Protein-based human iPS cells efficiently generate functional dopamine neurons and can treat a rat model of Parkinson disease.

نویسندگان

  • Yong-Hee Rhee
  • Ji-Yun Ko
  • Mi-Yoon Chang
  • Sang-Hoon Yi
  • Dohoon Kim
  • Chun-Hyung Kim
  • Jae-Won Shim
  • A-Young Jo
  • Byung-Woo Kim
  • Hyunsu Lee
  • Suk-Ho Lee
  • Wonhee Suh
  • Chang-Hwan Park
  • Hyun-Chul Koh
  • Yong-Sung Lee
  • Robert Lanza
  • Kwang-Soo Kim
  • Sang-Hun Lee
چکیده

Parkinson disease (PD) involves the selective loss of midbrain dopamine (mDA) neurons and is a possible target disease for stem cell-based therapy. Human induced pluripotent stem cells (hiPSCs) are a potentially unlimited source of patient-specific cells for transplantation. However, it is critical to evaluate the safety of hiPSCs generated by different reprogramming methods. Here, we compared multiple hiPSC lines derived by virus- and protein-based reprogramming to human ES cells (hESCs). Neuronal precursor cells (NPCs) and dopamine (DA) neurons delivered from lentivirus-based hiPSCs exhibited residual expression of exogenous reprogramming genes, but those cells derived from retrovirus- and protein-based hiPSCs did not. Furthermore, NPCs derived from virus-based hiPSCs exhibited early senescence and apoptotic cell death during passaging, which was preceded by abrupt induction of p53. In contrast, NPCs derived from hESCs and protein-based hiPSCs were highly expandable without senescence. DA neurons derived from protein-based hiPSCs exhibited gene expression, physiological, and electrophysiological properties similar to those of mDA neurons. Transplantation of these cells into rats with striatal lesions, a model of PD, significantly rescued motor deficits. These data support the clinical potential of protein-based hiPSCs for personalized cell therapy of PD.

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عنوان ژورنال:
  • The Journal of clinical investigation

دوره 121 6  شماره 

صفحات  -

تاریخ انتشار 2011