PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2009 | 69 | 1 |

Tytuł artykułu

Patterned growth and differentiation of human cord blood-derived neural stem cells on bio-functionalized surfaces

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Bio-functionalized surfaces were prepared to study the adherence and differentiation capacity of neural stem cells derived from human umbilical cord blood (HUCB-NSC). Cell growth platforms containing arranged arrays of adhesive molecules were created by microcontact printing on a biologically inert surface. Biomolecules used to prepare microarray platforms included the extracellular matrix protein fibronectin and the polyaminoacid poly-L-lysine. HUCB-NSC plated on microplatforms at various serum conditions showed serum and molecule type dependent capacity for adhesion and differentiation. Poly-L-lysine allowed the maintenance of stem-like non differentiated cells attached to the surface, whereas fibronectin promoted spreading and neural commitment. Serum deprivation did not influence the attachment of HUCB-NSC to fibronectin, but significantly enhanced the attachment to poly-L-lysine and promoted dBcAMP induced neuronal differentiation. A bio-pattern of squares with interconnecting lines was used to guide neuronal differentiation by directing cell protrusion outgrowth. Tailoring the geometry of the bio-pattern enabled directing and monitoring of the neural stem cells development in the large scale multiparameter biotests.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

69

Numer

1

Opis fizyczny

p.24-36,fig.,ref.

Twórcy

autor
  • In Vitro Toxicology/ECVAM, Institute for Health and Consumer Protection, European Commission, Joint Research Centre, Ispra, Italy
  • NeuroRepair Department, Mossakowski Medical Research Centre, Polish Academy of Sciences, Warsaw, Poland
autor
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
autor
  • NeuroRepair Department, Mossakowski Medical Research Centre, Polish Academy of Sciences, Warsaw, Poland
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
autor
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
autor
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
autor
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
autor
  • Nanotechnology and Molecular Imaging Unit, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy
  • NeuroRepair Department, Mossakowski Medical Research Centre, Polish Academy of Sciences, Warsaw, Poland
autor
  • In Vitro Toxicology/ECVAM, Institute for Health and Consumer Protection, European Commission, Joint Research Centre, Ispra, Italy

