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从天然血红蛋白中合成的 Fe 掺杂过氧化物酶模拟纳米酶用于比色生物传感和体外抗癌作用。

Synthesis of Fe-Doped Peroxidase Mimetic Nanozymes from Natural Hemoglobin for Colorimetric Biosensing and In Vitro Anticancer Effects.

机构信息

Biomaterials and Tissue Engineering Department, Breast Cancer Research Center, Motamed Cancer Institute, ACECR, Tehran 1517964311, Iran.

Department of Mechanical Engineering (BK21 Four), College of Engineering, Kyung Hee University, Yongin 17104, Republic of Korea.

出版信息

Biosensors (Basel). 2023 May 27;13(6):583. doi: 10.3390/bios13060583.

DOI:10.3390/bios13060583
PMID:37366948
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10296309/
Abstract

Despite their efficiency and specificity, the instability of natural enzymes in harsh conditions has inspired researchers to replace them with nanomaterials. In the present study, extracted hemoglobin from blood biowastes was hydrothermally converted to catalytically active carbon nanoparticles (BDNPs). Their application as nanozymes for the colorimetric biosensing of HO and glucose and selective cancer cell-killing ability was demonstrated. Particles that were prepared at 100 °C (BDNP-100) showed the highest peroxidase mimetic activity, with Michaelis-Menten constants (K) of 11.8 mM and 0.121 mM and maximum reaction rates (V) of 8.56 × 10 mol L s and 0.538 × 10 mol L s, for HO and TMB, respectively. The cascade catalytic reactions, catalyzed by glucose oxidase and BDNP-100, served as the basis for the sensitive and selective colorimetric glucose determination. A linear range of 50-700 µM, a response time of 4 min, a limit of detection (3σ/N) of 40 µM, and a limit of quantification (10σ/N) of 134 µM was achieved. In addition, the reactive oxygen species (ROS)-generating ability of BDNP-100 was employed for evaluating its potential in cancer therapy. Human breast cancer cells (MCF-7), in the forms of monolayer cell cultures and 3D spheroids, were studied by MTT, apoptosis, and ROS assays. The in vitro cellular experiments showed dose-dependent cytotoxicity of BDNP-100 toward MCF-7 cells in the presence of 50 µM of exogenous HO. However, no obvious damage was induced to normal cells in the same experimental conditions, verifying the selective cancer cell-killing ability of BDNP-100.

摘要

尽管天然酶在苛刻条件下的不稳定性限制了它们的应用,但这也激发了研究人员用纳米材料来替代它们。在本研究中,从血液生物废物中提取的血红蛋白经水热转化为具有催化活性的碳纳米颗粒(BDNPs)。并证明了它们作为纳米酶在 HO 和葡萄糖的比色生物传感和选择性杀伤癌细胞方面的应用。在 100°C 下制备的颗粒(BDNP-100)表现出最高的过氧化物酶模拟活性,对 HO 和 TMB 的米氏常数(K)分别为 11.8 mM 和 0.121 mM,最大反应速率(V)分别为 8.56×10 mol L s 和 0.538×10 mol L s。葡萄糖氧化酶和 BDNP-100 催化的级联催化反应为灵敏和选择性比色葡萄糖测定提供了基础。实现了 50-700 μM 的线性范围、4 分钟的响应时间、40 μM 的检测限(3σ/N)和 134 μM 的定量限(10σ/N)。此外,BDNP-100 的活性氧(ROS)生成能力被用于评估其在癌症治疗中的潜力。通过 MTT、凋亡和 ROS 测定,研究了单层细胞培养物和 3D 球体形式的人乳腺癌细胞(MCF-7)。体外细胞实验表明,在存在 50 μM 外源 HO 的情况下,BDNP-100 对 MCF-7 细胞具有剂量依赖性的细胞毒性。然而,在相同的实验条件下,对正常细胞没有明显的损伤,验证了 BDNP-100 的选择性杀伤癌细胞的能力。

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