Self-assembled octapeptide scaffolds for in vitro chondrocyte culture

Acta Biomaterialia

Volumn 9, Issue 1, 2013, Pages 4609-4617

  Mujeeb, Ayeesha ^a   Miller, Aline F ^b   Saiani, Alberto ^a   Gough, Julie E ^a  

^a UNIVERSITY OF MANCHESTER   (United Kingdom)

^b UNIVERSITY OF MANCHESTER   (United Kingdom)

Author keywords

Cell culture; Chondrocytes; Hydrogels; Octapeptides; Self assembly

Indexed keywords

AMINO ACIDS; BIOCOMPATIBILITY; CELLS; COLLAGEN; DEPOSITION; ELASTICITY; GELATION; HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY; HYDROGELS; MORPHOLOGY; PEPTIDES; SCAFFOLDS (BIOLOGY); SCANNING ELECTRON MICROSCOPY; SELF ASSEMBLY;

CELL MORPHOLOGY; CHONDROCYTES; CREATIVES; IN-VITRO; MATERIALS SYNTHESIS; MICROSTRUCTURAL CONTROL; MOLECULAR SELF ASSEMBLY; OCTAPEPTIDE; SIMPLE++; SYNTHESIS CONTROL;

CELL CULTURE;

COLLAGEN TYPE 1; COLLAGEN TYPE 2; GLUTAMIC ACID; LYSINE; NANOFIBER; OCTAPEPTIDE; PHENYLALANINE; PHENYLALANYLGLUTAMYLPHENYLALANYLGLUTAMYLPHENYLALANYLLYSYLPHENYLALANYLLYSINE; SCAFFOLD PROTEIN; UNCLASSIFIED DRUG;

ANIMAL CELL; ARTICLE; BETA SHEET; BIOCOMPATIBILITY; CARTILAGE CELL; CELL CULTURE; CELL PROLIFERATION; CELL STRUCTURE; CELL VIABILITY; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; CRYOSCANNING ELECTRON MICROSCOPY; EXTRACELLULAR MATRIX; FLOW KINETICS; GELATION; HYDROGEL; IN VITRO STUDY; NONHUMAN; OSCILLATION; PEPTIDE SYNTHESIS; PRIORITY JOURNAL; SCANNING ELECTRON MICROSCOPY; TISSUE ENGINEERING; TRANSMISSION ELECTRON MICROSCOPY; VISCOELASTICITY;

BOVINAE;

EID: 84870254170     PISSN: 17427061     EISSN: 18787568     Source Type: Journal    
DOI: 10.1016/j.actbio.2012.08.044     Document Type: Article

References (35)