Bibliografia

  • Anderson DG, Putnam D, Lavik EB, Mahmood TA, Langer R (2005) Biomaterial microarrays: rapid, microscale screening of polymer-cell interaction. Biomaterials 26: 4892-4897.
  • Bhogal N, Grindon C, Combes R, Balls M (2005) Toxicity testing: creating a revolution based on new technologies. Trends Biotechnol 23: 299-307.
  • Bliss T, Guzman R, Daadi M, Steinberg GK ( 2007) Cell transplantation therapy for stroke. Stroke 38: 817­826.
  • Bretagnol F, Ceriotti L, Lejeune M, Papadopoulou- Bouraoui A, Hasiwa M, Gilliland D, et al. (2006) Functional micropatterned surfaces by combination of plasma polymerization and lift-off processes. Plasma Proc Pol 3: 30-38
  • Buhnemann C, Scholz A, Bernreuther C, Malik CY, Braun H, Schachner M, Reymann KG, Dihne M (2006) Neuronal differentiation of transplanted embryonic stem cell- derived precursors in stroke lesions of adult rats. Brain129: 3238-3248.
  • Buzanska L, Machaj EK, Zablocka B, Pojda Z, Domanska- Janik K (2002) Human cord blood-derived cells attain neuronal and glial features in vitro. J Cell Sci 115: 2131­2138.
  • Buzanska L, Habich A, Jurga M, Sypecka J, Domanska- Janik K (2005) Human cord blood-derived neural stem cell line-possible implementation in studying neurotoxic- ity. Toxicol In vitro 19: 991-999.
  • Buzanska L, Jurga M, Stachowiak EK, Stachowiak M K, Domanska-Janik K (2006a) Neural stem-like cell line derived from a nonhematopoietic population of human umbilical cord blood. Stem Cells Dev 15: 391-406.
  • Buzanska L, Jurga M, Domanska-Janik K (2006b) Neuronal differentiation of human umbilical cord blood neural stem-like cell line. Neurodegener Dis 3: 19-26.
  • Caldwell MA, He X, Wilkie N, Pollack S, Marshall G, Wafford KA, Svendsen CN (2001) Growth factors regu­late the survival and fate of cells derived from human neurospheres. Nat Biotechnol 19: 475-479.
  • Ceriotti L, Buzanska L, Rauscher H, Mannelli I, Zychowicz M, Gilliland D, Hasiwa M, Bretagnol F, Ruiz A, Bremer S, Coecke S, Colpo P, Rossi F (2009) Fabrication and characterization of protein arrays for stem cells pattern­ing. Soft Matters 5: 1-12.
  • Chen CS, Mrksich M, Huang S, Whitesides GM, Ingber DE (1997) Geometric control of cell life and death. Science 276: 1425-1428.
  • Coecke S, Goldberg AM, Allen S, Buzanska L, Calamandrei G, Crofton K, Hareng L, Hartung T, Knaut H, Honegger P, Jacobs M, Lein P, Li A, Mundy W, Owen D, Schneider S, Silbergeld E, Reum T, Trnovec T, Monnet-Tschudi F, Bal-Price A (2007) Workgroup report: incorporating in vitro alternative methods for developmental neurotoxicity into international hazard and risk assessment strategies. Environ Health Perspect 115: 924-931.
  • Conti L, Cattaneo E, Papadimou E (2008) Novel neural stem cell systems. Expert Opin Biol Ther 8: 153-160.
  • Cuypers PA, Corsel JW, Janssen MP, Kop JMM, Hermens WT, Hemker HC (1983) The adsorption of prothrombin to phosphatidylserine multilayers quantitated by ellipsometry. J Biol Chem 258: 2426-2431.
  • Davila JC, Cezar GG, Thiede M, Strom S, Miki T, Trosko J (2004) Use and application of stem cells in toxicology. Toxicol Sci 79: 214-223.
  • Doetsch F, Garcia-Verdugo JM, Alvarez-Buy lla A (1997) Cellular composition and three-dimensional organization of the subventricular germinal zone in the adult mamma­lian brain. J Neurosci 17: 5046-5061.
  • Domanska-Janik K, Buzanska L, Lukomska B (2008) A novel, neural potential of non-hematopoietic human umbilical cord blood stem cells Int. J Dev Biol 52: 237­248.
  • Draberova E, Del Valle L, Gordon J, Markova V, Smejkalova B, Bertrand L, de Chadarevian JP, Agamanolis DP, Legido A, Khalili K, Draber P, Ksatsetos CD (2008) Class III beta-tubulin is constitutively coexpressed with glial fibrillary acidic protein and nestin in midgestational human fetal astrocytes: implications for phenotypic iden­tity. J Neuropathol Exp Neurol 67: 341-354.
