Fabrication methods of an engineered microenvironment for analysis of cell-biomaterial interactions

Biomaterials

Volumn 28, Issue 2, 2007, Pages 126-133

  Shin, Heungsoo ^a  

^a Hanyang University   (South Korea)

Author keywords

Biomaterial microarray; Cell adhesion; Cell biomaterial interactions; Microfabrication; Micropattering

Indexed keywords

BIOMATERIAL MICROARRAY; CELL ADHESION; CELL/BIOMATERIAL INTERACTIONS; EXTRACELLULAR MATRIX (ECM); MICROFABRICATION; MICROPATTERING;

BIOMATERIALS; LITHOGRAPHY; SUBSTRATES; TISSUE;

CELLS;

BIOMATERIAL; COLLAGEN TYPE 1; COLLAGEN TYPE 3; COLLAGEN TYPE 4; DIMETICONE; ELASTOMER; LAMININ; MACROGOL; MONOMER;

ANALYTIC METHOD; BIOLOGICAL ACTIVITY; CELL ADHESION; CELL CULTURE; CELL INTERACTION; EMBRYONIC STEM CELL; ENDOTHELIUM CELL; EXTRACELLULAR MATRIX; GEOMETRY; HUMAN; MICROARRAY ANALYSIS; MICROENVIRONMENT; PRIORITY JOURNAL; REVIEW; T LYMPHOCYTE;

ANIMALS; BIOCOMPATIBLE MATERIALS; BIOMEDICAL ENGINEERING; CELL ADHESION; ENVIRONMENT; EXTRACELLULAR MATRIX; HUMANS;

EID: 33749552179     PISSN: 01429612     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2006.08.007     Document Type: Review

References (71)

