβ) inhibitor LY2157299 (LY). HES-Ce6 conjugates, as synthesized by one step esterification reaction, could self-assemble into uniform HES-Ce6 NPs, which exhibited enhanced photostability and generated more reactive oxygen species (ROS) under 660 nm laser irradiation than free Ce6. Prior to PDT, intragastric administration of LY decreased collagen deposition, alleviated solid stress, and decompressed tumor blood vessels. As a result, the reconstructed tumor mechanical microenvironment promoted accumulation and penetration of HES-Ce6 NPs into tumor tissues, contributing to augmented antitumor efficacy of HES-Ce6 NP mediated PDT. Modulating tumor mechanical microenvironments using TGFβ blockade to enhance the delivery of PSs in tumors with excessive extracellular matrix represents an efficient strategy for treating stroma-rich solid tumors.
光动力疗法(PDT)在临床环境中常用于癌症治疗。然而,其在基质丰富的实体瘤(如三阴性乳腺癌)中的应用受到异常机械微环境的限制。基质丰富的实体瘤中积累的固体应力压缩肿瘤血管,阻碍肿瘤组织中光敏剂(PS)的输送,对有效的 PDT 构成重大挑战。在这里,我们报告了一种新的联合策略,通过将羟乙基淀粉-氯己定缀合物自组装纳米颗粒(HES-Ce6 NPs)与转化生长因子-β(TGFβ)抑制剂 LY2157299(LY)结合,增强基于 PDT 的癌症治疗。通过一步酯化反应合成的 HES-Ce6 缀合物可以自组装成均匀的 HES-Ce6 NPs,与游离 Ce6 相比,其在 660nm 激光照射下表现出增强的光稳定性并产生更多的活性氧(ROS)。在 PDT 之前,胃内给予 LY 可减少胶原沉积,减轻固体应力并减轻肿瘤血管的压力。结果,重建的肿瘤机械微环境促进了 HES-Ce6 NPs 进入肿瘤组织的积累和渗透,增强了 HES-Ce6 NP 介导的 PDT 的抗肿瘤疗效。使用 TGFβ 阻断来调节肿瘤机械微环境,以增强对富含细胞外基质的肿瘤中 PS 的输送,代表了治疗基质丰富的实体瘤的一种有效策略。
