| 285 | 0 | 4 |
| 下载次数 | 被引频次 | 阅读次数 |
关节炎是一种软骨细胞或基质受损、丢失的退行性骨关节病,由于软骨中缺少血管难以自愈,寻找治疗关节炎的方法至关重要。鹿茸在快速生长期,每天可生长2 cm,主要由干细胞及其分化的软骨构成,并且含有大量的血管。最新研究发现鹿茸对治疗骨关节炎,修复软骨缺损,抑制炎症等方面有明显效果,基于此,本文综述了关节炎的发生机理与治疗方法的不足之处,提出了鹿茸是修复软骨损伤的理想模型,深入探讨了鹿茸及其衍生物对关节炎的修复作用,强调了它们在软骨修复和炎症抑制方面的双重功效,为未来鹿茸及其衍生品在关节炎治疗中的应用奠定基础。
Abstract:Arthritis is a degenerative osteoarthritis characterized by damage and loss of chondrocytes. Due to the lack of blood vessels in cartilage, it is increasingly important to find a treatment for arthritis that is difficult to selfheal. In the rapid growth period, pilose antler can grow 2 cm a day, which is mainly composed of stem cells and their differentiated cartilage, and contains a large number of blood vessels. The latest research has found that deer antler has significant effects on treating osteoarthritis, repairing cartilage defects, and inhibiting inflammation. Based on this, this article reviewed the pathogenesis of arthritis and the shortcomings of treatment methods, proposed that antler is an ideal model for repairing cartilage damage, and deeply discussed the repairing effect of antler and its derivatives on arthritis, emphasizing their dual effects in cartilage repair and inflammation inhibition, laying the foundation for the future application of deer antler and its derivatives in arthritis treatment.
[1] 郭子奕,杨扬,何忠梅,等. 基于网络药理学的鹿茸治疗骨关节炎作用的机制[J]. 中国实验方剂学杂志. 2022, 28(04): 194-204.
[2] 孙伟丽,赵海平,王卓,等. 营养因素调控鹿茸的发生与再生[J]. 动物营养学报. 2016, 28(08): 2334-2343.
[3] 杨波,司华哲,李志鹏. 鹿茸生长过程中机体代谢变化研究进展[J]. 经济动物学报. 2023, 27(04): 235-240.
[4] Guan M, Pan D, Zhang M, et al. Deer antler extract potentially facilitates xiphoid cartilage growth and regeneration and prevents inflammatory susceptibility by regulating multiple functional genes.[J]. Journal of orthopaedic surgery and research. 2021, 16(1): 208.
[5] Liu Z, Li W, Geng L, et al. Cross-species metabolomic analysis identifies uridine as a potent regeneration promoting factor.[J]. Cell discovery. 2022, 8(1): 6.
[6] 孙旭阳. 鹿茸软骨细胞生长的血管生成和氧化还原调控机制[Z]. 华中农业大学, 2023.
[7] Yamashita S, Andoh M, Ueno-Kudoh H, et al. Sox9 directly promotes Bapx1 gene expression to repress Runx2 in chondrocytes.[J]. Experimental cell research. 2009, 315(13): 2231-2240.
[8] Clark D E, Li C, Wang W, et al. Vascular localization and proliferation in the growing tip of the deer antler.[J]. The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology. 2006, 288(9): 973-981.
[9] 阳庆林,谢犇,杨杜斌,等. 细胞焦亡在关节炎中的作用机制及研究进展[J]. 中国医药导报. 2023, 20(01): 49-52.
[10] 许丽文,刘春晓,李光玉. 骨关节炎发病机制及鹿茸防治骨关节炎疾病的研究进展[J]. 特产研究. 2020, 42(04): 68-74.
[11] Thomas C M, Fuller C J, Whittles C E, et al. Chondrocyte death by apoptosis is associated with cartilage matrix degradation.[J]. Osteoarthritis and cartilage. 2007, 15(1): 27-34.
[12] Kim H A, Lee Y J, Seong S C, et al. Apoptotic chondrocyte death in human osteoarthritis.[J]. The Journal of rheumatology. 2000, 27(2): 455-462.
