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Titre du document / Document title

Peptidhydrogele für den Einsatz von Stammzellen in der regenerativen Medizin = Peptide hydrogels support stem cell applications in regenerative medicine

Auteur(s) / Author(s)

Hauser C.A.E. (1) ; Loo Y.E. (1) ;

Affiliation(s) du ou des auteurs / Author(s) Affiliation(s)

(1) Institute of Bioengineering and Nanotechnology (IBN), The Nanos, #04-01, Singapur 138669

Résumé / Abstract

The therapeutic use of stem cells can potentially revolutionalise the field of medicine. In particular, embryonic stem cells and induced pluripotent stem cells are attractive systems since they are self-renewing sources of totipotent cells. As such, they can be differentiated into different cell types to meet varying needs in different aspects of regenerative medicine. Nonetheless, multiple challenges must be surmounted before stem cell therapy can be made routinely available, e.g., the long-term genetic stability of stem cells and their differentiated progeny. Another key technical hurdle is the optimization of large-scale stem cell culture since a consistent and well-defined source of stem cells is necessary for both research and clinical purposes. Currently, to maintain their pluripotency, human embryonic and induced pluripotent stem cells have to be cultured on Matrigel™, which is the de-cellularised extracellular matrix of mouse sarcoma cells. However, due to its origin and undefined chemical composition, Matrigel™ cannot be used for the large-scale culture of pluripotent stem cells for clinical applications. There is thus a need for clearly-defined and well-characterised culture subtrates for the expansion of stem cells. There is also a need for biomaterials that can potentially be adapted into matrices or vehicles for cell transplantation. We discovered a class of chemically synthesized ultrasmall peptides that are able to self-assemble into fibrillar networks in form of hydrogels. These ultrasmall peptide hydrogels demonstrate a propensity to support the long-term culture of pluripotent stem cells. A plausible explanation is that their 3D macroarchitecture mimics native extracellular matrix. As such, these hydrogels are of interest as a chemically well-defined substrate (yet consisting of only natural amino acids) for the large-scale production of pluripotent stem cells. They can also be applied as implantable scaffolds which facilitate the in vivo proliferation or differentiation of co-delivered stem cells.

Revue / Journal Title

Gynäkologische Endokrinologie    ISSN  1610-2908 

Source / Source

2012, vol. 10, no4, pp. 255-264 [10 page(s) (article)]

Langue / Language

Allemand

Editeur / Publisher

Springer, Heidelberg, ALLEMAGNE  (2002) (Revue)

Mots-clés d'auteur / Author Keywords

Pluripotent stem cells

;

Embryonic stem cells

;

Hydrogels

;

Peptides

;

Cell culture

;

Localisation / Location

35400061423233.0006

Springer-Verlag Berlin Heidelberg, 2012
Nº notice refdoc (ud4) : 26423994



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