1. Langer R., and Tirrell D.A. Designing materials for biology and medicine. Nature 428 6982 (2004) 487-492
2. Garcia A.J. Get a grip: integrins in cell-biomaterial interactions. Biomaterials 26 36 (2005) 7525-7529
3. DeMali K.A., Wennerberg K., and Burridge K. Integrin signaling to the actin cytoskeleton. Curr Opin Cell Biol 15 5 (2003) 572-582
4. Hynes R.O. Integrins: bidirectional, allosteric signaling machines. Cell 110 6 (2002) 673-687
5. Calderwood D.A. Integrin activation. J Cell Sci 117 Part 5 (2004) 657-666
6. Lee K.Y., and Mooney D.J. Hydrogels for tissue engineering. Chem Rev 101 7 (2001) 1869-1879
7. Garcia A.J., and Boettiger D. Integrin-fibronectin interactions at the cell-material interface: initial integrin binding and signaling. Biomaterials 20 23-24 (1999) 2427-2433
8. Shin H., Jo S., and Mikos A.G. Biomimetic materials for tissue engineering. Biomaterials 24 24 (2003) 4353-4364
9. Anselme K., and Bigerelle M. Modelling approach in cell/material interactions studies. Biomaterials 27 8 (2006) 1187-1199
10. Andersson H., and Berg A.V.D. Microfabrication and microfluidics for tissue engineering: state of the art and future opportunities. Lab Chip 4 (2004) 98-103
11. Sniadecki N.J., Desai R.A., Ruiz S.A., and Chen C.S. Nanotechnology for cell-substrate interactions. Ann Biomed Eng 34 1 (2006) 59-74
12. Whitesides G.M., Ostuni E., Takayama S., Jiang X., and Ingber D.E. Soft lithography in biology and biochemistry. Annu Rev Biomed Eng 3 (2001) 335-373
13. Geissler M., and Xia Y. Patterning: principles and some new developments. Adv Mater 16 15 (2004) 1249-1269
14. Whitesides G.M., Kriebel J.K., and Love J.C. Molecular engineering of surfaces using self-assembled monolayers. Sci Prog 88 Part 1 (2005) 17-48
15. Gates B.D., Xu Q., Stewart M., Ryan D., Willson C.G., and Whitesides G.M. New approaches to nanofabrication: molding, printing, and other techniques. Chem Rev 105 4 (2005) 1171-1196
16. Matsuzawa M., Liesi P., and Knoll W. Chemically modifying glass surfaces to study substratum-guided neurite outgrowth in culture. J Neurosci Methods 69 2 (1996) 189-196
17. Mrksich M., Chen C.S., Xia Y., Dike L.E., Ingber D.E., and Whitesides G.M. Controlling cell attachment on contoured surfaces with self-assembled monolayers of alkanethiolates on gold. Proc Natl Acad Sci USA 93 20 (1996) 10775-10778
18. den Braber E.T., de Ruijter J.E., Ginsel L.A., von Recum A.F., and Jansen J.A. Orientation of ECM protein deposition, fibroblast cytoskeleton, and attachment complex components on silicone microgrooved surfaces. J Biomed Mater Res 40 2 (1998) 291-300
19. Chen C.S., Alonso J.L., Ostuni E., Whitesides G.M., and Ingber D.E. Cell shape provides global control of focal adhesion assembly. Biochem Biophys Res Commun 307 2 (2003) 355-361
20. Lehnert D., Wehrle-Haller B., David C., Weiland U., Ballestrem C., Imhof B.A., et al. Cell behaviour on micropatterned substrata: limits of extracellular matrix geometry for spreading and adhesion. J Cell Sci 117 Part 1 (2004) 41-52
21. Gallant N.D., Capadona J.R., Frazier A.B., Collard D.M., and Garcia A.J. Micropatterned surfaces to engineer focal adhesions for analysis of cell adhesion strengthening. Langmuir 18 (2002) 5579-5584
22. Gallant N.D., Michael K.E., and Garcia A.J. Cell adhesion strengthening: contributions of adhesive area, integrin binding, and focal adhesion assembly. Mol Biol Cell 16 9 (2005) 4329-4340
23. McBeath R., Pirone D.M., Nelson C.M., Bhadriraju K., and Chen C.S. Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment. Dev Cell 6 4 (2004) 483-495
24. Thery M., Racine V., Pepin A., Piel M., Chen Y., Sibarita J.B., et al. The extracellular matrix guides the orientation of the cell division axis. Nat Cell Biol 7 10 (2005) 947-953
25. Brock A., Chang E., Ho C.C., LeDuc P., Jiang X., Whitesides G.M., et al. Geometric determinants of directional cell motility revealed using microcontact printing. Langmuir 19 5 (2003) 1611-1617
