中国组织工程研究

中国组织工程研究 ›› 2026, Vol. 30 ›› Issue (29): 7529-7538.doi: 10.12307/2026.210

• 骨组织构建 bone tissue construction • 上一篇    下一篇

山柰酚调控线粒体自噬抑制大鼠椎间盘退变的作用机制

汪陈莫及1,吴亚东2,高  迪1,王  浩1,李念虎3   

  1. 1山东中医药大学第一临床医学院,山东省济南市   250014;2山东省日照市中医医院,山东省日照市   276800;3山东中医药大学附属医院,山东省济南市   250014
  • 收稿日期:2025-06-07 修回日期:2025-09-15 出版日期:2026-10-18 发布日期:2026-03-03
  • 通讯作者: 李念虎,博士,主任医师,山东中医药大学附属医院,山东省济南市 250014
  • 作者简介:汪陈莫及,男,1998年生,安徽省池州市人,汉族,硕士,主要从事脊柱损伤及退变研究。
  • 基金资助:
    国家中医药管理局科技司共建科技项目(GZY-KJS-SD-2023-042),项目负责人:李念虎;山东省自然科学基金创新发展联合基金项目(ZR2021LZY006),项目负责人:吴亚东 

Mechanism by which kaempferol inhibits intervertebral disc degeneration in rats by regulating mitophagy levels

Wang Chenmoji1, Wu Yadong2, Gao Di1, Wang Hao1, Li Nianhu3   

  1. 1First Clinical Medical College, Shandong University of Traditional Chinese Medicine, Jinan 250014, Shandong Province, China; 2Rizhao Traditional Chinese Medicine Hospital, Rizhao 276800, Shandong Province, China; 3Affiliated Hospital of Shandong University of Traditional Chinese Medicine, Jinan 250014, Shandong Province, China
  • Received:2025-06-07 Revised:2025-09-15 Online:2026-10-18 Published:2026-03-03
  • Contact: Li Nianhu, PhD, Chief physician, Affiliated Hospital of Shandong University of Traditional Chinese Medicine, Jinan 250014, Shandong Province, China
  • About author:Wang Chenmoji, MS, First Clinical Medical College, Shandong University of Traditional Chinese Medicine, Jinan 250014, Shandong Province, China
  • Supported by:
    National Administration of Traditional Chinese Medicine - Department of Science and Technology Joint Research Program, No. GZY-KJS-SD-2023-042 (LNH); Shandong Provincial Natural Science Foundation Innovation and Development Joint Fund Program, No. ZR2021LZY006 (to WYD)

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摘要:




文题释义:
山柰酚:一种天然存在的黄酮类化合物,广泛分布于多种水果、蔬菜、草药和饮品中,如绿茶、西兰花、苹果、草莓等,以抗氧化和抗炎作用而闻名,是一种具有多种潜在健康益处的植物代谢产物。
线粒体自噬:指通过选择性自噬途径清除受损或多余的线粒体,以维持线粒体质量和细胞稳态的过程,是细胞内维持能量代谢和减轻氧化应激的重要机制,也是维持线粒体功能和细胞稳态的重要过程。

背景:在椎间盘退变发展过程中,氧化应激是导致椎间盘退变病程加速进展的主要因素之一。线粒体自噬在应对氧化应激、预防线粒体功能障碍及相关疾病中发挥了关键作用。前期研究证实,山柰酚能改善退变的髓核细胞的增殖活性、降低炎症水平,延缓大鼠椎间盘退变的进展。
目的:探究山柰酚对退变椎间盘组织线粒体自噬的影响。
方法:①动物实验:将15只SD大鼠随机分5组干预:除空白组(n=3)外,模型组(n=3)、山柰酚低剂量组(n=3)、山柰酚中剂量组(n=3)、山柰酚高剂量组(n=3)采用全层纤维环穿刺法构建尾椎椎间盘退变模型,术后4周,空白组、模型组给予生理盐水灌胃,山柰酚低、中、高剂量组分别给予25,50,100 mg/kg山柰酚灌胃,1次/d,连续给药8周。末次给药结束后取材,进行血清炎症因子水平与椎间盘MRI成像、苏木精-伊红染色检测。②细胞实验:将第2代大鼠髓核细胞分5组培养:空白组不加入任何药物,模型组加入H2O2(构建氧化应激损伤模型),山柰酚组加入H2O2处理24 h后再加入10 μmol/L山柰酚,自噬抑制剂组加入H2O2处理24 h后再加入自噬抑制剂3-甲基腺嘌呤,山柰酚+自噬抑制剂组加入H2O2处理24 h后再加入10 μmol/L山柰酚+3-甲基腺嘌呤。继续培养24 h后,CCK-8法检测细胞存活率,Western blot检测炎症因子与自噬指标的蛋白表达,RT-qPCR检测炎症因子与自噬指标的基因表达,免疫荧光染色检测Ⅱ型胶原蛋白表达,DCFH-DA荧光探针检测活性氧水平。
结果与结论:①动物实验:相较于空白组,模型组大鼠血清白细胞介素1β、白细胞介素6及肿瘤坏死因子α水平上升(P < 0.05),山柰酚各剂量组3种炎症因子水平均降低(P < 0.05),其中山柰酚中剂量组降低更明显。MRI成像、苏木精-伊红染色结果显示,与模型组相比,山柰酚各剂量组椎间盘退变病理特征显著改善,髓核轮廓更加清晰、连续,髓核细胞数量显著增加,其中山柰酚中剂量组改善更明显。②细胞实验:与模型组比较,山柰酚组细胞存活率、Ⅱ型胶原蛋白以及张力蛋白同源物诱导的蛋白激酶1、帕金蛋白的基因与蛋白表达均升高(P < 0.05),活性氧水平以及白细胞介素1β、白细胞介素6及肿瘤坏死因子α的基因与蛋白表达均降低(P < 0.05),微管相关蛋白轻链3Ⅰ/Ⅱ蛋白表达与微管相关蛋白轻链3B mRNA表达升高(P < 0.05);3-甲基腺嘌呤可抑制山柰酚的上述作用。③结果表明,山柰酚可能通过调控线粒体自噬水平来缓解氧化应激损伤,延缓椎间盘退变的进展。

