Nanobiocatalysts and Nanozymes: Enzyme-Inspired Nanomaterials for Industrial and Biomedical Applications

IF 3 4区医学 Q2 PHARMACOLOGY & PHARMACY

Critical Reviews in Therapeutic Drug Carrier Systems Pub Date : 2024-05-01 DOI:10.1615/critrevtherdrugcarriersyst.2024051171

Sarika Gupta, Meenu Kumari, Koyel Panja, Priyanka Bajaj, Kalpana Nagpal

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Abstract

Enzymes play a pivotal role in the human body, but their potential is not limited to just that. Scientists have successfully modified these enzymes as nanobiocatalysts or nanozymes for industrial or commercial use, either in the food, medicine, biotech, or even textile industries. These nanobiocatalysts and nanozymes offer several advantages over enzymes, like better stability, improved shelf-life, increased percentage yield, and reuse potential, which is very difficult with normal enzymes. The various techniques of NBC synthesis using immobilization techniques like adsorption, covalent binding, affinity immobilization, and entrapment methods are briefly discussed. The enzymes are either entrapped or adsorbed on the nanocarrier matrices, which can be nanofibers, nanoporous carriers, or nanocontainers as nanobiocatalysts. We also highlight the challenges the nanobiocatalyst overcomes in the industrial production of some drugs like sitagliptin, montelukast, pregabalin, and atorvastatin. Also, the inactivation of an organophosphate or opioid poisoning treating agent, SSOPOX nanohybrid, is discussed in this paper. Nanozymes are intrinsic enzyme-like compounds, and they also show wide application in themselves. Their GQD/AGNP nanohybrid shows antibacterial potential; they can also be utilized in optical sensing to detect small molecules, ions, nucleic acids, proteins, and cancer cells. In this paper, various applications of these NBCs have been discussed, and their potential applications with examples are also mentioned.

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纳米生物催化剂和纳米酶：用于工业和生物医学应用的酶启发纳米材料

酶在人体中发挥着举足轻重的作用，但其潜力并不仅限于此。科学家们已经成功地将这些酶改造成纳米生物催化剂或纳米酶，用于食品、医药、生物技术甚至纺织工业等工业或商业用途。与酶相比，这些纳米生物催化剂和纳米酶具有一些优势，如稳定性更好、保质期更长、产量百分比更高以及具有重复使用的潜力，而这是普通酶很难做到的。本文简要讨论了利用吸附、共价结合、亲和固定和夹持等固定化技术合成 NBC 的各种技术。酶被夹带或吸附在纳米载体基质上，纳米载体可以是纳米纤维、纳米多孔载体或纳米容器，作为纳米生物催化剂。我们还重点介绍了纳米生物催化剂在西格列汀、孟鲁司特、普瑞巴林和阿托伐他汀等药物的工业化生产中所克服的挑战。此外，本文还讨论了有机磷或阿片类中毒治疗药物 SSOPOX 纳米混合体的灭活问题。纳米酶是一种固有的类酶化合物，其本身也具有广泛的应用前景。其 GQD/AGNP 纳米杂化物具有抗菌潜力，还可用于光学传感，检测小分子、离子、核酸、蛋白质和癌细胞。本文讨论了这些 NBC 的各种应用，并举例说明了它们的潜在应用。

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

Critical Reviews in Therapeutic Drug Carrier Systems 医学-药学

CiteScore

5.50

自引率

18.50%

发文量

审稿时长

>12 weeks

期刊介绍： Therapeutic uses of a variety of drug carrier systems have significant impact on the treatment and potential cure of many chronic diseases, including cancer, diabetes mellitus, psoriasis, parkinsons, Alzheimer, rheumatoid arthritis, HIV infection, infectious diseases, asthma, and drug addiction. Scientific efforts in these areas are multidisciplinary, involving the physical, biological, medical, pharmaceutical, biological materials, and engineering fields. Articles concerning this field appear in a wide variety of journals. With the vast increase in the number of articles and the tendency to fragment science, it becomes increasingly difficult to keep abreast of the literature and to sort out and evaluate the importance and reliability of the data, especially when proprietary considerations are involved. Abstracts and noncritical articles often do not provide a sufficiently reliable basis for proper assessment of a given field without the additional perusal of the original literature. This journal bridges this gap by publishing authoritative, objective, comprehensive multidisciplinary critical review papers with emphasis on formulation and delivery systems. Both invited and contributed articles are subject to peer review.

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