Peptide nanozymes: An emerging direction for functional enzyme mimics

IF 18 1区 医学 Q1 ENGINEERING, BIOMEDICAL
Shaobin He , Long Ma , Qionghua Zheng , Zhuoran Wang , Wei Chen , Zihang Yu , Xiyun Yan , Kelong Fan
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Abstract

The abundance of molecules on early Earth likely enabled a wide range of prebiotic chemistry, with peptides playing a key role in the development of early life forms and the evolution of metabolic pathways. Among peptides, those with enzyme-like activities occupy a unique position between peptides and enzymes, combining both structural flexibility and catalytic functionality. However, their full potential remains largely untapped. Further exploration of these enzyme-like peptides at the nanoscale could provide valuable insights into modern nanotechnology, biomedicine, and even the origins of life. Hence, this review introduces the groundbreaking concept of “peptide nanozymes (PepNzymes)”, which includes single peptides exhibiting enzyme-like activities, peptide-based nanostructures with enzyme-like activities, and peptide-based nanozymes, thus enabling the investigation of biological phenomena at nanoscale dimensions. Through the rational design of enzyme-like peptides or their assembly with nanostructures and nanozymes, researchers have found or created PepNzymes capable of catalyzing a wide range of reactions. By scrutinizing the interactions between the structures and enzyme-like activities of PepNzymes, we have gained valuable insights into the underlying mechanisms governing enzyme-like activities. Generally, PepNzymes play a crucial role in biological processes by facilitating small-scale enzyme-like reactions, speeding up molecular oxidation-reduction, cleavage, and synthesis reactions, leveraging the functional properties of peptides, and creating a stable microenvironment, among other functions. These discoveries make PepNzymes useful for diagnostics, cellular imaging, antimicrobial therapy, tissue engineering, anti-tumor treatments, and more while pointing out opportunities. Overall, this research provides a significant journey of PepNzymes’ potential in various biomedical applications, pushing them towards new advancements.

Abstract Image

多肽纳米酶:功能性酶模拟的新方向
早期地球上丰富的分子很可能促成了广泛的前生物化学,其中肽在早期生命形式的发展和新陈代谢途径的进化中发挥了关键作用。在多肽中,具有类似酶活性的多肽在多肽和酶之间占据着独特的位置,兼具结构灵活性和催化功能。然而,它们的全部潜力在很大程度上仍未得到开发。在纳米尺度上进一步探索这些类酶肽,可以为现代纳米技术、生物医学甚至生命起源提供宝贵的见解。因此,本综述提出了 "肽纳米酶(PepNzymes)"这一突破性概念,其中包括具有类酶活性的单一肽、具有类酶活性的肽基纳米结构和肽基纳米酶,从而能够在纳米尺度上研究生物现象。通过合理设计类酶肽或将其与纳米结构和纳米酶组装,研究人员发现或创造了能够催化多种反应的 PepNzymes。通过仔细研究 PepNzymes 的结构与类酶活性之间的相互作用,我们对类酶活性的内在机制有了宝贵的认识。一般来说,PepNzymes 通过促进小规模类酶反应、加速分子氧化还原、裂解和合成反应、利用肽的功能特性以及创造稳定的微环境等功能,在生物过程中发挥着至关重要的作用。这些发现使 PepNzymes 在诊断、细胞成像、抗菌治疗、组织工程、抗肿瘤治疗等方面大有用武之地,同时也指出了机遇所在。总之,这项研究为 PepNzymes 在各种生物医学应用中的潜力提供了一次重要的探索之旅,推动它们取得新的进展。
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来源期刊
Bioactive Materials
Bioactive Materials Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
28.00
自引率
6.30%
发文量
436
审稿时长
20 days
期刊介绍: Bioactive Materials is a peer-reviewed research publication that focuses on advancements in bioactive materials. The journal accepts research papers, reviews, and rapid communications in the field of next-generation biomaterials that interact with cells, tissues, and organs in various living organisms. The primary goal of Bioactive Materials is to promote the science and engineering of biomaterials that exhibit adaptiveness to the biological environment. These materials are specifically designed to stimulate or direct appropriate cell and tissue responses or regulate interactions with microorganisms. The journal covers a wide range of bioactive materials, including those that are engineered or designed in terms of their physical form (e.g. particulate, fiber), topology (e.g. porosity, surface roughness), or dimensions (ranging from macro to nano-scales). Contributions are sought from the following categories of bioactive materials: Bioactive metals and alloys Bioactive inorganics: ceramics, glasses, and carbon-based materials Bioactive polymers and gels Bioactive materials derived from natural sources Bioactive composites These materials find applications in human and veterinary medicine, such as implants, tissue engineering scaffolds, cell/drug/gene carriers, as well as imaging and sensing devices.
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