Nanomedicine: Nanotechnology, Biology and Medicine
Volume 4, Issue 4 , Pages 330-339 , December 2008

In vitro study of CD133 human stem cells labeled with superparamagnetic iron oxide nanoparticles

  • L.F. Gamarra, PhD

      Affiliations

    • Instituto Israelita de Ensino e Pesquisa Albert Einstein, IIEPAE, São Paulo, Brazil
    • Corresponding Author InformationCorresponding author. Instituto Israelita de Ensino e Pesquisa Albert Einstein (IIEPAE), Sociedade Beneficente Israelita Brasileira Hospital Albert Einstein (SBIBHAE), Av. Albert Einstein, 627/701, Piso Chinuch (2°. Subsolo), Morumbi, São Paulo/SP, Brazil, CEP: 05651-901.
    • ,
  • L.F. Pavon, PhD

      Affiliations

    • Instituto Israelita de Ensino e Pesquisa Albert Einstein, IIEPAE, São Paulo, Brazil
    • ,
  • L.C. Marti, PhD

      Affiliations

    • Instituto Israelita de Ensino e Pesquisa Albert Einstein, IIEPAE, São Paulo, Brazil
    • ,
  • W.M. Pontuschka, PhD

      Affiliations

    • Instituto de Física, Universidade de São Paulo, São Paulo, Brazil
    • ,
  • J.B. Mamani, MS

      Affiliations

    • Instituto de Física, Universidade de São Paulo, São Paulo, Brazil
    • ,
  • S.M. Carneiro, PhD

      Affiliations

    • Laboratório de Biologia Celular, Instituto Butantan, São Paulo, Brazil
    • ,
  • M.I. Camargo-Mathias, PhD

      Affiliations

    • Departamento de Biologia, Instituto de Biociências – UNESP, Rio Claro, SP – Brasil
    • ,
  • C.A. Moreira-Filho, PhD

      Affiliations

    • Instituto Israelita de Ensino e Pesquisa Albert Einstein, IIEPAE, São Paulo, Brazil
    • Instituto de Ciências Biomédicas, Universidade de São Paulo, São Paulo, Brazil
    • ,
  • E. Amaro Jr., MD, PhD

      Affiliations

    • Instituto Israelita de Ensino e Pesquisa Albert Einstein, IIEPAE, São Paulo, Brazil
    • Instituto de Radiologia, Faculdade de Medicina, Universidade de São Paulo, São Paulo, Brazil

Received 8 December 2007 ,Revised 22 May 2008 ,Accepted 27 May 2008.

