School of Pharmaceutical Sciences, Beijing Advanced Innovation Center for Structural Biology, and Key Laboratory of Bioorganic Phosphorus Chemistry & Chemical Biology (Ministry of Education), Tsinghua University, Beijing, 100084, PR China.
School of Pharmaceutical Sciences, Beijing Advanced Innovation Center for Structural Biology, and Key Laboratory of Bioorganic Phosphorus Chemistry & Chemical Biology (Ministry of Education), Tsinghua University, Beijing, 100084, PR China; Quaerite Biopharm Research, Beijing, 100195, PR China.
Cancer Lett. 2022 Jul 28;539:215718. doi: 10.1016/j.canlet.2022.215718. Epub 2022 May 5.
Pancreatic ductal adenocarcinoma (PDAC) is characterized by a highly desmoplastic tumor microenvironment (TME) consisting of abundant activated pancreatic stellate cells (PSCs). PSCs play a key role in the refractory responses of PDAC to immunotherapy and chemotherapy and deactivating PSCs into quiescence through vitamin D receptor (VDR) signaling activation is a promising strategy for PDAC treatment. We observed p62 loss in PSCs hindered the deactivation efficacy of VDR ligands, and hypothesized that reversing p62 levels by inhibiting autophagy processing, which is responsible for p62 loss, could sensitize PSCs toward VDR ligands. Herein, we constructed a PSC deactivator with dual functions of VDR activation and autophagy inhibition, utilizing a pH-buffering micelle (LBM) with an inherent ability to block autophagic flux to encapsulate calcipotriol (Cal), a VDR ligand. This Cal-loaded LBM (C-LBM) could efficiently reprogram PSCs, modulate the fibrotic TME, and alter immunosuppression. In combination with PD-1 antagonists and chemotherapy, C-LBM showed superior antitumor efficacy and significantly prolonged the survival of PDAC mice. These findings suggest that synergistic autophagy blockade and VDR signaling activation are promising therapeutic approaches to reprogram PSCs and improve the PDAC response to immunotherapy.
胰腺导管腺癌 (PDAC) 的特征是高度纤维瘤性肿瘤微环境 (TME),其中含有丰富的活化胰腺星状细胞 (PSC)。PSC 在 PDAC 对免疫疗法和化学疗法的难治性反应中发挥关键作用,通过维生素 D 受体 (VDR) 信号激活使 PSC 失活是 PDAC 治疗的一种有前途的策略。我们观察到 PSC 中的 p62 缺失会阻碍 VDR 配体的失活效果,因此假设通过抑制自噬处理来逆转 p62 水平(自噬处理负责 p62 的缺失),可以使 PSC 对 VDR 配体敏感。在此,我们构建了一种具有 VDR 激活和自噬抑制双重功能的 PSC 失活剂,利用具有内在阻断自噬流能力的 pH 缓冲胶束 (LBM) 来封装 VDR 配体钙泊三醇 (Cal)。这种负载 Cal 的 LBM (C-LBM) 可以有效地重编程 PSC,调节纤维性 TME,并改变免疫抑制。与 PD-1 拮抗剂和化疗联合使用时,C-LBM 表现出优异的抗肿瘤疗效,并显著延长了 PDAC 小鼠的生存时间。这些发现表明,协同自噬阻断和 VDR 信号激活是重编程 PSC 并改善 PDAC 对免疫疗法反应的有前途的治疗方法。