  • Durbec P, Franceschini I, Lazarini F, Dubois-Dalcq M (2008) In vitro migration assays of neural stem cells. Methods Mol Biol 438: 213-225.
  • Falconnet D, Csucs G, Grandin HM, Textor M (2006) Surface engineering approaches to micropattern surfaces for cell-based assays. Biomaterials 27: 3044-3063.
  • Flaim CJ, Chien S, Bhatia SN (2005) An extracellular matrix microarray for probing cellular differentiation. Nat Methods 2: 119-125.
  • Guemouri L, Ogier J, Zekhnini Z, Ramsden JJ (2000) The architecture of fibronectin at surfaces. J Chem Phys 113: 8183-8186.
  • Habich A, Jurga M, Markiewicz I, Lukomska B, Bany- Laszewicz U, Domanska-Janik K (2006) Early appear­ance of stem/progenitor cells with neural-like characteris­tics in human cord blood mononuclear fraction cultured in vitro. Exp Hematol 34: 914-925.
  • Habisch HJ, Janowski M, Binder D, Kuzma-Kozakiewicz M, Widmann A, Habich A, Schwalenstöcker B, Hermann A, Brenner R, Lukomska B, Domanska-Janik K, Ludolph AC, Storch A (2007) Intrathecal application of neuroecto- dermally converted stem cells into a mouse model of ALS: limited intraparenchymal migration and survival narrows therapeutic effects. J Neural Transm 114: 1395-1406.
  • Harris DT, Badowski M, Ahmad N, Gaballa MA (2007) The potential of cord blood stem cells for use in regenerative medicine. Expert Opin Biol Ther 7: 1311-1322.
  • Jurga M, Markiewicz I, Sarnowska A, Buzanska L, Lukomska B, Domanska-Janik K (2006). Preconditioning of human neural stem cells in low serum medium increases their dif­ferentiation into neurons. J Neurosci Res 83: 627-631.
  • Jurga M, Lipkowski AW, Lukomska B, Buzanska L, Kurzepa K, Sobanski T, Habich A, Coecke S, Gajkowska B, Domanska-Janik K (2009) Generation of functional neural artificial tissue from human umbilical cord-blood stem cells. Tissue Eng Part A (ahead of print. doi:10.1089/ten. tea.2008.0485.).
  • Kim HT, Kim IS, Lee IS, Lee JP, Snyder EY, Park KI (2006) Human neurospheres derived from the fetal central ner­vous system are regionally and temporally specified but are not committed. Exp Neurol 199: 222-235.
  • Kozlowska H, Jablonka J, Janowski M, Jurga M, Kossut M, Domanska-Janik K (2007) Transplantation of a novel Human Cord Blood-Derived Neural-Like Stem Cell Line in a rat model of cortical infarct. Stem Cells Dev 16: 481-488.
  • Kucia M, Halasa M, Wysoczynski M, Baskiewicz-Masiuk M, Moldenhawer S, Zuba Surma E, Czajka R, Wojakowski W, Machalinski B, Ratajczak MZ (2007) Morphological and molecular characterization of novel population of CXCR4+ SSEA-4+Oct-4+ very small embryonic-like cells purified from human cord blood - preliminary report. Leukemia 21: 297-303.
  • Kuschel C, Steuer H, Maurer AN, Kanzok B, Stoop R, Angres B (2006) Cell adhesion profiling using extracellular matrix protein microarrays. Biotechniques 40: 523-531.
  • Lin H (2002) The stem-cell niche theory: lessons from flies. Nat Rev Genet 3: 931-940.
  • Longhurst CM, Jennings LK (1998) Integrin-mediated signal transduction. Cell Mol Life Sci 54: 514-526.
  • Mazia D, Schatten G, Sale W (1975) Adhesion of cells to surfaces coated with polylysine. J Cell Biol 66: 198-200.
  • McGuckin C, Forraz N, Baradez MO, Basford C, Dickinson AM, Navran S, Hartgerink JD (2006) Embryonic-like stem cells from umbilical cord blood and potential for neural modeling. Acta Neurobiol Exp (Wars) 66: 321­329.
  • McGuckin CP, Forraz N (2008) Umbilical cord blood stem cells - an ethical source for regenerative medicine. Med Law 27: 147-165.
  • Peltonen J, Larjava H, Jaakkola S, Gralnick H, Akiyama SK, Yamada SS, Yamada KM, Uitto J (1989) Localization of Integrin Receptors for Fibronectin, Collagen, and Laminin in Human Skin. J Clin Invest 84: 1916-1923.
  • Peterbauer T, Heitz J, Olbrich M, Hering S (2006) Simple and versitile methods for the fabrication of arrays of live mammalian cells. Lab Chip 6: 857-863.
  • Pluchino S, Zanotti L, Deleidi M, Martino G (2005) Neural stem cells and their use as therapeutic tool in neurological disorders. Brain Res Rev 48: 211-219.
