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基于CD26靶向和HSP90抑制的磁性纳米平台设计,用于通过凋亡和铁死亡介导消除衰老细胞

Design of a Magnetic Nanoplatform Based on CD26 Targeting and HSP90 Inhibition for Apoptosis and Ferroptosis-Mediated Elimination of Senescent Cells.

作者信息

Wnuk Maciej, Del Sol-Fernández Susel, Błoniarz Dominika, Słaby Julia, Szmatoła Tomasz, Żebrowski Michał, Martínez-Vicente Pablo, Litwinienko Grzegorz, Moros María, Lewińska Anna

机构信息

Institute of Biotechnology, College of Natural Sciences, University of Rzeszow, Pigonia 1, Rzeszow 35-310, Poland.

Instituto de Nanociencia y Materiales de Aragón, INMA (CSIC-Universidad de Zaragoza), C/Pedro Cerbuna 12, Zaragoza 50009, Spain.

出版信息

ACS Biomater Sci Eng. 2025 Jan 13;11(1):280-297. doi: 10.1021/acsbiomaterials.4c00771. Epub 2024 Dec 4.

DOI:10.1021/acsbiomaterials.4c00771
PMID:39631769
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11733919/
Abstract

The accumulation of senescent cells, a hallmark of aging and age-related diseases, is also considered as a side effect of anticancer therapies, promoting drug resistance and leading to treatment failure. The use of senolytics, selective inducers of cell death in senescent cells, is a promising pharmacological antiaging and anticancer approach. However, more studies are needed to overcome the limitations of first-generation senolytics by the design of targeted senolytics and nanosenolytics and the validation of their usefulness in biological systems. In the present study, we have designed a nanoplatform composed of iron oxide nanoparticles functionalized with an antibody against a cell surface marker of senescent cells (CD26), and loaded with the senolytic drug HSP90 inhibitor 17-DMAG (MNP@CD26@17D). We have documented its action against oxidative stress-induced senescent human fibroblasts, WI-38 and BJ cells, and anticancer drug-induced senescent cutaneous squamous cell carcinoma A431 cells, demonstrating for the first time that CD26 is a valid marker of senescence in cancer cells. A dual response to MNP@CD26@17D stimulation in senescent cells was revealed, namely, apoptosis-based early response (2 h treatment) and ferroptosis-based late response (24 h treatment). MNP@CD26@17D-mediated ferroptosis might be executed by ferritinophagy as judged by elevated levels of the ferritinophagy marker NCOA4 and a decreased pool of ferritin. As 24 h treatment with MNP@CD26@17D did not induce hemolysis in human erythrocytes , this newly designed nanoplatform could be considered as an optimal multifunctional tool to target and eliminate senescent cells of skin origin, overcoming their apoptosis resistance.

摘要

衰老细胞的积累是衰老和与年龄相关疾病的一个标志,也被认为是抗癌治疗的一种副作用,会促进耐药性并导致治疗失败。使用衰老细胞溶解剂(衰老细胞中细胞死亡的选择性诱导剂)是一种很有前景的抗衰老和抗癌药理学方法。然而,需要更多的研究来克服第一代衰老细胞溶解剂的局限性,方法是设计靶向衰老细胞溶解剂和纳米衰老细胞溶解剂,并验证它们在生物系统中的有效性。在本研究中,我们设计了一种纳米平台,该平台由用针对衰老细胞表面标志物(CD26)的抗体功能化的氧化铁纳米颗粒组成,并负载有衰老细胞溶解药物HSP90抑制剂17-DMAG(MNP@CD26@17D)。我们记录了其对氧化应激诱导的衰老人类成纤维细胞WI-38和BJ细胞以及抗癌药物诱导的衰老皮肤鳞状细胞癌A431细胞的作用,首次证明CD26是癌细胞衰老的有效标志物。揭示了衰老细胞对MNP@CD26@17D刺激的双重反应,即基于细胞凋亡的早期反应(2小时处理)和基于铁死亡的晚期反应(24小时处理)。从铁自噬标志物NCOA4水平升高和铁蛋白池减少判断,MNP@CD26@17D介导的铁死亡可能通过铁自噬执行。由于用MNP@CD26@17D处理24小时未诱导人红细胞溶血,这种新设计的纳米平台可被视为一种最佳的多功能工具,用于靶向和消除皮肤来源的衰老细胞,克服它们的凋亡抗性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e504/11733919/6aa4fb19eb33/ab4c00771_0007.jpg
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