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硒纳米颗粒通过恢复 GPX1 介导的核髓核细胞氧化还原平衡和线粒体功能来改善腰椎间盘退变。

Selenium nanoparticles ameliorate lumbar disc degeneration by restoring GPX1-mediated redox homeostasis and mitochondrial function of nucleus pulposus cells.

机构信息

Department of Orthopaedics, The First Affiliated Hospital of Soochow University, No. 899 Pinghai Road, Suzhou, 215006, Jiangsu, China.

Orthopaedic Institute, Suzhou Medical College, Soochow University, No. 178 East Ganjiang Road, Suzhou, 215000, Jiangsu, China.

出版信息

J Nanobiotechnology. 2024 Oct 18;22(1):634. doi: 10.1186/s12951-024-02890-x.

DOI:10.1186/s12951-024-02890-x
PMID:39420311
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11487783/
Abstract

Intervertebral disc degeneration (IVDD) is a prevalent musculoskeletal disorder that involves the excessive accumulation of reactive oxygen species (ROS), resulting in mitochondrial dysfunction and matrix metabolism imbalance in nucleus pulposus cells (NPCs). Selenium, an indispensable trace element, plays a crucial role in maintaining mitochondrial redox homeostasis by being incorporated into antioxidant selenoproteins as selenocysteine. In this study, we employed a straightforward synthesis method to produce selenium nanoparticles (SeNPs) with consistent size and distribution, and evaluated their potential protective effects in ameliorating IVDD. In a simulated inflammatory environment induced by interleukin-1beta (IL-1β) in vitro, SeNPs demonstrated a protective effect on the matrix synthesis capacity of NPCs through the up-regulation of aggrecan and type II collagen, while concurrently suppressing the expression of matrix degradation enzymes including MMP13 and ADAMTS5. Additionally, SeNPs preserved mitochondrial integrity and restored impaired mitochondrial energy metabolism by activating glutathione peroxidase1 (GPX1) to rebalance redox homeostasis. In a rat lumbar disc model induced by puncture, the local administration of SeNPs preserved the hydration of nucleus pulposus tissue, promoted matrix deposition, and effectively mitigated the progression of IVDD. Our results indicate that the enhancement of GPX1 by SeNPs may offer a promising therapeutic approach for IVDD by restoring mitochondrial function and redox homeostasis.

摘要

椎间盘退变(IVDD)是一种常见的肌肉骨骼疾病,涉及活性氧(ROS)的过度积累,导致髓核细胞(NPC)中线粒体功能障碍和基质代谢失衡。硒是一种必需的微量元素,作为硒代半胱氨酸掺入抗氧化硒蛋白中,在维持线粒体氧化还原平衡方面发挥着关键作用。在本研究中,我们采用简单的合成方法制备了具有一致尺寸和分布的硒纳米颗粒(SeNPs),并评估了它们在改善 IVDD 方面的潜在保护作用。在体外白细胞介素-1β(IL-1β)诱导的模拟炎症环境中,SeNPs 通过上调聚集蛋白聚糖和 II 型胶原,同时抑制基质降解酶 MMP13 和 ADAMTS5 的表达,对 NPC 的基质合成能力表现出保护作用。此外,SeNPs 通过激活谷胱甘肽过氧化物酶 1(GPX1)来恢复受损的线粒体能量代谢,从而维持线粒体的完整性并重新平衡氧化还原平衡。在穿刺诱导的大鼠腰椎间盘模型中,局部给予 SeNPs 可保持髓核组织的水合作用,促进基质沉积,并有效减轻 IVDD 的进展。我们的结果表明,通过恢复线粒体功能和氧化还原平衡,SeNPs 增强 GPX1 可能为 IVDD 提供一种有前途的治疗方法。

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