References 

  1. Bulte JW, Kraitchman DL. Iron oxide MR contrast agents for molecular and cellular imaging. NMR Biomed. 2004;17:484–499
  2. Frank JA, Miller BR, Arbab AS, Zywicke HA, Jordan EK, Lewis BK, et al. Clinically applicable labelfsing of mammalian stem cells by combining superparamagnetic iron oxides and transfection agents. Radiology. 2003;228:480–487
  3. He G, Zhang H, Wei H, Wang Y, Zhang X, Tang Y, et al. In vivo imaging of bone marrow mesenchymal stem cells transplanted into myocardium using magnetic resonance imaging: a novel method to trace the transplanted cells. Int J Cardiol. 2007;114:4–10
  4. Wang YJ, Hussain SM, Krestin GP. Superparamagnetic iron oxide contrast agents: physicochemical characteristics and applications in MR imaging. Eur Radiol. 2001;11:2319–2331
  5. Yeh T, Zhang W, Ildstad ST, Ho C. Intracellular labeling of T-cells with superparamagnetic contrast agents. Magn Reson Med. 1993;30:617–625
  6. Bulte JW, Douglas T, Witwer B, Zhang SC, Strable E, Lewis BK, et al. Magnetodendrimers allow endosomal magnetic labeling and in vivo tracking of stem cells. Nat Biotechnol. 2002;19:1141–1147
  7. Jendelová P, Herynek V, De Croos J, Glogarová K, Andersson B, Hájek M, et al. Imaging the fate of implanted bone marrow stromal cells labeled with superparamagnetic nanoparticles. Magn Res Med. 2003;50:767–776
  8. Song YS, Ku JH. Monitoring transplanted human mesenchymal stem cells in rat and rabbit bladders using molecular magnetic resonance imaging. Neurourol Urodyn. 2007;26:584–593
  9. Song M, Moon WK, Kim Y, Lim D, Song IC, Yoon BW. Labeling efficacy of superparamagnetic iron oxide nanoparticles to human neural stem cells: comparison of ferumoxides, monocrystalline iron oxide, cross-linked iron oxide (CLIO)-NH2 and tat-CLIO. Korean J Radiol. 2007;8:365–371Erratum in: Korean J Radiol. 2008;9:94
  10. Rice HE, Hsu EW, Sheng H, Evenson DA, Freemerman AJ, Safford KM, et al. Superparamagnetic iron oxide labeling and transplantation of adipose-derived stem cells in middle cerebral artery occlusion-injured mice. Am J Roentgenol. 2007;188:1101–1108
  11. Bonanno G, Perillo A, Rutella S, De Ritis DG, Mariotti A, Marone M, et al. Clinical isolation and functional characterization of cord blood CD133+ hematopoietic progenitor cells. Transfusion. 2004;44:1087–1097
  12. Kuci S, Wessels JT, Bühring H, Schilbach K, Schumm M, Seitz G, et al. Identification of a novel class of human adherent CD34 stem cells that give rise to SCI repopulating cells. Blood. 2003;101:869–876
  13. Rubinstein P, Carrier C, Scaradavou A, Kurtzberg J, Adamson J, Migliaccio AR, et al. Outcomes among 562 recipients of placental blood transplant from unrelated donors. N Engl J Med. 1998;339:1565–1577
  14. Torrente Y, Belicchi M, Marchesi C, Dantona G, Cogiamanian F, Pisati F, et al. Autologous transplantation of muscle-derived CD133+ stem cells in Duchenne muscle patients. Cell Transplant. 2007;16:563–577
  15. Ruhparwar A, Ghodsizad A, Niehaus M, Bara C, Lotz J, Voelkel T, et al. Clinically applicable 7-Tesla magnetic resonance visualization of transplanted human adult stem cells labeled with CliniMACS nanoparticles. Thorac Cardiovasc Surg. 2006;54:447–451
  16. Ghodsizad A, Ruhparwar A, Marktanner R, Borowski A, Mohammad Hasani MR, Poll L, et al. Autologous transplantation of CD133+ BM-derived stem cells as a therapeutic option for dilatative cardiomyopathy. Cytotherapy. 2006;8:308–310
  17. Bara C, Ghodsizad A, Niehaus M, Makoui M, Piechaczek C, Martin U, et al. In vivo echocardiographic imaging of transplanted human adult stem cells in the myocardium labeled with clinically applicable CliniMACS nanoparticles. J Am Soc Echocardiogr. 2006;19:563–568
  18. Cyrus T, Caruthers SD, Wickline SA, Lanza GM. Nanoparticles for magnetic resonance imaging of tumors. In:  Kumar CSSR editors. 1st ed.. Nanomaterials for cancer diagnosis. Vol. 7:Weinheim: WILEY-VCH; 2007;p. 121–138
  19. Ahrens ET, Flores R, Xu H, Morel AP. In vivo imaging platform for tracking immunotherapeutic cells. Nat Biotechnol. 2005;23:983–987
  20. Zhang Z, van de Bos EJ, Wielopolski PA, Jong-Popijus M, Bernsen MR, Duncker DJ, et al. In vitro imaging of single living umbilical vein endothelial cells with a clinical 3.0-T MRI scanner. MAGMA. 2005;18:175–185
  21. Zhang Z, van de Bos EJ, Wielopolski PA, Jong-Popijus M, Duncker DJ, Krestin GP. High-resolution magnetic resonance imaging of iron-labeled myoblasts using a standard 1.5-T clinical scanner. MAGMA. 2004;17:201–209
  22. Vinardell MP. In vitro cytotoxicity of nanoparticles in mammalian germ-line stem cell. Toxicol Highlight. 2005;88:285–286
  23. Jendelová P, Herynek V, Urdzíková L, Glogarová K, Kroupová J, Andersson B, et al. Magnetic resonance tracking of transplanted bone marrow and embryonic stem cells labeled by iron oxide nanoparticles in rat brain and spinal cord. J Neurosci Res. 2004;76:232–243
  24. Billotey C, Wilhelm C, Devaud M, Bacri JC, Bittoun J, Gazeau F. Cell internalization of anionic maghemite nanoparticles: quantitative effect on magnetic resonance imaging. Magn Reson Med. 2003;49:646–654
