Department of Oral and Maxillofacial Surgery, School of Dentistry, Prince of Songkla University, Hat Yai, Thailand.
Cells Tissues Organs. 2011;194(2-4):326-30. doi: 10.1159/000324831. Epub 2011 May 13.
To ensure the efficiency and safety of transplanted human embryonic stem cell (hESC)-derived osteoblast-like cells (hESC-OS) for bone regeneration, this study was designed to determine the effects of continuous cell expansion on the osteoblastic differentiation stability, pluripotency, and tumorigenic potential of long-term expanded hESC-OS.
hESCs manually harvested as cell aggregates or enzymatically dissociated as single cells were directly incubated in osteogenic medium and serially passaged to passage 25. Expression of osteoblast-related genes, pluripotent regulator genes, and genes related to tumorigenesis were examined at the primary passage and every 5 passages thereafter. hESC-OS were subcutaneously transplanted into nude mice for 4-24 weeks to test for teratoma formation. hESC-OS were recultivated in hESC culture conditions to evaluate the extent to which reverse differentiation back to the undifferentiated stage may occur.
hESC-OS derived from hESC aggregates and dissociated cells exhibited comparable osteoblast differentiation patterns. Expression levels of osteoblast-related genes reached plateau levels at passages 5-10 before declining in higher passages. Expression of tumor-associated genes was not significantly increased. Only hESC-OS at primary and first passages formed teratomas after 4 weeks in vivo. The hESC-OS were not able to revert to hESCs.
Expanded hESC-OS demonstrated lineage-specific differentiation stability, did not maintain the pluripotency of hES cells, and were genetically stable. Thus, hESC-OS may be considered for large animal preclinical studies.
为确保移植的人胚胎干细胞(hESC)衍生的成骨样细胞(hESC-OS)用于骨再生的效率和安全性,本研究旨在确定连续细胞扩增对长期扩增的 hESC-OS 成骨分化稳定性、多能性和致瘤潜能的影响。
手动收获的作为细胞聚集体的 hESC 或通过酶解作为单细胞的 hESC 直接在成骨培养基中孵育,并连续传代至第 25 代。在原代和此后每 5 代时,检测与成骨相关的基因、多能调控基因和与致瘤相关的基因的表达。将 hESC-OS 皮下移植到裸鼠中 4-24 周,以测试畸胎瘤形成。将 hESC-OS 在 hESC 培养条件下再培养,以评估反向分化回未分化状态的程度。
来自 hESC 聚集体和分离细胞的 hESC-OS 表现出可比的成骨分化模式。成骨相关基因的表达水平在第 5-10 代达到平台期,然后在较高代次中下降。肿瘤相关基因的表达没有显著增加。只有在体内第 4 周时,原代和第一代的 hESC-OS 才能形成畸胎瘤。hESC-OS 不能逆转回 hESC。
扩增的 hESC-OS 表现出谱系特异性分化稳定性,不维持 hESC 的多能性,并且遗传稳定。因此,hESC-OS 可考虑用于大动物临床前研究。
