Kobolak Julianna, Dinnyes Andras, Memic Adnan, Khademhosseini Ali, Mobasheri Ali
Biotalentum Ltd., Gödöllö 2100, Hungary.
Biotalentum Ltd., Gödöllö 2100, Hungary; Szent István University, Gödöllö 2100, Hungary; Department of Equine Sciences, Faculty of Veterinary Medicine, Utrecht University, Utrecht 3584 CL, The Netherlands; Department of Farm Animal Health, Faculty of Veterinary Medicine, Utrecht University, Utrecht 3584 CL, The Netherlands.
Methods. 2016 Apr 15;99:62-8. doi: 10.1016/j.ymeth.2015.09.016. Epub 2015 Sep 15.
Mesenchymal stem cells (MSCs) are multipotent stem cells. Although they were originally identified in bone marrow and described as 'marrow stromal cells', they have since been identified in many other anatomical locations in the body. MSCs can be isolated from bone marrow, adipose tissue, umbilical cord and other tissues but the richest tissue source of MSCs is fat. Since they are adherent to plastic, they may be expanded in vitro. MSCs have a distinct morphology and express a specific set of CD (cluster of differentiation) molecules. The phenotypic pattern for the identification of MSCs cells requires expression of CD73, CD90, and CD105 and lack of CD34, CD45, and HLA-DR antigens. Under appropriate micro-environmental conditions MSCs can proliferate and give rise to other cell types. Therefore, they are ideally suited for the treatment of systemic inflammatory and autoimmune conditions. They have also been implicated as key players in regenerating injured tissue following injury and trauma. MSC populations isolated from adipose tissue may also contain regulatory T (Treg) cells, which have the capacity for modulating the immune system. The immunoregulatory and regenerative properties of MSCs make them ideal for use as therapeutic agents in vivo. In this paper we review the literature on the identification, phenotypic characterization and biological properties of MSCs and discuss their potential for applications in cell therapy and regenerative medicine. We also discuss strategies for biomaterial micro-engineering of the stem cell niche.
间充质干细胞(MSCs)是多能干细胞。尽管它们最初在骨髓中被发现并被描述为“骨髓基质细胞”,但此后在身体的许多其他解剖位置也被发现。MSCs可以从骨髓、脂肪组织、脐带和其他组织中分离出来,但MSCs最丰富的组织来源是脂肪。由于它们能附着于塑料表面,因此可以在体外进行扩增。MSCs具有独特的形态,并表达一组特定的CD(分化簇)分子。鉴定MSCs细胞的表型模式要求表达CD73、CD90和CD105,且缺乏CD34、CD45和HLA-DR抗原。在适当的微环境条件下,MSCs可以增殖并分化为其他细胞类型。因此,它们非常适合用于治疗全身性炎症和自身免疫性疾病。它们也被认为是损伤和创伤后再生受损组织的关键因素。从脂肪组织中分离出的MSCs群体可能还含有调节性T(Treg)细胞,这些细胞具有调节免疫系统的能力。MSCs的免疫调节和再生特性使其成为体内治疗剂的理想选择。在本文中,我们综述了关于MSCs的鉴定、表型特征和生物学特性的文献,并讨论了它们在细胞治疗和再生医学中的应用潜力。我们还讨论了干细胞微环境的生物材料微工程策略。
