铂尔定：一种高效的抗癌铂(II)配合物，可诱导内质网应激驱动的免疫原性细胞死亡。

PlatinER: A Highly Potent Anticancer Platinum(II) Complex that Induces Endoplasmic Reticulum Stress Driven Immunogenic Cell Death.

机构信息

NUS Graduate School for Integrative Sciences and Engineering, National University of Singapore, 21 Lower Kent Ridge Road, 119077, Singapore, Singapoare.

Department of Chemistry, National University of Singapore, 3 Science Drive 2, 117543, Singapore, Singapore.

出版信息

Angew Chem Int Ed Engl. 2020 Oct 19;59(43):19070-19078. doi: 10.1002/anie.202008604. Epub 2020 Sep 17.

DOI:10.1002/anie.202008604

PMID:32716112

Abstract

Immunogenic cell death (ICD) is a rare immunostimulatory form of cell death that can improve the clinical outcomes of chemo-immunotherapeutic combination regimens through the establishment of a long-term cancer immunity. None of the clinically used DNA-binding Pt complexes is considered a Type II ICD inducer. We generated a series of Pt -carbene complexes by applying minor structural alterations to the scaffold of a Type II ICD inducer Pt-NHC and compared their efficiency in triggering ICD-related cellular responses and phagocytosis. We successfully identified PlatinER, a novel highly potent Pt candidate with superior ICD properties. Crucially, the magnitude of ICD-associated phagocytosis induced upon exposure of cancer cells to Pt complexes was dependent on the levels of ER-localized reactive oxygen species (ROS) generation, which underpins their mechanisms of action and provides a feasible approach for the design of more effective Type II ICD inducers.

摘要

免疫原性细胞死亡（ICD）是一种罕见的免疫刺激性细胞死亡形式，通过建立长期的癌症免疫，可以改善化疗免疫联合治疗方案的临床效果。目前临床使用的 DNA 结合型铂配合物都不被认为是 II 型 ICD 诱导剂。我们通过对 II 型 ICD 诱导剂 Pt-NHC 支架进行微小结构改变，生成了一系列 Pt-卡宾配合物，并比较了它们触发 ICD 相关细胞反应和吞噬作用的效率。我们成功地鉴定出 PlatinER，这是一种新型高效的 Pt 候选物，具有优越的 ICD 特性。至关重要的是，癌细胞暴露于铂配合物后诱导的 ICD 相关吞噬作用的程度取决于 ER 定位的活性氧（ROS）生成水平，这为它们的作用机制提供了依据，并为设计更有效的 II 型 ICD 诱导剂提供了一种可行的方法。

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铂尔定：一种高效的抗癌铂(II)配合物，可诱导内质网应激驱动的免疫原性细胞死亡。

PlatinER: A Highly Potent Anticancer Platinum(II) Complex that Induces Endoplasmic Reticulum Stress Driven Immunogenic Cell Death.

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