Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2013 | 31 | 2 |
Tytuł artykułu

Induced pluripotent stem (iPS) cells in domestic animals - recent achievements - a review

Warianty tytułu
Języki publikacji
Pluripotent cells show the unlimited self-renewal capacity and the potential to differentiate into the cell lineages originating from three germ layers. To date real pluripotent stem cell lines, able to generate germ line chimeras, have been established in rodents. Large domestic animals, especially pig, due to their considerable anatomical and physiological similarities with humans are thought to be convenient model to test potential of pluripotent cells in cell replacement therapy before their clinical use. However, creating pluripotent cells in domestic animals until now has met the limitations due to lack of evidence for germ line contribution. Therefore they can not be considered real pluripotent cells but rather putative embryonic or embryonic-like stem cells. Recently,much attention has been drawn to the reprogramming technologies which enable redirection of differentiated somatic cells to the pluripotent status. The aim of this review is to present the recent achievements in generating of induced pluripotent stem (iPS) cells in domestic animals.
Słowa kluczowe
Opis fizyczny
  • Department of Biology of Reproduction, Institute of Animal Science, Pratelstvi 815, 10400, Prague, Czech Republic
  • AOI T., YAE K., NAKAGAWA M., ICHISAKA T., OKITA K., TAKAHASHI K., CHIBA T.,YAMANAKA S., 2008 − Generation of pluripotent stem cells from adult mouse liver and stomach cells. Science 1, 321(5889), 699-702.
  • BAO L, HE L, CHEN J, WU Z, LIAO J, RAO L, REN J, LI H, ZHU H, QIAN L, GU Y, DAI H, XU X., ZHOU J., WANG W., CUI C., XIAO L., 2011 − Reprogramming of ovine adult fibroblasts to pluripotency via drug-inducible expression of defined factors. Cell Research 21(4), 600-608.
  • BREVINI T.A., ANTONINI S., PENNAROSSA G., GANDOLFI F., 2008 − Recent progress in embryonic stem cell research and its application in domestic species. Reproduction in Domestic Animals 43, 193-199.
  • DATTENA M., CHESSA B., LACERENZA D., ACCARDO C., PILICHI S., MARA L., CHESSA F.,VINCENTI ., CAPPAI P., 2006 − Isolation, culture, and characterization of embryonic cell linesfrom vitrified sheep blastocysts.Molecular Reproduction and Development 73, 31-39.
  • ESTEBAN M.A., XU J., YANG J., PENG M., QIN D., LI W., JIANG Z., CHEN J., DENG K., ZHONG M., CAI J., LAI L., PEI D., 2009 − Generation of induced pluripotent stem cell lines from Tibetan miniature pig. Journal of Biological Chemistry 284(26), 17634-17640.
  • EZASHI T., TELUGU B.P., ALEXENKO A.P., SACHDEV S., SINHA S., ROBERTS R.M., 2009 − Derivation of induced pluripotent stem cells from pig somatic cells . Proceedings of the National Academy of Sciences of the USA 7;106(27), 10993-10998.
  • Evans M.J., Kaufman M.H., 1981 − Establishment in culture of pluripotential cells from mouse embryos. Nature 292, 154-156.
  • Gong G., Roach M.L., Jiang L., Yang X., Tian X.C., 2010 − Culture conditions and enzymatic passaging of bovine ESC-like cells. Cellular Reprogramming 12, 151-160.
  • HALL V., 2008 − Porcine embryonic stem cells: A possible source for cell replacement therapy. Stem Cell Reviews 4, 275–282.
  • HAN X., HAN J., DING F.,CAO S., LIM S.S., DAI Y., ZHANG R., ZHANG Y., LIM B., LI N.,2011 − Generation of induced pluripotent stem cells from bovine embryonic fibroblast cells. Cell Research 21(10), 1509-1512.
  • Hayashi K., Ogushi S., Kurimoto K., Shimamoto S., Ohta H., Saitou M. 2012 −Offspring from oocytes derived from in vitro primordial germ cell-like cells in mice. Science 16,338(6109), 971-5.
  • KIM J.B., GREBER B., ARAÚZO-BRAVO M.J., MEYER J., PARK K.I., ZAEHRES H.,SCHÖLER H.R., 2009a − Direct reprogramming of human neural stem cells by OCT4. Nature 461(7264), 649-653.
  • KIM J.B., ZAEHRES H., ARAUZO-BRAVO M.J., SCHOLER H.R., 2009b − Generation of induced pluripotent stem cells from neural stem cells. Nature Protocols 4, 1464-1470.
  • LENGNER C.J., 2010 − iPS cell technology in regenerative medicine. Annals of the New York Academy of Sciences 1192, 38-44.
  • LI W., ZHOU H., ABUJAROUR R., ZHU S., JOO J.Y., LIN T., HAO E., SCHÖLER H.R., HAYEK A., DING S., 2009 − Generation of human induced pluripotent stem cells in the absence of exogenous Sox2. Stem Cells 27(12), 2992-3000.
