Comparative study of human-induced pluripotent stem cells derived from bone marrow cells, hair keratinocytes, and skin fibroblasts.

@article{StreckfussBmeke2013ComparativeSO,
  title={Comparative study of human-induced pluripotent stem cells derived from bone marrow cells, hair keratinocytes, and skin fibroblasts.},
  author={Katrin Streckfuss-B{\"o}meke and Frieder Wolf and Azadeh Azizian and Michael Stauske and Malte Tiburcy and Stefan Wagner and Daniela H{\"u}bscher and Ralf Dressel and Simin Chen and J{\"o}rg Jende and Gerald G. Wulf and Verena Natalie Lorenz and Michael P. Sch{\"o}n and Lars S. Maier and Wolfram-Hubertus Zimmermann and Gerd Hasenfuss and Kaomei Guan},
  journal={European heart journal},
  year={2013},
  volume={34 33},
  pages={
          2618-29
        }
}
AIMS Induced pluripotent stem cells (iPSCs) provide a unique opportunity for the generation of patient-specific cells for use in disease modelling, drug screening, and regenerative medicine. The aim of this study was to compare human-induced pluripotent stem cells (hiPSCs) derived from different somatic cell sources regarding their generation efficiency and cardiac differentiation potential, and functionalities of cardiomyocytes. METHODS AND RESULTS We generated hiPSCs from hair keratinocytes… 
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Tissue-Restricted Stem Cells as Starting Cell Source for Efficient Generation of Pluripotent Stem Cells: An Overview.
TLDR
This review presents an overview of promising tissue-restricted stem cells that can be isolated from different sources, namely, neural stem cells, hematopoietic stem Cells, mesenchymalstem cells, limbal epithelial stem cells), and spermatogonial stem cells and their reprogramming efficacy.
A Comparative View on Human Somatic Cell Sources for iPSC Generation
TLDR
The advantages of keratinocytes from human plucked hair are highlighted as a widely usable, noninvasive harvesting method for primary material in comparison with other commonly used cell types.
A circular RNA map for human induced pluripotent stem cells of foetal origin
Human Pluripotent Stem Cell-Derived Cardiomyocytes as Research and Therapeutic Tools
TLDR
This work aims at focusing on the protocols for differentiation of hPSCs into functional cardiomyocytes in vitro as well as achievements in the heart disease modelling and drug testing on the patient-specific iPSC-derivedCardiomyocyte-CMs.
Reprogramming of Keratinocytes as Donor or Target Cells Holds Great Promise for Cell Therapy and Regenerative Medicine
TLDR
Recent advances in keratinocyte reprogramming are discussed, focusing on the induction methods, potential molecular mechanisms, conversion efficiency, and safety for clinical applications.
An Overview on Promising Somatic Cell Sources Utilized for the Efficient Generation of Induced Pluripotent Stem Cells.
TLDR
This review provides an overview of promising easily accessible somatic cell sources isolated in non-invasive or minimally invasive manner such as keratinocytes, urine cells, and peripheral blood mononuclear cells used for the generation of human iPSCs derived from healthy and diseased subjects.
Differentiation of blood T cells: Reprogramming human induced pluripotent stem cells into neuronal cells
Induced pluripotent stem cells for cartilage repair: current status and future perspectives.
TLDR
iPSCs emerge as a promising cell source for treating cartilage defects and have the potential to be used in the clinical field, and a review summarises the recent progress in iPSC technology and its applications for cartilage repair.
Induced pluripotent stem cells from human hair follicle keratinocytes as a potential source for in vitro hair follicle cloning
TLDR
It is proved that hair follicles could be used to produce pluripotent stem cells and suggested that the genetic and micro-environmental elements ofhair follicles might trigger higher and more efficient hair follicle re-differentiation.
Cardiac progenitors derived from reprogrammed mesenchymal stem cells contribute to angiomyogenic repair of the infarcted heart
TLDR
Efficient reprogramming of multipotent bone marrow (BM) mesenchymal stem cells (MSC) to pluripotent status and the resultant MSC derived iPS cells (MiPS) and their derived progenitors effectively repaired the infarcted heart.
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