[13] 刘宇琴. 软骨细胞铁死亡产物TFAM促进骨关节炎进展的分子机制[Z]. 重庆理工大学, 2024.
[14] 范少勇,周明,胡梁深,等. 膝骨关节炎治疗方法研究进展[J]. 江西中医药. 2023, 54(10): 86-88.
[15] 唐锐,杨涵翔,万东平,等. 独活寄生汤治疗类风湿性关节炎研究进展[J]. 辽宁中医药大学学报. 2024, 26(07): 174-179.
[16] Li S, Li L, Yan H, et al. Anti?gouty arthritis and anti?hyperuricemia properties of celery seed extracts in rodent models[J]. Molecular medicine reports. 2019, 20(5): 4623-4633.
[17] Nieto-Diaz M, Pita-Thomas D W, Munoz-Galdeano T, et al. Deer antler innervation and regeneration.[J]. Frontiers in bioscience (Landmark edition). 2012, 17(4): 1389-1401.
[18] 张琳琳. miR-145靶向SOX9调控鹿茸间充质干细胞成软骨分化的作用机制研究[Z]. 吉林农业大学, 2024.
[19] 褚文辉,张伟,付晶,等. Col X基因表达下调对鹿茸干细胞向软骨细胞分化的影响[J]. 农业生物技术学报. 2017, 25(05): 842-850.
[20] 梁丽,谢明,索天娇,等. 中药鹿茸的本草考证[J]. 中国民族民间医药. 2023, 32(23): 23-29.
[21] 高宏伟. 鹿茸提取物调控软骨细胞的生物学机制研究[Z]. 长春中医药大学, 2020.
[22] 赵文海,赵长伟,闻辉,等. 鹿茸多肽对兔骨性关节炎软骨细胞的影响[J]. 中国中医骨伤科杂志. 2010, 18(03): 1-3.
[23] 张春霞,孙磊,修忠标. 鹿茸多肽对实验性膝骨性关节炎关节软骨中糖胺多糖和Ⅱ型胶原水平的影响[J]. 中国骨伤. 2012, 25(02): 138-142.
[24] 赵文海,赵长伟,闻辉,等. 鹿茸多肽对兔骨性关节炎软骨细胞金属蛋白酶mRNA表达的影响[J]. 中国社区医师(综合版). 2007(24): 18.
[25] 李文超,林一峰,梁祖建,等. 鹿茸多肽对IL-1β诱导的大鼠软骨终板细胞增殖和CollagenⅠ、CollagenⅡ、IL-6 mRNA表达的影响[J]. 中医学报. 2019, 34(07): 1454-1459.
[26] 陈晓东,林建华. 鹿茸多肽抗鼠软骨细胞老化的机制初探[J]. 中国骨伤. 2008(08): 617-620.
[27] 李振华,赵文海,周秋丽. 鹿茸多肽对抗骨关节炎软骨细胞氧化损伤作用的实验研究[J]. 中国骨伤. 2011, 24(3): 245-248.
[28] Kim K, Song K, Lee J, et al. Effects of TGFbeta1 and extracts from Cervus korean TEMMINCK var. mantchuricus Swinhoe on acute and chronic arthritis in rats.[J]. Journal of ethnopharmacology. 2008, 118(2): 280-283.
[29] 苗永刚. 鹿茸多肽对软骨细胞cofilin信号通路调控作用的研究[Z]. 长春中医药大学, 2014.
[30] Kim Y, Kim K, Chung K, et al. Inhibitory effects of deer antler aqua-acupuncture, the pilose antler of Cervus Korean TEMMINCK var mantchuricus Swinhoe, on type II collagen-induced arthritis in rats.[J]. International immunopharmacology. 2003, 3(7): 1001-1010.
[31] 张爱武,陈新源,王光辉,等. 梅花鹿茸水提物对脂多糖诱导的小鼠肠道炎症的保护作用[J]. 经济动物学报. 2022, 26(2): 121-126, 137.
