Chung Sangmi, Shin Byoung-Soo, Hwang Michelle, Lardaro Thomas, Kang Un Jung, Isacson Ole, Kim Kwang-Soo
Udall Parkinson's Disease Research Center of Excellence, McLean Hospital/Harvard Medical School, Belmont, Massachusetts 02178, USA.
Stem Cells. 2006 Jun;24(6):1583-93. doi: 10.1634/stemcells.2005-0558. Epub 2006 Mar 16.
Neural precursors (NPs) derived from ventral mesencephalon (VM) normally generate dopaminergic (DA) neurons in vivo but lose their potential to differentiate into DA neurons during mitogenic expansion in vitro, hampering their efficient use as a transplantable and experimental cell source. Because embryonic stem (ES) cell-derived NPs (ES NP) do not go through the same maturation process during in vitro expansion, we hypothesized that expanded ES NPs may maintain their potential to differentiate into DA neurons. To address this, we expanded NPs derived from mouse embryonic day-12.5 (E12.5) VM or ES cells and compared their developmental properties. Interestingly, expanded ES NPs fully sustain their ability to differentiate to the neuronal as well as to the DA fate. In sharp contrast, VM NPs almost completely lost their ability to become neurons and tyrosine hydroxylase-positive (TH(+)) neurons after expansion. Expanded ES NP-derived TH(+) neurons coexpressed additional DA markers such as dopa decarboxylase and DAT (dopamine transporter). Furthermore, they also expressed other midbrain DA markers, including Nurr1 and Pitx3, and released significant amounts of DA. We also found that these ES NPs can be cryopreserved without losing their proliferative and developmental potential. Finally, we tested the in vivo characteristics of the expanded NPs derived from J1 ES cells with low passage number. When transplanted into the mouse striatum, the expanded NPs as well as control NPs efficiently generated DA neurons expressing mature DA markers, with approximately 10% tumor formation in both cases. We conclude that ES NPs maintain their developmental potential during in vitro expansion, whereas mouse E12.5 VM NPs do not.
源自腹侧中脑(VM)的神经前体细胞(NPs)在体内通常会生成多巴胺能(DA)神经元,但在体外有丝分裂扩增过程中会失去分化为DA神经元的潜能,这阻碍了它们作为可移植和实验性细胞来源的有效利用。由于胚胎干细胞(ES)来源的NPs(ES NPs)在体外扩增过程中不会经历相同的成熟过程,我们推测扩增后的ES NPs可能会保持其分化为DA神经元的潜能。为了验证这一点,我们扩增了源自小鼠胚胎第12.5天(E12.5)VM或ES细胞的NPs,并比较了它们的发育特性。有趣的是,扩增后的ES NPs完全保持了分化为神经元以及向DA命运分化的能力。与之形成鲜明对比的是,VM NPs在扩增后几乎完全丧失了成为神经元和酪氨酸羟化酶阳性(TH(+))神经元的能力。扩增后的ES NP来源的TH(+)神经元共表达了其他DA标志物,如多巴脱羧酶和DAT(多巴胺转运体)。此外,它们还表达了其他中脑DA标志物,包括Nurr1和Pitx3,并释放了大量的DA。我们还发现这些ES NPs可以被冷冻保存而不会丧失其增殖和发育潜能。最后,我们测试了低传代数的J1 ES细胞来源的扩增NPs的体内特性。当移植到小鼠纹状体中时,扩增后的NPs以及对照NPs都能有效地生成表达成熟DA标志物的DA神经元,两种情况下肿瘤形成率均约为10%。我们得出结论,ES NPs在体外扩增过程中保持其发育潜能,而小鼠E12.5 VM NPs则不然。