Dr. Hsieh, Patrick Ching-Ho 's publons link picture

Dr. Hsieh, Patrick Ching-Ho

Distinguished Research Fellow
Division Chief
  • 02-27899170 (Lab) (Room No: N417)
  • 02-27858594 (Fax)

Specialty:
1. Cardiac repair and regeneration
2. Microbiota and metabolism
3. Human induced pluripotent stem cells
4. Targeted delivery of nanomedicin

Education and Positions:
  • M.D. Kaohsiung Medical College
    Ph.D. University of Washington, Seattle (Bioengineering)


  • Personal CV

  • Highlight Detail
    ...

    Copy number variant hotspots in Han Taiwanese population induced pluripotent stem cell lines - lessons from establishing the Taiwan human disease iPSC Consortium Bank

    Dr. Hsieh, Patrick Ching-Ho
    Journal of Biomedical Science, Sep 04, 2020

    Abstract

    Background

    The Taiwan Human Disease iPSC Service Consortium was established to accelerate Taiwan’s growing stem cell research initiatives and provide a platform for researchers interested in utilizing induced pluripotent stem cell (iPSC) technology. The consortium has generated and characterized 83 iPSC lines: 11 normal and 72 disease iPSC lines covering 21 different diseases, several of which are of high incidence in Taiwan. Whether there are any reprogramming-induced recurrent copy number variant (CNV) hotspots in iPSCs is still largely unknown.

    Methods

    We performed genome-wide copy number variant screening of 83 Han Taiwanese iPSC lines and compared them with 1093 control subjects using an Affymetrix genome-wide human SNP array.

    Results

    In the iPSCs, we identified ten specific CNV loci and seven “polymorphic” CNV regions that are associated with the reprogramming process. Additionally, we established several differentiation protocols for our iPSC lines. We demonstrated that our iPSC-derived cardiomyocytes respond to pharmacological agents and were successfully engrafted into the mouse myocardium demonstrating their potential application in cell therapy.

    Conclusions

    The CNV hotspots induced by cell reprogramming have successfully been identified in the current study. This finding may be used as a reference index for evaluating iPSC quality for future clinical applications. Our aim was to establish a national iPSC resource center generating iPSCs, made available to researchers, to benefit the stem cell community in Taiwan and throughout the world.