[32] Li C, Yang F, Sheppard A. Adult stem cells and mammalian epimorphic regeneration-insights from studying annual renewal of deer antlers.[J]. Current stem cell research & therapy. 2009, 4(3): 237-251.
[33] Rolf H J, Kierdorf U, Kierdorf H, et al. Localization and characterization of STRO-1 cells in the deer pedicle and regenerating antler.[J]. PloS one. 2008, 3(4): e2064.
[34] 周珏. 鹿茸干细胞分泌蛋白促进大鼠软骨缺损修复[Z]. 中国农业科学院, 2023.
[35] Jia B, Li X, Han X, et al. Deer antler reserve mesenchyme cells with hyaluronan alleviates cartilage damage in a rat model[J]. Animal Research and One Health. 2023, 1(2): 180-194.
[36] 马福全. miR-145调节鹿茸间充质干细胞修复软骨缺损的作用研究[Z]. 吉林农业大学, 2024.
[37] 王玉俗,褚文辉,李久波,等. 干细胞ECM修复软骨缺损与鹿茸干细胞ECM的研究进展[J]. 特产研究. 2020, 42(01): 64-68.
[38] Lei J, Jiang X, Li W, et al. Exosomes from antler stem cells alleviate mesenchymal stem cell senescence and osteoarthritis.[Z]. 2022: 13, 220-226.
[39] 王雪. 鹿茸间充质干细胞外泌体通过miR-140靶向MMP13调控骨关节炎机制的研究[Z]. 吉林农业大学, 2024.
[40] 国家药典委员会.中华人民共和国药典:一部[M].中国医药科技出版社,2020:335-336.
[41] 孙铁锋,王平. 鹿角胶-壳聚糖细胞支架修复大鼠股骨头缺血性坏死[J]. 中成药. 2015, 37(11): 2337-2341.
[42] 孙伟珊. 补肾健脾化瘀中药对绝经后骨质疏松血液流变学的改变[Z]. 广州中医药大学, 2015.
[43] 王平,张会敏,李刚. 鹿角多肽对骨髓间充质干细胞的影响[J]. 中华中医药杂志. 2018, 33(12): 5644-5647.
[44] Ping W, Feng S T, Gang L, et al. The Separation of Antler Polypeptide and Its Effects on the Proliferation and Osteogenetic Differentiation of Bone Marrow Mesenchymal Stem Cells[J]. Evidence-Based Complementary and Alternative Medicine. 2020, 2020.
[45] 陈泽华,林家辉,陈炳艺,等. 龟甲胶、鹿角胶含药血清对豚鼠骨关节炎软骨细胞MKK表达的影响[J]. 中国中医骨伤科杂志. 2015, 23(09): 5-7.
[46] 聂淑琴,梁爱华,薛宝云,。戴宝强,李桂琴. 鹿角胶新老剂型壮阳、补血作用的比较研究[J]. 中国中药杂志. 1996(10): 49-52.
[47] 苏军,陆永刚,胡建山,等. 鹿角壮骨胶囊治疗膝骨性关节炎的疗效观察[J]. 中药药理与临床. 2015, 31(02): 169-170.
[48] 柴毅. 左归丸调控NPY干预软骨-软骨下骨信号交互防治绝经后骨关节炎的效应机制研究[Z]. 南京中医药大学, 2020.
[49] 余添赐. 龟鹿二仙胶不同提取部位对体外培养豚鼠关节软骨细胞活性的影响[Z]. 福建中医药大学, 2014.
[50] Li C. Histogenetic aspects of deer antler development.[J]. Frontiers in bioscience (Elite edition). 2013, 5(2): 479-489.
基本信息:
中图分类号:R274.9
引用信息:
[1]张俣,颜辛芮,李鑫,等.鹿茸治疗关节炎的研究进展[J].经济动物学报().
基金信息:
吉林省预算内基本建设资金(创新能力建设)项目(2024C016-10); 吉林省重点研发项目(20240305088YY); 吉林省教育厅科学技究项目(JJKH20250580KJ); 国家自然科学基金青年科学基金项目(32002171)
2025-09-08
2025-09-08
2025-09-08