纳米医学中的外泌体:一种治疗烧伤伤口的前景广阔的无细胞疗法。

IF 7.1 2区 医学 Q1 CELL & TISSUE ENGINEERING Stem Cell Research & Therapy Pub Date : 2024-10-09 DOI:10.1186/s13287-024-03970-3
Tasaduq Manzoor, Nida Farooq, Arushi Sharma, Parvaiz A Shiekh, Amreena Hassan, Lateef Ahmad Dar, Junaid Nazir, Meena Godha, Faheem A Sheikh, Mudasir Bashir Gugjoo, Sahar Saleem, Syed Mudasir Ahmad
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引用次数: 0

摘要

烧伤是一种严重伤害,对人的健康有很大影响,甚至可能导致死亡。严重烧伤会引发免疫反应和体内炎症,同时还会导致新陈代谢发生变化。最重要的是,烧伤的影响超出身体范围,会影响心理和整体健康。烧伤造成的变化是长期的,需要加以护理,以提高他们的生活质量。烧伤部位的皮肤再生过程错综复杂,涉及各种细胞、生长因子、神经和血管之间复杂而动态的相互作用。干细胞和再生医学领域出现了令人兴奋的机遇,使我们能够探索开发无细胞替代品,帮助治疗烧伤。这些不含细胞的疗法已成为再生医学中前景广阔的一个方面。外泌体(Exosomes)也被称为天然纳米颗粒,是一种源自内泌体的小囊泡,有助于在细胞间传递分子货物,从而实现细胞间的交流。这一领域的知识不断支持其治疗潜力,特别是在伤口愈合和组织再生领域。值得注意的是,从间充质干细胞(MSCs)中提取的外泌体可在系统中安全给药,然后被成纤维细胞/上皮细胞吸收和内化,随后加速迁移、增殖和胶原蛋白合成等重要过程。此外,免疫细胞(尤其是巨噬细胞)释放的外泌体具有调节炎症的能力,能有效减轻邻近细胞的炎症。外泌体与支架结合后还可作为载体,实现皮肤伤口的无疤痕愈合。本综述探讨了外泌体在烧伤伤口愈合中的作用及其在再生和修复中的潜在用途。
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Exosomes in nanomedicine: a promising cell-free therapeutic intervention in burn wounds.

Burn injuries are serious injuries that have a big impact on a person's health and can even cause death. Incurring severe burns can incite an immune response and inflammation within the body, alongside metabolic changes. It is of utmost importance to grasp the fact that the effects of the burn injury extend beyond the body, affecting the mind and overall well-being. Burn injuries cause long-lasting changes that need to be taken care of in order to improve their quality of life. The intricate process of skin regeneration at the site of a burn wound involves a complex and dynamic interplay among diverse cells, growth factors, nerves, and blood vessels. Exciting opportunities have arisen in the field of stem cells and regenerative medicine, allowing us to explore the development of cell-free-based alternatives that can aid in the treatment of burn injuries. These cell-free-based therapies have emerged as a promising facet within regenerative medicine. Exosomes, also referred to as naturally occurring nanoparticles, are small endosome-derived vesicles that facilitate the delivery of molecular cargo between the cells, thus allowing intercellular communication. The knowledge gained in this field has continued to support their therapeutic potential, particularly in the domains of wound healing and tissue regeneration. Notably, exosomes derived from mesenchymal stem cells (MSCs) can be safely administered in the system, which is then adeptly uptaken and internalized by fibroblasts/epithelial cells, subsequently accelerating essential processes such as migration, proliferation, and collagen synthesis. Furthermore, exosomes released by immune cells, specifically macrophages, possess the capability to modulate inflammation and effectively diminish it in adjacent cells. Exosomes also act as carriers when integrated with a scaffold, leading to scarless healing of cutaneous wounds. This comprehensive review examines the role of exosomes in burn wound healing and their potential utility in regeneration and repair.

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来源期刊
Stem Cell Research & Therapy
Stem Cell Research & Therapy CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
13.20
自引率
8.00%
发文量
525
审稿时长
1 months
期刊介绍: Stem Cell Research & Therapy serves as a leading platform for translational research in stem cell therapies. This international, peer-reviewed journal publishes high-quality open-access research articles, with a focus on basic, translational, and clinical research in stem cell therapeutics and regenerative therapies. Coverage includes animal models and clinical trials. Additionally, the journal offers reviews, viewpoints, commentaries, and reports.
期刊最新文献
Correction: Multi-omics evaluation of clinical-grade human umbilical cord-derived mesenchymal stem cells in synergistic improvement of aging related disorders in a senescence-accelerated mouse model. Different storage and freezing protocols for extracellular vesicles: a systematic review. Inhibition of soluble epoxide hydrolase reverses bone loss in periodontitis by upregulating EMCN and inhibiting osteoclasts. Intravenous injection of BMSCs modulate tsRNA expression and ameliorate lung remodeling in COPD mice. Exosome crosstalk between cancer stem cells and tumor microenvironment: cancer progression and therapeutic strategies.
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