  25. Bulte JW, Arbab AS, Douglas T, Frank JA. Preparation of magnetically labeled cells for cell tracking by magnetic resonance imaging. Methods Enzymol. 2004;386:275–299
  26. Ben-Hur T, van Heeswijk RB, Einstein O, Aharonowiz M, Xue R, Frost EE, et al. Serial in vivo MR tracking of magnetically labeled neural spheres transplanted in chronic EAE mice. Magn Reson Med. 2007;57:164–171
  27. Amsalem Y, Mardor Y, Feinberg MS, Landa N, Miller L, Daniels D, et al. Iron-oxide labeling and outcome of transplanted mesenchymal stem cells in the infarcted myocardium. Circulation. 2007;116(11 Suppl):I38–I45
  28. Miraglia S, Godfrey W, Yin AH, Atkins K, Warnke R, Holden J, et al. A novel five-transmembrane hematopoietic stem cell antigen: isolation, characterization, and molecular cloning. Blood. 1997;90:5013–5021
  29. Yin AH, Miraglia S, Zanjani ED, Almeida-Porada G, Ogawa M, Leary AG, et al. AC133, a novel marker for human hematopoietic stem and progenitor cells. Blood. 1997;90:5002–5012
  30. Bonnet D. Haematopoietic stem cells. J Pathol. 2002;197:430–440
  31. Wulf GG, Jackson KA, Googell MA. Somatic stem cell plasticity: current evidence and emerging concepts. Exp Hematol. 2001;29:1361–1370
  32. Forbes SJ, Vig P, Poulsom R, Wright NA, Alison MR. Adult stem cell plasticity: new pathways to tissue regeneration become visible. Clin Sci. 2002;103:355–369
  33. Kuehnle I, Goodell MA. The therapeutic potential of stem cells from adults. BMJ. 2002;325:372–376
  34. Gang EJ, Hong SH, Jeong JA, Hwang SH, Kin SW, Yang IH, et al. In vitro mesengenic potential of human umbilical cord blood–derived mesenchymal stem cells. Biochem Biophys Res Commun. 2004;321:102–108
  35. Huss R, Lnage C, Weissinger EM, Kolb HJ, Thalmeier K. Evidence of peripheral blood-derived, plastic-adherent CD 34(–/low) hematopoietic stem cell clones with mesenchymal stem cell characteristics. Stem Cells. 2000;18:252–260
  36. Watt SM, Butler LH, Tavian M, Bühring HJ, Rappold I, Simmons PJ, et al. Functionally defined CD164 epitopes are expressed on CD34(+) cells throughout ontogeny but display distinct distribution patterns in adult hematopoietic and nonhematopoietic tissues. Blood. 2000;95:3113–3124
  37. de Wynter EA, Buck D, Hart C, Heywood R, Coutinho LH, Clayton A, et al. CD34+AC133+ cells isolated from cord blood are highly enriched in long-term culture-initiating cells, NOD/SCID-repopulating cells and dendritic cell progenitors. Stem Cells. 1998;16:387–396
  38. Handgretinger R, Gordon PR, Leimig T, Chen X, Buhring HJ, Niethammer D, et al. Biology and plasticity of CD133+ hematopoietic stem cells. Ann NY Acad Sci. 2006;996:141–151
  39. Goussetis E, Theodosaki M, Paterakis G, Peristeri J, Petropoulos D, Kitra V, et al. A functional hierarchy among the CD34+ hematopoietic cells based on in vitro proliferative and differentiative potential of AC133+CD34bright and AC133dim/–CD34+ human cord blood cells. J Hematother Stem Cell Res. 2006;9:827–840
  40. Shilov V, Raikher YL, Bacri JC, Gazeau F, Perzynski R, Stepanov VI. Effect of unidirectional anisotropy on the ferromagnetic resonance in ferrite nanoparticles. Phys Rev B. 1998;60:11902–11905
  41. Gazeau F, Shilov V, Bacri JC, Dubois E, Gendron F, Perzynski R, et al. Magnetic resonance of nanoparticles in a ferrofluid: evidence of thermofluctuational effects. J Magn Magn Mater. 1999;202:535–546
  42. Iannone A, Magin RL, Walczak T, Federico M, Swartz HM, Tomasi A, et al. Clearance of dextran magnetite particles determined by a noninvasive in vivo ESR method. Magn Reson Med. 1991;22:435–442
  43. Raikher YL, Stepanov VI. Ferromagnetic resonance in a suspension of single-domain particles. Phys Rev B. 1994;50:6250–6259
  44. Biasi E, Ramos CA, Zysler RD. Size and anisotropy determination by ferromagnetic resonance in dispersed magnetic nanoparticle systems. J Magn Magn Mat. 2003;262:235–241
  45. Raikher YL, Stepanov VI. Magnetic resonances in ferrofluids: temperature effects. J Magn Magn Mater. 1995;149:34–37
  46. Lehner M, Holter W. Endotoxin-free purification of monocytes for dendritic cell generation via discontinuous density gradient centrifugation based on diluted Ficoll-Paque Plus. Int Arch Allergy Immunol. 2002;128:73–76
  47. Griscom DL. Ferromagnetic resonance of precipitated phases in natural glasses. J Non-Cryst Solids. 1984;67:81–118
  48. Reis ST, Faria DLA, Martinelli JR, Pontuschka WM, Day DE, Partiti CSM. Structural features of lead iron phosphate glasses. J Non-Cryst Solids. 2002;304:188–194
  49. Gamarra LF, Brito GES, Pontuschka WM, Amaro E, Parma AHC, Goya GF. Biocompatible superparamagnetic iron oxide nanoparticles used for contrast agents: a structural and magnetic study. J Magn Magn Mater. 2005;289:439–441
  50. Sharma VK, Waldner F. Superparamagnetic and ferrimagnetic resonance of ultrafine Fe3O4 particles in ferrofluids. J Appl Phys. 1997;48:4298–4302

 This work was financed by Instituto Israelita de Ensino e Pesquisa Albert Einstein (IIEP), CNPq, and Instituto do Milênio de Fluidos Complexos.

PII: S1549-9634(08)00081-6

doi: 10.1016/j.nano.2008.05.002

Nanomedicine: Nanotechnology, Biology and Medicine
Volume 4, Issue 4 , Pages 330-339 , December 2008

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