Small extracellular vesicles derived from mesenchymal stromal cells loaded with β-nicotinamide mononucleotide activate NAD⁺/SIRT3 signaling pathway-mediated mitochondrial autophagy to delay skin aging.

IF 7.1 2区医学 Q1 CELL & TISSUE ENGINEERING

Stem Cell Research & Therapy Pub Date : 2025-07-01 DOI:10.1186/s13287-025-04460-w

Zixuan Sun, Jiali Li, Yuzhou Zheng, Jiaxin Zhang, Wenhuan Bai, Xinyi Deng, Zhijing Wu, XueZhong Xu, Wei Ding, Hui Qian, Yulin Tan

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引用次数: 0

Abstract

Background: Recently, the beneficial effects of human umbilical cord mesenchymal stromal cell (hucMSC)-derived small extracellular vesicles (sEVs) in mitigating skin aging through multiple mechanisms have been widely reported. β-Nicotinamide mononucleotide (NMN) is an iconic anti-aging drug that increases NAD⁺ levels in the body to slow down, ameliorate, and prevent various phenotypes associated with aging, but its high water solubility, low permeability, and instability limit its clinical application. Based on this, we applied electroporation to construct NMN-loaded hucMSC-sEVs (NMN-sEVs) to improve their stability and efficacy and to enhance their potential for translational application in medical aesthetics and anti-aging.

Methods: D-galactose was applied to construct a mouse skin aging model, based on which comparative analyses of topical and nano-microneedle administration were performed to determine the optimal delivery method of sEVs in vivo experiments. After constructing NMN-sEVs by electroporation, high-performance liquid chromatography was applied to detect the loading efficiency, and the effects of NMN-sEVs on delaying skin aging were assessed by histological analysis. In addition, the defense effects of NMN-sEVs against cellular senescence were verified by reactive oxygen species assay, β-galactosidase staining, qRT-PCR, Western blot, and cellular immunofluorescence. Finally, the roles of NMN-sEVs in remodeling mitochondrial function and delaying cellular senescence through mitochondrial autophagy were assessed by mitochondrial mass, function, and autophagy level assays.

Results: Our data suggested that NMN-sEVs could improve skin aging in mice, delay cellular senescence, and restore cellular mitochondrial dysfunction. Notably, NMN-sEVs treatment increased intracellular NAD⁺ levels and SIRT3 expression, as well as rescued the inhibition of senescence-induced mitochondrial autophagy, suggesting a role for NMN-sEVs in the remodeling of mitochondrial function through mitochondrial autophagy. Additionally, the use of the SIRT3 inhibitor 3-TYP suppressed the positive effects of NMN-sEVs on cellular senescence, mitochondrial function, and mitochondrial autophagy while restoring senescence-associated characteristics.

Conclusion: Overall, our findings revealed a mechanism by which NMN-sEVs attenuated mitochondrial dysfunction and rescued cellular senescence by promoting NAD⁺/SIRT3 pathway-mediated mitophagy and might provide a promising strategy for anti-aging pharmaceuticals.

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来自间充质基质细胞的细胞外小泡装载β-烟酰胺单核苷酸，激活NAD+/SIRT3信号通路介导的线粒体自噬，延缓皮肤衰老。

背景：近年来，人脐带间充质间质细胞（hucMSC）来源的细胞外小泡（sEVs）通过多种机制缓解皮肤衰老的有益作用被广泛报道。β-烟酰胺单核苷酸（nicotinamide mononucleotide， NMN）是一种标志性的抗衰老药物，通过增加体内NAD+水平来延缓、改善和预防与衰老相关的各种表型，但其高水溶性、低通透性和不稳定性限制了其临床应用。在此基础上，我们利用电穿孔技术构建nmn负载的hucmsc - sev (nmn - sev)，以提高其稳定性和有效性，并增强其在医学美学和抗衰老方面的转化应用潜力。方法：采用d -半乳糖构建小鼠皮肤衰老模型，在此基础上进行外用给药和纳米微针给药的对比分析，确定sev体内实验的最佳给药方式。电穿孔构建nmn - sev后，采用高效液相色谱法检测负载效率，并通过组织学分析评估nmn - sev延缓皮肤衰老的作用。此外，通过活性氧实验、β-半乳糖苷酶染色、qRT-PCR、Western blot和细胞免疫荧光等方法验证了nmn - sev对细胞衰老的防御作用。最后，通过线粒体质量、功能和自噬水平测定，评估nmn - sev在线粒体自噬中重塑线粒体功能和延缓细胞衰老的作用。结果：我们的数据表明，nmn - sev可以改善小鼠皮肤老化，延缓细胞衰老，恢复细胞线粒体功能障碍。值得注意的是，nmn - sev处理增加了细胞内NAD+水平和SIRT3表达，并恢复了对衰老诱导的线粒体自噬的抑制，这表明nmn - sev通过线粒体自噬参与线粒体功能重塑。此外，SIRT3抑制剂3-TYP的使用抑制了nmn - sev对细胞衰老、线粒体功能和线粒体自噬的积极作用，同时恢复了衰老相关的特征。结论：总的来说，我们的研究结果揭示了nmn - sev通过促进NAD+/SIRT3途径介导的线粒体自噬来减轻线粒体功能障碍和挽救细胞衰老的机制，并可能为抗衰老药物提供有希望的策略。

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

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.