  • LI Y., CANG M., LEE A.S., ZHANG K., LIU D., 2011 − Reprogramming of sheep fibroblasts into pluripotency under a drug-inducible expression of mouse-derived defined factors. PLoS One 6;6(1),e15947.
  • LUO J., SUHR S.T., CHANG E.A., WANG K., ROSS P.J., NELSON L.L., VENTA P.J., KNOTT J.G., CIBELLI J.B., 2011 − Generation of leukemia inhibitory factor and basic fibroblast growth factordependent induced pluripotent stem cells from canine adult somatic cells. Stem Cells Development 20(10), 1669-78.
  • Martin G.R.,1981 − Isolation of a pluripotent cell line from early mouse embryos cultured in medium conditioned by teratocarcinoma stem cells. Proceedings of the National Academy of Sciences of the USA 78(12), 7634-7638.
  • MIYAMOTO K., TSUKIYAMA T., YANG Y., LI N., MINAMI N., YAMADA., M., IMAI H., 2009 −Cell-free extracts from mammalian oocytes partially induce nuclear reprogramming in somatic cells.Biology of Reproduction 80, 935-943.
  • MENG X., NEISES A., SU R.J., PAYNE K.J., RITTER L., GRIDLEY D.S., WANG J., SHENG M., LAU K.H., BAYLINK D.J., ZHANG X.B., 2012 − Efficient reprogramming of human cord blood CD34+ cells into induced pluripotent stem cells with OCT4 and SOX2 alone. Molecular Therapy 20(2), 408-416.
  • MOON J.H., HEO J.S., KIM J.S., JUN E.K., LEE J.H., KIM A., KIM J., WHANG K.Y., KANG Y.K., YEO S., LIM H.J., HAN D.W., KIM D.W., OH S., YOON B.S., SCHÖLER H.R., YOU S.,2011 − Reprogramming fibroblasts into induced pluripotent stem cells with Bmi1. Cell Research 21,1305-1315.
  • NAGY K., SUNG H.K., ZHANG P., LAFLAMME S., VINCENT P., AGHA-MOHAMMADI S., WOLTJEN K., MONETTI C., MICHAEL I.P., SMITH L.C., NAGY A., 2011 − Induced pluripotent stem cell lines derived from equine fibroblasts. Stem Cell Reviews 7(3), 693-702.
  • NOWAK-IMIALEK M., KUES W., CARNWATH J.W., NIEMANN H., 2011a − Pluripotent stem cells and reprogrammed cells in farm animals. Microscopy and Microanalysis 17(4), 474-97.
  • NOWAK-IMIALEK M., KUES W.A., PETERSEN B., LUCAS-HAHN A., HERRMANN D., HARIDOSS S., OROPEZA M., LEMME E., SCHÖLER H.R., CARNWATH J.W., NIEMANN H., 2011b − Oct4-enhanced green fluorescent protein transgenic pigs: a new large animal model for reprogramming studies. Stem Cells Development 1563-1575.
  • OHMINE S., DIETZ A.B., DEEDS M.C., HARTJES K.A., MILLER D.R., THATAVA T., SAKUMA T., KUDVA Y.C., IKEDA Y., 2011 − Induced pluripotent stem cells from GMP-grade hematopoietic progenitor cells and mononuclear myeloid cells. Stem Cell research and Therapy 16, 2(6), 46.
  • OKITA K., NAKAGAWA M., HONG H.J, ICHISAKA T., YAMANAKA S., 2008 − Generation of mouse induced pluripotent stem cells without viral vectors. Science 322, 949-953.
  • PAWAR S.S., MALAKAR D., DE A.K., AKSHEY Y.S., 2009 − Stem cell-like outgrowths from in vitro fertilized goat blastocysts. Indian Journal of Experimental Biology 47, 635-642.
  • REN J., PAK Y., HE L., QIAN L., GU Y., LI H., RAO L., LIAO J., CUI C., XU X., ZHOU J., RI H., XIAO L., 2011 − Generation of hircine-induced pluripotent stem cells by somatic cell reprogramming. Cell Research 21(5), 849-853.
  • SAITO S., UGAI H., SAWAI K., YAMAMOTO Y., MINAMIHASHI A., KUROSAKA K.,KOBAYASHI Y., MURATA T, OBATA Y., YOKOYAMA K.K., 2002 − Isolation of embryonic stemlike cells from equine blastocysts and their differentiation in vitro. FEBS Letters 531, 389-396.
  • SARTORI C., DIDOMENICO A.I., THOMSON A.J., MILNE E., LILLICO S.G., BURDON T.G., WHITELAW C.B., 2012 − Ovine-induced pluripotent stem cells can contribute to chimeric lambs.Cell Reprogramming 14(1), 8-19.
  • SHI Y., DESPONTS C, DO J.T., HAHM H.S., SCHÖLER H.R., Ding S., 2008 − Induction of pluripotent stem cells from mouse embryonic fibroblasts by Oct4 and Klf4 with small-molecule compounds. Cell Stem Cell 3, 568-574.
