利用哺乳动物人工染色体载体构建萤光素酶报告系统以监测间充质干细胞的成骨分化
Construction of a Luciferase Reporter System to Monitor Osteogenic Differentiation of Mesenchymal Stem Cells by Using a Mammalian Artificial Chromosome Vector.
作者信息
Narai Takashi, Katoh Motonobu, Inoue Toshiaki, Taniguchi Makoto, Kazuki Kanako, Kazuki Yasuhiro, Sato Kenzo, Kodani Isamu, Ryoke Kazuo, Oshimura Mitsuo
机构信息
Division of Oral and Maxillofacial Biopathological Surgery, Department of Medicine of Sensory and Motor Organs, School of Medicine, Tottori University Faculty of Medicine, Yonago 683-8504, Japan.
†Division of Human Genome Science, Department of Molecular and Cellular Biology, School of Life Sciences, Tottori University Faculty of Medicine, Yonago 683-8503, Japan ; §Chromosome Engineering Research Center, Tottori University, Yonago 683-8503, Japan.
出版信息
Yonago Acta Med. 2015 Mar;58(1):23-9. Epub 2015 Mar 27.
BACKGROUND
Mesenchymal stem cells (MSCs) hold promise for application in adult stem cell-mediated regenerative medicine in bone remodeling and fracture repair. MSCs in vitro can be directed to osteogenic lineage by dexamethasone (DEX); however, the use of DEX is not practical in clinical settings because of adverse side effects such as glucocorticoid-induced osteoporosis. For identifying substances that facilitate osteogenesis, a monitoring system, which detects the osteogenic differentiation stage of MSCs accurately and easily, is required.
METHODS
By focusing on the human osteocalcin (OC) gene whose expression profile is described along with osteogenic differentiation, we constructed the luciferase (Luc) reporter gene driven by the enhancer/promoter sequence of the human OC gene (OC-Luc) utilizing a mammalian artificial chromosome. Mammalian artificial chromosome is a suitable platform for loading reporter constructs, because of its stable episomal maintenance in host cells, transferability into any cell and assurance of long-term physiological transgene expression. We loaded the OC-Luc on a mammalian artificial chromosome vector engineered from mouse chromosome (designated as mouse artificial chromosome, MAC) in Chinese hamster ovary cells (OC-Luc/MAC) and transferred this into human MSC cells via chromosome transfer.
RESULTS
OC-Luc/MAC in human MSC cells are responsive to positive and negative stimulation by 1 alpha,25-dihydroxyvitamin D3 and DEX in differentiation stage of MSCs to osteoblasts, reflecting the manner of physiological expression.
CONCLUSION
The OC-Luc/MAC reporter system may contribute not only to monitoring the osteogenic differentiation stage from MSC but also to identify novel osteogenic drugs.
背景
间充质干细胞(MSCs)有望应用于成体干细胞介导的骨重塑和骨折修复再生医学。体外培养的MSCs可通过地塞米松(DEX)定向分化为成骨谱系;然而,由于存在如糖皮质激素诱导的骨质疏松等不良副作用,DEX在临床环境中并不实用。为了鉴定促进成骨的物质,需要一种能够准确且简便地检测MSCs成骨分化阶段的监测系统。
方法
我们聚焦于随着成骨分化而呈现特定表达谱的人骨钙素(OC)基因,利用哺乳动物人工染色体构建了由人OC基因增强子/启动子序列驱动的荧光素酶(Luc)报告基因(OC-Luc)。哺乳动物人工染色体是装载报告基因构建体的合适平台,因为它在宿主细胞中能稳定维持附加体状态,可转移到任何细胞中,并能确保长期的生理转基因表达。我们将OC-Luc装载到从小鼠染色体改造而来的哺乳动物人工染色体载体(命名为小鼠人工染色体,MAC)上,在中国仓鼠卵巢细胞中构建了OC-Luc/MAC,并通过染色体转移将其导入人MSCs细胞。
结果
人MSCs细胞中的OC-Luc/MAC在MSCs向成骨细胞分化阶段对1α,25-二羟基维生素D3和DEX的正负刺激有反应,反映了生理表达模式。
结论
OC-Luc/MAC报告系统不仅可能有助于监测MSCs的成骨分化阶段,还可能有助于鉴定新型成骨药物。
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