  • Pomp O, Brokhman I, Ziegler L, Almog M, Korngreen A, Tavian M, Goldstein RS (2008) PA6-induced human embryonic stem cell-derived neurospheres: a new source of human peripheral sensory neurons and neural crest cells. Brain Res 1230: 50-60.
  • Raghavan S, Chen CS (2004) Micropatterned environments in cell biology. Advanced Materials 16: 1303-1313.
  • Richards S, Leavesley D, Topping G, Upton Z (2008) devel­opment of defined media for the serum-free expansion of primary keratinocytes and Human Embryonic Stem Cells. Tissue Eng Part C Methods 14: 221-232.
  • Richert L, Arntz Y, Schaaf P, Voegel J-C, Picart C (2004) pH dependent growth of poly(L-lysine)/poly(L-glutamic) acid multilayer films and their cell adhesion properties. Surf Sci 570: 13-29.
  • Ruiz A, Ceriotti L, Buzanska L, Hasiwa M, Bretagnol F,Ceccone G, Gilliland D, Rauscher H, Coecke S, Colpo P, Rossi F (2007) Controlled micropatterning of biomolecules for cell culturing. Microelectronic Engineering 84: 1733-1736.
  • Ruiz A, Buzanska L, Gilliland D, Rauscher H, Sirghi L, Sobanski T, Zychowicz M, Ceriotti L, Bretagnol F, Coecke S, Colpo P, Rossi F (2008a) Micro-stamped sur­faces for the patterned growth of neural stem cells. Biomaterials 29: 4766-4774.
  • Ruiz A, Buzanska L, Ceriotti L, Bretagnol F, Coecke S, Colpo P, Rossi F (2008b) Stem-cell culture on patterned bio-functional surfaces. J Biomater Sci Polym Ed 19: 1649-1657.
  • Sanchez-Ramos JR (2002) Neural cells derived from adult bone marrow and umbilical cord blood. J Neurosci Res 69: 880-893.
  • Soen Y, Mori A, Palmer TD, Brown PO (2006) Exploring the regulation of human neural precursor cell differentia­tion using arrays of signaling microenvironments. Mol Syst Biol 2: 1-14.
  • Stroemer P, Hope A, Patel S, Pollock K, Sinden J (2008) Development of a human neural stem cell line for use in recovery from disability after stroke. Front Biosci 13: 2290-2292.
  • Sun W, Buzanska L, Domanska-Janik K, Salvi RJ, Stachowiak MK (2005) Voltage-sensitive and ligand- gated channels in differentiating neural stem-like cells derived from the nonhematopoietic fraction of human umbilical cord blood. Stem Cells 23: 931-945.
  • Suzuki H, Taguchi T, Tanaka H, Kataoka H, Li Z, Muramatsu K, Gondo T, Kawai S (2004) Neurospheres induced from bone marrow stromal cells are multipotent for differentia­tion into neuron, astrocyte, and oligodendrocyte pheno- types. Biochem Biophys Res Commun 322: 918-922.
  • Tourovskaia A, Figueroa-Masot X, Folch A (2005) Differentiation-on-a-chip: A microfluidic platform for long-term cell culture studies. Lab Chip 5: 14-19.
  • Trosko JE (2003) the role of stem cells and gap junctional intercellular communication in carcinogenesis. J Biochem Mol Biol 36: 43-48.
  • Trosko JE (2006) From adult stem cells to cancer stem cells. Ann N Y Acad Sci 1089: 36-58.
  • Tsuji Y, Yoshimura N, Aoki H, Sharov AA, Ko MSH, Motohashi T, Kunisada T (2008) Maintenance of undif- ferentiated mouse embryonic stem cells in suspension by the serum- and feeder-free defined culture condition. Dev Dyn 237:2129-2138.
  • Widera D, Grimm WD, Moebius JM, Mikenberg I, Piechaczek C, Gassmann G, Wolff NA, Thevenod F, Kaltschmidt C, Kaltschmidt B (2007) Highly efficient neural differentiation of human somatic stem cells, iso­lated by minimally invasive periodontal surgery. Stem Cells Dev 16: 447-460.
  • Yang LY, Zheng JK, Liu XM, Hui GZ, Guo LH (2003) The in vitro myelin formation in neurospheres of human neu­ral stem cells. Chin J Traumatol 6: 341-345.
  • Yang Q, Mu J, Li Q, Li A, Zeng Z, Yang J, Zhang X, Tang J, Xie P (2008) A simple and efficient method for deriving neurospheres from bone marrow stromal cells. Biochem Biophys Res Commun 372: 520-524.

Uwagi

EN
Rekord w opracowaniu

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-8c8f306a-d1cf-4b46-83e4-8377056c8b3b
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.