26. Doh J., and Irvine D.J. Immunological synapse arrays: patterned protein surfaces that modulate immunological synapse structure formation in T cells. Proc Natl Acad Sci USA 103 15 (2006) 5700-5705
27. Chen C.S., Mrksich M., Huang S., Whitesides G.M., and Ingber D.E. Geometric control of cell life and death. Science 276 5317 (1997) 1425-1428
28. Lee K.Y., Alsberg E., Hsiong S., Comisar W., Linderman J., Ziff R., et al. Nanoscale adhesion ligand organization regulates osteoblast proliferation and differentiation. Nano Lett 4 8 (2004) 1501-1506
29. Thompson D.M., and Buettner H.M. Oriented Schwann cell monolayers for directed neurite outgrowth. Ann Biomed Eng 32 8 (2004) 1120-1130
30. Oliva Jr. A.A., James C.D., Kingman C.E., Craighead H.G., and Banker G.A. Patterning axonal guidance molecules using a novel strategy for microcontact printing. Neurochem Res 28 11 (2003) 1639-1648
31. Vogt A.K., Stefani F.D., Best A., Nelles G., Yasuda A., Knoll W., et al. Impact of micropatterned surfaces on neuronal polarity. J Neurosci Methods 134 2 (2004) 191-198
32. Clark P., Coles D., and Peckham M. Preferential adhesion to and survival on patterned laminin organizes myogenesis in vitro. Exp Cell Res 230 2 (1997) 275-283
33. McDevitt T.C., Angello J.C., Whitney M.L., Reinecke H., Hauschka S.D., Murry C.E., and Stayton P.S. In vitro generation of differentiated cardiac myofibers on micropatterned laminin surfaces. J Biomed Mater Res 60 3 (2002) 472-479
34. McDevitt T.C., Woodhouse K.A., Hauschka S.D., Murry C.E., and Stayton P.S. Spatially organized layers of cardiomyocytes on biodegradable polyurethane films for myocardial repair. J Biomed Mater Res A 66 3 (2003) 586-595
35. Liu W.F., and Chen C.S. Engineering biomaterials to control cell function. Materialstoday 8 12 (2005) 28-35
36. Wang N., Butler J.P., and Ingber D.E. Mechanotransduction across the cell surface and through the cytoskeleton. Science 260 5111 (1993) 1124-1127
37. Burridge K., and Chrzanowska-Wodnicka M. Focal adhesions, contractility, and signaling. Annu Rev Cell Dev Biol 12 (1996) 463-518
38. Chrzanowska-Wodnicka M., and Burridge K. Rho-stimulated contractility drives the formation of stress fibers and focal adhesions. J Cell Biol 133 6 (1996) 1403-1415
39. Balaban N.Q., Schwarz U.S., Riveline D., Goichberg P., Tzur G., Sabanay I., et al. Force and focal adhesion assembly: a close relationship studied using elastic micropatterned substrates. Nat Cell Biol 3 5 (2001) 466-472
40. Galbraith C.G., Yamada K.M., and Sheetz M.P. The relationship between force and focal complex development. J Cell Biol 159 4 (2002) 695-705
41. Chen C.S., Tan J., and Tien J. Mechanotransduction at cell-matrix and cell-cell contacts. Annu Rev Biomed Eng 6 (2004) 275-302
42. Discher D.E., Janmey P., and Wang Y.L. Tissue cells feel and respond to the stiffness of their substrate. Science 310 5751 (2005) 1139-1143
43. Wang Y.L., and Pelham Jr. R.J. Preparation of a flexible, porous polyacrylamide substrate for mechanical studies of cultured cells. Methods Enzymol 298 (1998) 489-496
44. Pelham Jr. R.J., and Wang Y. Cell locomotion and focal adhesions are regulated by substrate flexibility. Proc Natl Acad Sci USA 94 25 (1997) 13661-13665
45. Lo C.M., Wang H.B., Dembo M., and Wang Y.L. Cell movement is guided by the rigidity of the substrate. Biophys J 79 1 (2000) 144-152
46. Damljanovic V., Lagerholm B.C., and Jacobson K. Bulk and micropatterned conjugation of extracellular matrix proteins to characterized polyacrylamide substrates for cell mechanotransduction assays. Biotechniques 39 6 (2005) 847-851
47. Peyton S.R., and Putnam A.J. Extracellular matrix rigidity governs smooth muscle cell motility in a biphasic fashion. J Cell Physiol 204 1 (2005) 198-209
48. Khatiwala C.B., Peyton S.R., and Putnam A.J. The intrinsic mechanical properties of the extracellular matrix affect the behavior of pre-osteoblastic MC3T3-E1 cells. Am J Physiol Cell Physiol (2006)
49. Engler A., Bacakova L., Newman C., Hategan A., Griffin M., and Discher D. Substrate compliance versus ligand density in cell on gel responses. Biophys J 86 1 Part 1 (2004) 617-628
