综述

间充质干细胞在眼表疾病治疗中的应用

Application of mesenchymal stem cells in the treatment of ocular diseases

:299-305
 
间充质干细胞由于其独特的自我更新和多向分化能力,成为了一种替代无效的常规治疗的新兴治疗方法。间充质干细胞通过免疫调节、促修复、抗新生血管机制和细胞替代作用在眼表疾病中发挥作用,而不同来源的间充质干细胞其作用机制也不完全相同。迄今为止,已有8项注册的间充质干细胞治疗的临床试验应用于干眼、角膜烧伤、圆锥角膜等眼表疾病。
Due to its unique self-renewal and multi-directional differentiation capabilities, mesenchymal stem cells (MSCs) have become an emerging therapy that replaces of ineffective conventional options in treating multiple diseases. It plays an important role in ocular surface illnesses through a variety of functions, including immunoregulation, promoting repairing, anti-angiogenesis mechanisms, and cell replacement. MSCs from different sources have different mechanisms.So far, 8 registered clinical trials of MSCs therapy have been applied to treat dry eye, ocular burn, keratoconus and other ocular surface diseases.
“眼科再生医学”专题

内源性干细胞在晶状体再生修复中的应用及展望

Application and prospect of endogenous stem cells in lens regeneration and repair

:360-373
 
内源性干细胞在组织的损伤修复过程中组织相容性好、致瘤风险低,相较于外源性干细胞具有不需要体外扩增和培养、疾病传播风险低的优点,在细胞治疗领域具有显著优势。现在已经有多种使用内源性干细胞进行疾病治疗的成熟方式,应用领域包括了全身各种器质性和功能性疾病。在眼组织中,晶状体具有终生生长的能力且便于观察,是实现再生修复的突破点。哺乳动物中晶状体再生的实现有赖于晶状体内源性干细胞的定位和改良手术方式,以保留晶状体干细胞,并创造适合晶状体再生的微环境。对再生后的晶状体蛋白质组成分析,发现其类似成熟晶状体,而非胚胎期的晶状体,提示晶状体再生的调控与胚胎期的诱导发生并不相同;而调控晶状体再生的策略不仅着眼于干细胞的激活和正确分化的诱导,对其上皮间质转化过程也需要进行调控。在未来,为将晶状体再生的经验应用于其他眼组织中,动员内源性干细胞并促进其生长,可以添加细胞有效成分,比如外泌体、线粒体、小分子化合物等,模拟细胞应激;此外,还可以通过手术或生物材料辅助,恢复晶状体结构和环境。
Endogenous stem cells have significant advantages in cell therapy for excellent histocompatibility, low tumorigenicity risk, unnecessity for in vitro expansion and culture, and low disease transmission risk. There have been some applications for endogenous stem cells in treating diseases, targeting some organic and functional diseases throughout the body. In ocular tissue, the lens is a breakthrough for regenerative therapy due to its potential to grow throughout life and observation accessibility. Achieving lens regeneration in adult mammals attributes to some prerequisites. Firstly, the location of endogenous stem cells in the lens has been identified. Then, surgical approaches have been advanced to preserve lens stem cells and create a microenvironment suitable for lens regeneration. Protein compositional analysis of the regenerated lens reveals that it is similar to a mature lens rather than an embryonic lens, suggesting that the regulation of lens regeneration is not the same as the induction of embryonic onset. The strategy for regulating lens regeneration needs to focus not only on the activation and proper differentiation of stem cells but also on regulating the process of epithelial mesenchymal transition (EMT). In the future, in order to apply the experiences of lens regeneration to other ocular tissues, to mobilize endogenous cells and promote their growth, some strategies could be used. These strategies include mimicking cellular stress via the addition of cellular active ingredients, such as exosome, mitochondria, and small molecular compounds. Additionally, we can also try to restore lens tissue structure and microenvironment through surgical or biomaterial assistance.
其他期刊
  • 眼科学报

    主管:中华人民共和国教育部
    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
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  • Eye Science

    主管:中华人民共和国教育部
    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
    浏览
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中山眼科



中山大学