Mimic miRNA and Anti-miRNA Activated Scaffolds as a Therapeutic Strategy to Promote Bone, Cartilage, and Skin Regeneration

Macromol Pub Date : 2024-04-01 DOI:10.3390/macromol4020009
G. Guelfi, Camilla Capaccia, Polina Anipchenko, Francesco Ciancabilla, Oommen P. Oommen, A. Bufalari, Massimo Zerani, M. Maranesi
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Abstract

MiRNA-based therapies represent an innovative and promising strategy applicable to various medical fields, such as tissue regeneration and the treatment of numerous diseases, including cancer, cardiovascular problems, and viral infections. MiRNAs, a group of small non-coding RNAs, play a critical role in regulating gene expression at the post-transcriptional level and modulate several signaling pathways that maintain cellular and tissue homeostasis. The clinical trials discussed in the review herald a new therapeutic era for miRNAs, particularly in tissue engineering, using synthetic exogenous mimic miRNAs and antisense miRNAs (anti-miRNAs) to restore tissue health. This review provides an overview of miRNAs’ biogenesis, mechanism of action, regulation, and potential applications, followed by an examination of the challenges associated with the transport and delivery of therapeutic miRNAs. The possibility of using viral and non-viral vectors that protect against degradation and ensure effective miRNA delivery is highlighted, focusing on the advantages of the emerging use of 3D biomaterial scaffolds for the delivery of mimic miRNAs and anti-miRNAs to facilitate tissue repair and regeneration. Finally, the review assesses the current landscape of miRNA-activated scaffold therapies on preclinical and clinical studies in bone, cartilage, and skin tissues, emphasizing their emergence as a promising frontier in personalized medicine.
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模拟 miRNA 和抗 miRNA 激活支架作为促进骨骼、软骨和皮肤再生的治疗策略
基于 MiRNA 的疗法是一种创新且前景广阔的策略,适用于多个医学领域,如组织再生和多种疾病的治疗,包括癌症、心血管问题和病毒感染。MiRNA 是一类小型非编码 RNA,在转录后水平的基因表达调控中发挥着关键作用,并能调节维持细胞和组织稳态的多种信号通路。综述中讨论的临床试验预示着 miRNA 的新治疗时代即将到来,特别是在组织工程中,利用合成的外源模拟 miRNA 和反义 miRNA(anti-miRNA)来恢复组织健康。本综述概述了 miRNAs 的生物发生、作用机制、调控和潜在应用,然后探讨了与治疗用 miRNAs 的运输和递送相关的挑战。文章强调了利用病毒和非病毒载体防止降解并确保有效递送 miRNA 的可能性,重点介绍了新出现的利用三维生物材料支架递送模拟 miRNA 和抗 miRNA 以促进组织修复和再生的优势。最后,综述评估了目前在骨、软骨和皮肤组织中进行的临床前和临床研究中 miRNA 激活支架疗法的现状,强调其已成为个性化医学中前景广阔的前沿领域。
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