  • Shamblott M.J., Axelman J., Wang S., Bugg E.M., Littlefield J.W., Donovan P.J., Blumenthal P.D., Huggins G.R., Gearhart J.D.,1998 − Derivation of pluripotent stem cells from cultured human primordial germ cells. Proceedings of the National Academy of Sciences of the USA 10, 95(23), 13726-13731.
  • SILVA J., CHAMBERS I., POLLARD S., SMITH A., 2006 − Nanog promotes transfer of pluripotency after cell fusion. Nature 441, 997-1001.
  • STADTFELD M., NAGAYA M., UTIKAL J., WEIR G., HOCHEDLINGER K., 2008 − Induced pluripotent stem cells generated without viral integration. Science 322, 945-949.
  • TAKAHASHI K., YAMANAKA S., 2006 − Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors. Cell 126, 663-676.
  • TAKAHASHI K., TANABE K., OHNUKI M., NARITA M., ICHISAKA T., TOMODA K.,YAMANAKA S., 2007 − Induction of pluripotent stem cells from adult human fibroblasts by defined factors. Cell 131, 861-872.
  • TIEMANN U., SGODDA WARLICH E., BALLMEIER M., SCHÖLER H.R., SCHAMBACH A., CANTZ T., 2011 − Optimal reprogramming factor stoichiometryi increases colony numbers and affects molecular characteristics of murine induced pluripotent stem cells. Cytometry Part A 79A:426-435.
  • THOMSON J.A., ITSKOVITZ-ELDOR J., SHAPIRO S.S., WAKNITZ M.A., SWIERGIEL J.J.,MARSHALL V.S., JONES J.M., 1998 − Embryonic stem cell lines derived from human blastocysts.Science 282, 1145-1147.
  • WERNIG M., ZHAO J.P., PRUSZAK J., HEDLUND E., FU D., SOLDNER F., BROCCOLI V., CONSTANTINE-PATON M., ISACSON O., JAENISCH R., 2008 − Neurons derived from reprogrammed fibroblasts functionally integrate into the fetal brain and improve symptoms of rats with Parkinson‘s disease. Proceedings of the National Academy of Sciences of the USA 15;105(15),5856-61.
  • WEST F.D., TERLOUW S.L., KWON D.J., MUMAW J.L., DHARA S.K., HASNEEN K., DOBRINSKY J.R., STICE S.L., 2010 − Porcine induced pluripotent stem cells produce chimeric offspring. Stem Cells Development 19(8), 1211-1220.
  • WEST F., STICE S., 2011 − Progress toward generating informative porcine biomedical models using induced pluripotent stem cells. Annals of the New York Academy of Sciences 1245, 21-23.
  • WHITWORTH D.J., OVCHINNIKOV D.A., WOLVETANG E.J., 2012 − Generation and characterization of LIF-dependent canine induced pluripotent stem cells from adult dermal fibroblasts. Stem Cells Development 10, 21(12), 2288-97.
  • WILMUT I., SCHNIEKE A.E., MCWHIR J., KIND A.J., CAMPBELL K.H., 1997 − Viable offspring derived from fetal and adult mammalian cells. Nature 385, 810-813.
  • WOBUS A., BOHELER K., 2005 − Embryonic stem cells: prospects for developmental biology and cell therapy. Physiological Reviews 85, 635-678.
  • WU C., DUNBAR C.E., 2011 − Stem cell gene therapy: the risks of insertional mutagenesis and approaches to minimize genotoxicity. Frontiers of Medicine 5(4), 356-371.
  • WU Z., CHEN J., REN J., BAO L., LIAO J., CUI C., RAO L., LI H., GU Y., DAI H., ZHU H., TENG X., CHENG L., XIAO L., 2009 − Generation of pig induced pluripotent stem cells with a drug-inducible system. Journal of Molecular Cell Biology 1(1), 46-54.
  • XU Y.N., GUAN N., WANG Z.D., SHAN Z.Y., SHEN J.L., ZHANG Q.H., JIN L.H., LEI L., 2009 − ES cell extract-induced expression of pluripotent factors in somatic cells. Anat Rec (?) (Hoboken) 292, 1229-1234.
  • YU J., HU K., SMUGA-OTTO K., TIAN S., STEWARTT R., SLUKVIN I.I., THOMSON J.A.,2009 − Human induced pluripotent stem cells free of vector and transgene sequences. Science 324,797-801.
  • ZEUSCHNER D. MILDNER K., ZAEHRES H., SCHÖLER H., 2010 − Induced pluripotent stem cells at nano scale. Stem Cells and Development 19(5), 615-620.
  • ZHOU H., WU S., JOO J.Y., ZHU S., HAN D.W., LIN T., TRAUGER S., BIEN G., YAO S., ZHU Y., SIUZDAK G., SCHÖLER H.R., DUAN L., DING S., 2009 − Generation of induced pluripotent stem cells using recombinant proteins. Cell Stem Cell 4, 381-384.
Typ dokumentu
Identyfikator YADDA
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.