Pancreatic tumor eradication via selective Pin1 inhibition in cancer-associated fibroblasts and T lymphocytes engagement

通过选择性抑制癌相关成纤维细胞和T淋巴细胞中的Pin1来根除胰腺肿瘤

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作者:Jiaye Liu # ,Yang Wang # ,Chunyang Mu # ,Meng Li ,Kewei Li ,Shan Li ,Wenshuang Wu ,Lingyao Du ,Xiaoyun Zhang ,Chuan Li ,Wei Peng ,Junyi Shen ,Yang Liu ,Dujiang Yang ,Kaixiang Zhang ,Qingyang Ning ,Xiaoying Fu ,Yu Zeng ,Yinyun Ni ,Zongguang Zhou ,Yi Liu ,Yiguo Hu ,Xiaofeng Zheng ,Tianfu Wen ,Zhihui Li ,Yong Liu
期刊:Nature Communications影响因子:14.700
时间:2022起止号:2022 Jul 25;13(1):4308.
doi:10.1038/s41467-022-31928-7研究方向: 代谢、肿瘤
疾病类型: 胰腺癌细胞类型: T细胞

Abstract

Cancer associated fibroblasts (CAFs) support tumors via multiple mechanisms, including maintaining the immunosuppressive tumor microenvironment and limiting infiltration of immune cells. The prolyl isomerase Pin1, whose overexpression in CAFs has not been fully profiled yet, plays critical roles in tumor initiation and progression. To decipher effects of selective Pin1 inhibition in CAFs on pancreatic cancer, here we formulate a DNA-barcoded micellular system (DMS) encapsulating the Pin1 inhibitor AG17724. DMS functionalized with CAF-targeting anti-FAP-α antibodies (antiCAFs-DMS) can selectively inhibit Pin1 in CAFs, leading to efficacious but transient tumor growth inhibition. We further integrate DNA aptamers (AptT), which can engage CD8+ T lymphocytes, to obtain a bispecific antiCAFs-DMS-AptT system. AntiCAFs-DMS-AptT inhibits tumor growth in subcutaneous and orthotopic pancreatic cancer models.

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