https://orcid.org/0009-0005-3100-8069 (汪陈莫及) 


中国组织工程研究杂志出版内容重点:干细胞;骨髓干细胞;造血干细胞;脂肪干细胞;肿瘤干细胞;胚胎干细胞;脐带脐血干细胞;干细胞诱导;干细胞分化;组织工程

关键词: 山柰酚, 线粒体自噬, 氧化应激, 椎间盘退变, 髓核细胞, 椎间盘

Abstract: BACKGROUND: Oxidative stress is a primary factor accelerating the progression of intervertebral disc degeneration. Mitophagy plays a crucial role in mitigating oxidative stress and preventing mitochondrial dysfunction and associated diseases. Prior investigations have demonstrated that kaempferol enhances the proliferative capacity of degenerating nucleus pulposus cells, diminishes inflammation, and decelerates the progression of intervertebral disc degeneration in rat models.
OBJECTIVE: To investigate the effects of kaempferol on mitophagy in degenerated intervertebral disc tissue.
METHODS: Fifteen Sprague-Dawley rats were randomly allocated into five intervention groups: a blank group (n=3), a model group (n=3), a low-dose kaempferol group (n=3), a medium-dose kaempferol group (n=3), and a high-dose kaempferol group (n=3). A coccygeal disc degeneration model was established in all groups except the blank group via full-thickness annulus fibrosus puncture. Commencing 4 weeks post-surgery, the blank and model groups received normal saline via gavage, while the low-dose, medium-dose, and high-dose kaempferol groups were administered 25, 50, and 100 mg/kg kaempferol via gavage, respectively, once daily for 8 consecutive weeks. Following the final administration, samples were collected to assess serum inflammatory factor levels, intervertebral disc MRI imaging, and hematoxylin-eosin staining. (2) Cell experiment: Second-generation rat nucleus pulposus cells were cultured across five groups: a blank group with no added drugs, a model group with hydrogen peroxide (to establish an oxidative stress injury model), a kaempferol group treated with hydrogen peroxide for 24 hours followed by 10 μmol/L kaempferol, an autophagy inhibitor group treated with hydrogen peroxide for 24 hours followed by the addition of the autophagy inhibitor 3-methyladenine, and a kaempferol + autophagy inhibitor group treated with hydrogen peroxide for 24 hours followed by 10 μmol/L kaempferol + 3-methyladenine. After 24 hours of continuous culture, the cell survival rate was determined using the cell counting kit-8 method; protein expression of inflammatory factors and autophagy indicators was assessed via western blot; gene expression of inflammatory factors and autophagy indicators was evaluated via RT-qPCR; type II collagen expression was detected via immunofluorescence staining; and the level of reactive oxygen species was measured using a DCFH-DA fluorescent probe.
RESULTS AND CONCLUSION: (1) Animal experiment: Compared with the blank group, the levels of serum interleukin-1β, interleukin-6 and tumor necrosis factor-α in the model group increased (P < 0.05). and the levels of three inflammatory factors in each dose group of kaempferol decreased (P < 0.05), with the medium-dose kaempferol group showing a more pronounced decrease. MRI imaging and hematoxylin-eosin staining revealed that the pathological characteristics of intervertebral disc degeneration were significantly improved in each dose group of kaempferol compared with the model group. Specifically, the nucleus pulposus contour was clearer and more continuous, and the number of nucleus pulposus cells increased significantly, with the medium-dose kaempferol group exhibiting more notable improvement. (2) Cell experiment: Compared with the model group, the kaempferol group demonstrated increased cell survival rate, type II collagen expression, tensin homolog-induced protein kinase 1 expression, and parkin gene and protein expression (P < 0.05). Conversely, the kaempferol group showed decreased reactive oxygen species levels, as well as reduced gene and protein expression of interleukin-1β, interleukin-6, and tumor necrosis factor-α (P < 0.05). Additionally, microtubule-associated protein light chain 3I/II protein expression and microtubule-associated protein light chain 3B mRNA expression were increased (P < 0.05). Notably, 3-methyladenine was found to inhibit the aforementioned effects of kaempferol. Overall, kaempferol may mitigate oxidative stress damage and delay the progression of intervertebral disc degeneration by modulating the level of mitophagy.

Key words: kaempferol, mitophagy, oxidative stress, intervertebral disc degeneration, nucleus pulposus cells, intervertebral discs

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