化疗剂量影响癌症细胞上免疫相互作用标记物的表达。

IF 2.3 4区 医学 Q3 BIOPHYSICS
Cellular and molecular bioengineering Pub Date : 2022-10-01 eCollection Date: 2022-12-01 DOI:10.1007/s12195-022-00742-y
Alexander J Najibi, Kerry Larkin, Zhaoqianqi Feng, Nicholas Jeffreys, Mason T Dacus, Yashika Rustagi, F Stephen Hodi, David J Mooney
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引用次数: 0

摘要

简介:肿瘤和免疫细胞通过多种细胞表面蛋白相互作用,这些蛋白可以抑制或促进肿瘤进展。细胞毒性化疗剂量和给药途径对这种相互作用的影响仍不完全清楚,可能有助于开发更有效的癌症联合疗法。方法和结果:在体外,我们发现接触蒽环类药物多柔比星以剂量依赖性方式改变了活黑色素瘤、癌症和白血病细胞上许多免疫相互作用标志物(MHC-I、PD-L1、PD-L2、CD47、Fas和钙网织蛋白)的表达。值得注意的是,中等剂量最好地诱导免疫原性细胞死亡和免疫激活标记物的表达,而不使与免疫抑制相关的标记物的最大化表达。暴露于用中等剂量的阿霉素处理的表达卵清蛋白的黑色素瘤的骨髓来源的树突状细胞被激活并最佳地呈递肿瘤抗原。在小鼠黑色素瘤模型中,阿霉素的剂量和递送位置(全身输注与局部给药)都会影响这些标志物在活肿瘤细胞上的表达。特别是,阿霉素从水凝胶中的局部释放增加了钙网蛋白在肿瘤细胞上的表达,而没有诱导免疫抑制标记物,其方式取决于负载剂量。阿霉素暴露也改变了患者来源的黑色素瘤细胞中免疫相互作用标志物的表达。结论:这些结果共同说明了当以各种方式给予标准护理化疗时,如何导致癌症细胞上免疫原性标志物的不同表达。这些发现可能为癌症化学免疫治疗组合的发展提供信息。补充信息:在线版本包含补充材料,请访问10.1007/s12195-022-00742-y。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Chemotherapy Dose Shapes the Expression of Immune-Interacting Markers on Cancer Cells.

Chemotherapy Dose Shapes the Expression of Immune-Interacting Markers on Cancer Cells.

Introduction: Tumor and immune cells interact through a variety of cell-surface proteins that can either restrain or promote tumor progression. The impacts of cytotoxic chemotherapy dose and delivery route on this interaction profile remain incompletely understood, and could support the development of more effective combination therapies for cancer treatment.

Methods and results: Here, we found that exposure to the anthracycline doxorubicin altered the expression of numerous immune-interacting markers (MHC-I, PD-L1, PD-L2, CD47, Fas, and calreticulin) on live melanoma, breast cancer, and leukemia cells in a dose-dependent manner in vitro. Notably, an intermediate dose best induced immunogenic cell death and the expression of immune-activating markers without maximizing expression of markers associated with immune suppression. Bone marrow-derived dendritic cells exposed to ovalbumin-expressing melanoma treated with intermediate doxorubicin dose became activated and best presented tumor antigen. In a murine melanoma model, both the doxorubicin dose and delivery location (systemic infusion versus local administration) affected the expression of these markers on live tumor cells. Particularly, local release of doxorubicin from a hydrogel increased calreticulin expression on tumor cells without inducing immune-suppressive markers, in a manner dependent on the loaded dose. Doxorubicin exposure also altered the expression of immune-interacting markers in patient-derived melanoma cells.

Conclusions: Together, these results illustrate how standard-of-care chemotherapy, when administered in various manners, can lead to distinct expression of immunogenic markers on cancer cells. These findings may inform development of chemo-immunotherapy combinations for cancer treatment.

Supplementary information: The online version contains supplementary material available at 10.1007/s12195-022-00742-y.

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来源期刊
CiteScore
5.60
自引率
3.60%
发文量
30
审稿时长
>12 weeks
期刊介绍: The field of cellular and molecular bioengineering seeks to understand, so that we may ultimately control, the mechanical, chemical, and electrical processes of the cell. A key challenge in improving human health is to understand how cellular behavior arises from molecular-level interactions. CMBE, an official journal of the Biomedical Engineering Society, publishes original research and review papers in the following seven general areas: Molecular: DNA-protein/RNA-protein interactions, protein folding and function, protein-protein and receptor-ligand interactions, lipids, polysaccharides, molecular motors, and the biophysics of macromolecules that function as therapeutics or engineered matrices, for example. Cellular: Studies of how cells sense physicochemical events surrounding and within cells, and how cells transduce these events into biological responses. Specific cell processes of interest include cell growth, differentiation, migration, signal transduction, protein secretion and transport, gene expression and regulation, and cell-matrix interactions. Mechanobiology: The mechanical properties of cells and biomolecules, cellular/molecular force generation and adhesion, the response of cells to their mechanical microenvironment, and mechanotransduction in response to various physical forces such as fluid shear stress. Nanomedicine: The engineering of nanoparticles for advanced drug delivery and molecular imaging applications, with particular focus on the interaction of such particles with living cells. Also, the application of nanostructured materials to control the behavior of cells and biomolecules.
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