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Article citationsMore>>

Ichida, J.K., Blanchard, J., Lam, K., Son, E.Y., Chung, J.E., Egli, D., Loh, K.M., Carter, A.C., Di-Giorgio, F.P., Koszka, K., Huangfu, D., Akutsu, H., Liu, D.R., Rubin, L.L. and Eggan, K. (2009) A Small-Molecule Inhibitor of Tgf-Beta Signaling Replaces Sox2 in Reprogramming by Inducing Nanog. Cell Stem Cell, 5, 491-503. http://dx.doi.org/10.1016/j.stem.2009.09.012

has been cited by the following article:

  • TITLE: In Pursuit of Porcine Pluripotent Stem Cells for Autologous Cell Therapy

    AUTHORS: Vinod Verma, Ashish Mehta, Sanjay Pal, Manoj Kumar, Birbal Singh, Ashok Kumar, Sanjeev Gautam

    KEYWORDS: Porcine Model, Signaling Pathways, Stem Cells, Induced Pluripotent Stem Cells, Pluripotency, Regenerative Medicine, Cell Therapy, Epigenetics

    JOURNAL NAME: Stem Cell Discovery, Vol.4 No.4, September 18, 2014

    ABSTRACT: Treatments to repair the human heart following regenerative diseases remain a challenge for medical science. Unlike lower vertebrate species the human heart lacks a regenerative pathway meaning that research has to be focused on cell transplantation. Porcines (Sus scrofa) are excellent models for cardiovascular disease and pluripotent stem cells (PSCs) generated from porcines will provide important clinical insights for cardiac cell therapy. This could open a new avenue of research into degenerative conditions as porcine is a more effective human proxy to work with. However, bona fide PSCs are currently available onlyin rodents (mouse, rat) and primates (monkey, human). Attempts to derivepluripotent stem cells (PSCs) from porcine have been going on for more than two decades with slow progress. Despite the fact that the porcine stem cells are under increasing glare of publicity due to milestone achievements in this area of research. Advances in stem cell technology, especially the genetic engineering, innovative cell culturing and induced pluripotency to generate stem cells has dramatically revolutionized the basic and applied investigations and applications of porcine stem cells. This review attempts to summarize the major signaling pathways involved in maintenance of pluripotency and the state of the art conceptual and technical progress for generating bona fide porcine PSCs.

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