1. S. Zhang Fabrication of novel biomaterials through molecular self assembly Nat Biotechnol 21 2003 1171 1178
2. J. Kisiday, M. Jin, B. Kurz, H. Hung, C. Semino, and S. Zhang Self-assembling peptide hydrogel fosters chondrocytes extracellular matrix production and cell division: implications for cartilage tissue repair Proc Natl Acad Sci USA 99 2002 9996 10001
3. V. Jayawarna, S.M. Richardson, A.R. Hirst, N.W. Hodson, A. Saiani, and J.E. Gough Introducing chemical functionality in Fmoc-peptide gels for cell culture Acta Biomater 5 2009 934 943
4. L. Haines-Butterick, K. Rajagopal, M. Branco, D. Salick, R. Rughani, and M. Pilarz Controlling hydrogelation kinetics by peptide design for three-dimensional encapsulation and injectable delivery of cells Proc Natl Acad Sci USA 104 2007 7791 7796
5. A. Saiani, A. Mohammed, H. Frielinghaus, R. Collins, N. Hodson, and C.M. Kielty Self-assembly and gelation properties of α-helix versus β-sheet forming peptides Soft Matter 5 2009 193 202
6. S. Zhang, D.M. Marini, D.K. Roger, and W. Hwang Supramolecular structure of helical ribbons self-assembled from a beta-sheet peptide J Chem Phys 118 2003 389 397
7. Z. Yang, H. Gu, Y. Zhang, L. Wang, and B. Xu Small molecules hydrogels based on a class of anti-inflammatory agents Chem Commun 2004 208 209
8. R. Langer Biomaterials in drug delivery and tissue engineering: one laboratory's experience Acc Chem Res 33 2000 94 101
9. R.J. Mart, R.D. Osborne, M. Stevens, and R.V. Ulijn Peptide-based stimuli-responsive biomaterials Soft Matter 2 2006 822 835
10. S. Jun, Y. Hong, H. Imamura, B.Y. Ha, J. Bechhoefer, and P. Chen Self-assembly of the ionic peptide EAK16: the effect of charge distributions on self-assembly Biophys J 87 2004 1249 1259
11. T.C. Holmes, S.D. Lacalle, X. Su, G. Liu, A. Rich, and S. Zhang Extensive neurite outgrowth and active synapse formation on self assembling peptide scaffolds Proc Natl Acad Sci USA 97 2000 6728 6733
12. J.K. Kretsinger, L.A. Haines, B. Ozbas, D.J. Pochan, and J.P. Schneider Cytocompatibility of self-assembled β-hairpin peptide hydrogel surfaces Biomaterials 26 2005 5177 5186
13. G.A. Silva, C. Czeisler, K.L. Niece, E. Beniash, D.A. Harrington, and J.A. Kessler Selective differentiation of neural progenitor cells by high-epitope density nanofibres Science 303 2004 1352 1355
14. E. Beniash, J.D. Hartgerink, H. Storrie, J.C. Stendahl, and S.I. Stupp Self-assembling peptide amphiphile nanofiber matrices for cell entrapment Acta Biomater 1 2005 387 397
15. K.L. Niece, J.D. Hartgerink, J.J. Donners, and S.I. Stupp Self-assembly combining two bioactive peptide-amphiphile molecules into nanofibers by electrostatic attraction J Am Chem Soc 125 2003 7146 7147
16. V. Jayawarna, A. Smith, J.E. Gough, and R.V. Ulijn Three-dimensional cell culture of chondrocytes on modified di-phenylalanine scaffolds Biochem Soc Trans 35 2007 535 537
17. V. Jayawarna, M. Ali, T.A. Jowitt, A.F. Miller, A. Saiani, and J.E. Gough Nano-structured hydrogels for three-dimensional cell culture through self-assembly of fluorenylmethoxycarbonyl dipeptides Adv Mater 18 2006 611 614
18. A. Mahler, M. Reches, M. Rechter, S. Cohen, and E. Gazit Rigid, self-assembled hydrogel composed of a modified aromatic dipeptide Adv Mater 18 2006 1365 1370
19. S. Boothroyd, A. Saiani, and A.F. Miller Formation of mixed ionic complementary peptide fibrils Macromol Symp 273 2008 139 145
20. E. Genove, C. Shen, S. Zhang, and C.E. Semino The effect of functionalized self-assembling peptide scaffolds on human aortic endothelial cell function Biomaterials 26 2005 3341 3351
21. J. Liu, H. Song, L. Zhang, H. Xu, and X. Zhao Self-assembled peptide hydrogels as tissue engineering scaffolds for three-dimensional culture of chondrocytes in vitro Macromol Biosci 10 2010 1164 1170
22. C. Cunha, S. Panseri, O. Villa, D. Silva, and F. Gelain 3D culture of adult mouse neural stem cells within functionalized self-assembling peptide scaffolds Int J Nanomed 6 2011 943 955
23. P.C. Georges, and P.A. Janmey Cell type-specific response to growth on soft materials J Appl Physiol 98 2005 1547 1553
24. S. Zhang, R. Ellis-Behnke, Z. Xiaojun, and L. Spirio PuraMatrix: self-assembling peptide nanofiber scaffolds P. Ma, J. Elisseeff, Scaffolding in tissue engineering 2006 CRC Press Boca Raton, FL 1 31
25. P.D. Benya, and J.D. Shaffer Dedifferentiated chondrocytes re-express the differentiated collagen phenotype when cultured in agarose gels Cell 30 1982 215 224
26. M. Zhou, A.M. Smith, A.K. Das, N.W. Hodson, R.F. Collins, and R.V. Ulijn Self-assembled peptide-based hydrogels as scaffolds for anchorage-dependent cells Biomaterials 30 2009 2523 2530
27. S. Zhou, Z. Cui, and J.P. Urban Factors influencing the oxygen concentration gradient from the synovial surface of articular cartilage to the cartilage-bone interface: a modeling study Arthritis Rheum 50 2004 3915 3924
28. B. Fermor, S.E. Christensen, I. Youn, J.M. Cernanec, C.M. Davies, and J.B. Weinberg Oxygen, nitric oxide and articular cartilage Eur Cell Mater 13 2007 56 65
29. D.W. Wang, B. Fermor, J.M. Gimble, H.A. Awad, and F. Guilak Influence of oxygen on the proliferation and metabolism of adipose derived adult stem cells J Cell Physiol 204 2005 184 191
30. C. Domm, J. Steinhagen, S. Freitag, and B. Kurz Influence of various alginate brands on the redifferentiation of dedifferentiated bovine articular chondrocytes in alginate bead culture under high and low oxygen tension Tissue Eng 10 2004 1796 1805
31. L. Lum, and J. Elisseeff Injectable hydrogels for cartilage tissue engineering N. Ashammakhi, P. Ferretti, Topics in tissue engineering 2003 University of Oulu Oulu 1 25
32. F. Gelain, A. Horii, and S. Zhang Designer self-assembling peptide scaffolds for 3D tissue cell cultures and regenerative medicine Macromol Biosci 7 2007 544 551
33. H.J. Chung, and T.G. Park Self-assembled and nanostructured hydrogels for drug delivery and tissue engineering Nano Today 4 2009 429 437
34. R.C. Pereira, M. Scaranari, P. Castagnola, M. Grandizio, H.S. Azevedo, and R.L. Reis Novel injectable gel (system) as a vehicle for human articular chondrocytes in cartilage tissue regeneration J Tissue Eng Regen Med 3 2009 97 106
35. X. Zhao, and S. Zhang Fabrication of molecular materials using peptide construction motifs Trends Biotechnol 22 2004 470 476