Significantly enhanced capture efficiency of cell-imprinted material for circulating tumor cells via a flexible and ultra-strong double-armed phenylboronic acid design

IF 12.8 1区医学 Q1 ENGINEERING, BIOMEDICAL

Biomaterials Pub Date : 2025-05-09 DOI:10.1016/j.biomaterials.2025.123397

Wenjing Sun , Xinmiao Zhao , Xinjia Zhao , Lingkai Meng , Mingliang Tang , Jiaqi Li , Yongxin Chang , Yuting Xiong , Hao Wang , Jinghua Chen , Guangyan Qing

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引用次数: 0

Abstract

Circulating tumor cells (CTC) have been incontrovertibly regarded as a critically essential detection tool within the realm of cancer combat, being decidedly preferred by oncology clinicians and serving as the preponderant primary targets for single-cell analysis. However, several challenges hinder the effective capture of CTC from blood, including their rarity, heterogeneity across cancer types, the complexity of the blood environment, and potential damage to cell viability. Here we design a flexible double-armed phenylboric acid (DPBA) that targets double-branched sialylated glycans (SGs) on the surface of liver CTC. The binding affinity of DPBA (200 nM) is 33 times greater than that of typical phenylboric acid, as confirmed by glycoproteomics analysis demonstrating a strong prevalence for SGs. By copolymerization of DPBA with polyethylene glycol dimethacrylate (PEGDMA), using SMMC-7721 cells as templates, we developed a cell-imprinted hydrogel featuring compact polymeric networks interconnected by both chemical crosslinking and hydrogen bonding. This hydrogel exhibits an ultra-low swelling capacity of 5 %, effectively preserving the nano- and micro-morphologies of cell imprinting. It also demonstrates low protein adhesion, appropriate elasticity and reversibility, as well as satisfactory blood and cell compatibility. The high affinity for double-branched SGs and clear cell imprinting endow the material with precise capture efficiency for CTC, enabling accurate discrimination between liver cancer patients and healthy individuals, with an excellent area under the curve (AUC) of 0.99 and a high classification accuracy of 96 %. Importantly, the captured CTC could be released alive for genomics analysis. The material costs just 1.98 dollars per sample, which is only 1/200th of the typical medical price. This study highlights the significant potential of flexible double-armed molecular design in the development of CTC capture materials, which will promote downstream single-cell multi-proteomics analysis and facilitate early cancer diagnostics.

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通过柔性和超强的双臂苯硼酸设计，显著提高了循环肿瘤细胞细胞印迹材料的捕获效率

循环肿瘤细胞（CTC）被认为是抗癌领域中至关重要的检测工具，是肿瘤临床医生的首选，也是单细胞分析的主要目标，这一点毋庸置疑。然而，一些挑战阻碍了从血液中有效捕获CTC，包括它们的稀有性、不同癌症类型的异质性、血液环境的复杂性以及对细胞活力的潜在损害。本文设计了一种柔性的双臂苯硼酸（DPBA），其靶向肝脏CTC表面的双支唾液化聚糖（SGs）。糖蛋白组学分析证实，DPBA （200 nM）的结合亲和力是典型苯硼酸的33倍。通过将DPBA与聚乙二醇二甲基丙烯酸酯（PEGDMA）共聚，以SMMC-7721细胞为模板，我们开发了一种细胞印迹水凝胶，其具有紧凑的聚合物网络，通过化学交联和氢键相互连接。该水凝胶具有5%的超低膨胀能力，有效地保留了细胞印迹的纳米和微观形态。它还具有低蛋白质粘附性，适当的弹性和可逆性，以及令人满意的血液和细胞相容性。对双支SGs的高亲和力和清晰的细胞印迹使该材料对CTC具有精确的捕获效率，能够准确区分肝癌患者和健康个体，曲线下面积（AUC）为0.99，分类准确率为96%。重要的是，捕获的CTC可以被活着释放用于基因组学分析。每个样品的材料成本仅为1.98美元，仅为典型医疗价格的1/200。本研究强调了柔性双臂分子设计在CTC捕获材料开发中的巨大潜力，这将促进下游单细胞多蛋白质组学分析和促进早期癌症诊断。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomaterials 工程技术-材料科学：生物材料

CiteScore

26.00

自引率

2.90%

发文量

565

审稿时长

46 days

期刊介绍： Biomaterials is an international journal covering the science and clinical application of biomaterials. A biomaterial is now defined as a substance that has been engineered to take a form which, alone or as part of a complex system, is used to direct, by control of interactions with components of living systems, the course of any therapeutic or diagnostic procedure. It is the aim of the journal to provide a peer-reviewed forum for the publication of original papers and authoritative review and opinion papers dealing with the most important issues facing the use of biomaterials in clinical practice. The scope of the journal covers the wide range of physical, biological and chemical sciences that underpin the design of biomaterials and the clinical disciplines in which they are used. These sciences include polymer synthesis and characterization, drug and gene vector design, the biology of the host response, immunology and toxicology and self assembly at the nanoscale. Clinical applications include the therapies of medical technology and regenerative medicine in all clinical disciplines, and diagnostic systems that reply on innovative contrast and sensing agents. The journal is relevant to areas such as cancer diagnosis and therapy, implantable devices, drug delivery systems, gene vectors, bionanotechnology and tissue engineering.