50. Engler A.J., Griffin M.A., Sen S., Bonnemann C.G., Sweeney H.L., and Discher D.E. Myotubes differentiate optimally on substrates with tissue-like stiffness: pathological implications for soft or stiff microenvironments. J Cell Biol 166 6 (2004) 877-887
51. Kong H.J., Liu J., Riddle K., Matsumoto T., Leach K., and Mooney D.J. Non-viral gene delivery regulated by stiffness of cell adhesion substrates. Nat Mater 4 6 (2005) 460-464
52. Mann B.K., Gobin A.S., Tsai A.T., Schmedlen R.H., and West J.L. Smooth muscle cell growth in photopolymerized hydrogels with cell adhesive and proteolytically degradable domains: synthetic ECM analogs for tissue engineering. Biomaterials 22 22 (2001) 3045-3051
53. Lutolf M.P., Weber F.E., Schmoekel H.G., Schense J.C., Kohler T., Muller R., et al. Repair of bone defects using synthetic mimetics of collagenous extracellular matrices. Nat Biotechnol 21 5 (2003) 513-518
54. Raeber G.P., Lutolf M.P., and Hubbell J.A. Molecularly engineered PEG hydrogels: a novel model system for proteolytically mediated cell migration. Biophys J 89 2 (2005) 1374-1388
55. Lutolf M.P., and Hubbell J.A. Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering. Nat Biotechnol 23 1 (2005) 47-55
56. Bailey S.N., Sabatini D.M., and Stockwell B.R. Microarrays of small molecules embedded in biodegradable polymers for use in mammalian cell-based screens. Proc Natl Acad Sci USA 101 46 (2004) 16144-16149
57. Anderson D.G., Burdick J.A., and Langer R. Materials science. Smart biomaterials. Science 305 5692 (2004) 1923-1924
58. Meredith J.C., Sormana J.L., Keselowsky B.G., Garcia A.J., Tona A., Karim A., et al. Combinatorial characterization of cell interactions with polymer surfaces. J Biomed Mater Res A 66 3 (2003) 483-490
59. Anderson D.G., Putnam D., Lavik E.B., Mahmood T.A., and Langer R. Biomaterial microarrays: rapid, microscale screening of polymer-cell interaction. Biomaterials 26 23 (2005) 4892-4897
60. Anderson D.G., Levenberg S., and Langer R. Nanoliter-scale synthesis of arrayed biomaterials and application to human embryonic stem cells. Nat Biotechnol 22 7 (2004) 863-866
61. Flaim C.J., Chien S., and Bhatia S.N. An extracellular matrix microarray for probing cellular differentiation. Nat Methods 2 2 (2005) 119-125
62. Revzin A., Russell R.J., Yadavalli V.K., Koh W.G., Deister C., Hile D.D., et al. Fabrication of poly(ethylene glycol) hydrogel microstructures using photolithography. Langmuir 17 18 (2001) 5440-5447
63. Revzin A., Sekine K., Sin A., Tompkins R.G., and Toner M. Development of a microfabricated cytometry platform for characterization and sorting of individual leukocytes. Lab Chip 5 1 (2005) 30-37
64. Revzin A., Rajagopalan P., Tilles A.W., Berthiaume F., Yarmush M.L., and Toner M. Designing a hepatocellular microenvironment with protein microarraying and poly(ethylene glycol) photolithography. Langmuir 20 8 (2004) 2999-3005
65. Chin V.I., Taupin P., Sanga S., Scheel J., Gage F.H., and Bhatia S.N. Microfabricated platform for studying stem cell fates. Biotechnol Bioeng 88 3 (2004) 399-415
66. Abbott A. Cell culture: biology's new dimension. Nature 424 6951 (2003) 870-872
67. Stegemann J.P., and Nerem R.M. Phenotype modulation in vascular tissue engineering using biochemical and mechanical stimulation. Ann Biomed Eng 31 4 (2003) 391-402
68. Bianchi F., Vassalle C., Simonetti M., Vozzi G., Domenici C., and Ahluwalia A. Endothelial cell function on 2D and 3D micro-fabricated polymer scaffolds: applications in cardiovascular tissue engineering. J Biomater Sci Polym Ed 17 1-2 (2006) 37-51
69. Cukierman E., Pankov R., Stevens D.R., and Yamada K.M. Taking cell-matrix adhesions to the third dimension. Science 294 5547 (2001) 1708-1712
70. Liu V.T., and Bhatia S.N. Three-dimensional photopatterning of hydrogels containing living cells. Biomed Microdevices 4 4 (2002) 257-266
71. Albrecht D.R., Liu V.T., Sah R.L., and Bhatia S.N. Photo- and electropatterning of hydrogel-encapsulated living cell arrays. Lab Chip 5 (2005) 111-118