中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2009年
27期
5385-5388
,共4页
骨髓间充质干细胞%神经元%诱导%分化
骨髓間充質榦細胞%神經元%誘導%分化
골수간충질간세포%신경원%유도%분화
骨髓间充质干细胞具备取材方便、对组织损伤小等优点,其低免疫原性及易于诱导机体的免疫耐受性,使得在不需要HLA配型的前提下也可以进行异体移植,从而减少免疫抑制剂的副作用.目前常采用密度梯度离心法体外分离培养人骨髓间充质干细胞,可根据生物学特性、细胞表面标记、多分化潜能、低免疫原性和免疫调节功能对其进行鉴定.骨髓间充质干细胞虽来源于中胚层,但在相应的诱导下可以向内胚层或外胚层的方向分化,一般选取传至第5代的骨髓间充质干细胞,除在培养液中加入传统的诱导剂如神经生长因子、维甲酸、脑源性生长因子、碱性成纤维生长因子、表皮生长因子外,向培养液中加入二十二碳六烯酸和花生四烯酸可诱导加速骨髓间充质干细胞向神经元样细胞分化,并促进神经元轴突的生长.但是骨髓间充质干细胞移植的安全性,尤其是致瘤性的问题仍有待进一步研究.
骨髓間充質榦細胞具備取材方便、對組織損傷小等優點,其低免疫原性及易于誘導機體的免疫耐受性,使得在不需要HLA配型的前提下也可以進行異體移植,從而減少免疫抑製劑的副作用.目前常採用密度梯度離心法體外分離培養人骨髓間充質榦細胞,可根據生物學特性、細胞錶麵標記、多分化潛能、低免疫原性和免疫調節功能對其進行鑒定.骨髓間充質榦細胞雖來源于中胚層,但在相應的誘導下可以嚮內胚層或外胚層的方嚮分化,一般選取傳至第5代的骨髓間充質榦細胞,除在培養液中加入傳統的誘導劑如神經生長因子、維甲痠、腦源性生長因子、堿性成纖維生長因子、錶皮生長因子外,嚮培養液中加入二十二碳六烯痠和花生四烯痠可誘導加速骨髓間充質榦細胞嚮神經元樣細胞分化,併促進神經元軸突的生長.但是骨髓間充質榦細胞移植的安全性,尤其是緻瘤性的問題仍有待進一步研究.
골수간충질간세포구비취재방편、대조직손상소등우점,기저면역원성급역우유도궤체적면역내수성,사득재불수요HLA배형적전제하야가이진행이체이식,종이감소면역억제제적부작용.목전상채용밀도제도리심법체외분리배양인골수간충질간세포,가근거생물학특성、세포표면표기、다분화잠능、저면역원성화면역조절공능대기진행감정.골수간충질간세포수래원우중배층,단재상응적유도하가이향내배층혹외배층적방향분화,일반선취전지제5대적골수간충질간세포,제재배양액중가입전통적유도제여신경생장인자、유갑산、뇌원성생장인자、감성성섬유생장인자、표피생장인자외,향배양액중가입이십이탄륙희산화화생사희산가유도가속골수간충질간세포향신경원양세포분화,병촉진신경원축돌적생장.단시골수간충질간세포이식적안전성,우기시치류성적문제잉유대진일보연구.
Bone marrow mesenchymal stem cell (BMSC) provides the merits such as easy to obtain and small injury. Its low immunogenicity and its potential to easily induce immune tolerance make allogeneic transplant feasible without human leucocyte antigen matching to reduce the adverse effects of immunosupprassants. Density gradient centrifugation has been mostly used to isolate and culture BMSCs in vitro, which can be identified according to biological characteristics, cell surface markers, multi-differentiation potential, low immunogenicity and immune regulation. BMSCs are form the mesoderm, but they can be induced towards the calls from endoderm or ectoderm. Generally, BMSCs of the fifth passage are selected. In addition to use of conventional inducing agents, such as nerve growth factors, ratinoic acid, brain-derived growth factors, basic fibroblast growth factors, and epidermal growth factors, docesahexenoic acid and arachidonic acid are added to accelerate the neuron-like cell differentiation of BMSCs and concomitantly to promote the growth of neuronal axon. However, the security of BMSCs transplantation, in particular the tumorigenicity of tissue, requires further investigation.
