Effect of nano- and micro-scale topological features on alignment of muscle cells and commitment of myogenic differentiation

Biofabrication

Volumn 6, Issue 3, 2014, Pages

  Jana, Soumen ^a   Leung, Matthew ^a   Chang, Julia ^b   Zhang, Miqin ^a  

^a University of Washington   (United States)

^b UNIVERSITY OF WASHINGTON   (United States)

Author keywords

Aligned; Electrospinning; Muscle tissue engineering; Nanofiber; Scaffold

Indexed keywords

ALIGNMENT; CELLS; CHITIN; CHITOSAN; CYTOLOGY; ELECTROSPINNING; GENE EXPRESSION; HYBRID MATERIALS; MUSCLE; MUSCULOSKELETAL SYSTEM; NANOFIBERS; SCAFFOLDS; SUBSTRATES; TISSUE; TISSUE ENGINEERING; TOPOLOGY;

ALIGNED; ALIGNED NANOFIBERS; MUSCLE TISSUES; MYOGENIC DIFFERENTIATIONS; NATIVE EXTRACELLULAR MATRIX; STRUCTURAL COMBINATION; SURGICAL TREATMENT; TOPOLOGICAL FEATURES;

SCAFFOLDS (BIOLOGY);

NANOFIBER;

ANIMAL; CELL CULTURE; CELL DIFFERENTIATION; CHEMISTRY; CYTOLOGY; DEVICES; GROWTH, DEVELOPMENT AND AGING; MOUSE; MUSCLE CELL; MUSCLE DEVELOPMENT; MYOBLAST; SKELETAL MUSCLE; TISSUE ENGINEERING; TISSUE SCAFFOLD;

ANIMALS; CELL DIFFERENTIATION; CELLS, CULTURED; MICE; MUSCLE CELLS; MUSCLE DEVELOPMENT; MUSCLE, SKELETAL; MYOBLASTS; NANOFIBERS; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

EID: 84982938486     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5082/6/3/035012     Document Type: Article

References (46)

1. Turner N J and Badylak S F 2012 Regeneration of skeletal muscle Cell Tissue Res. 347 759-74
2. Danoviz M E and Yablonka-Reuveni Z 2012 Skeletal muscle satellite cells: background and methods for isolation and analysis in a primary culture system Methods Mol. Biol. 798 21-52
3. Buford T W, Anton S D, Judge A R, Marzetti E, Wohlgemuth S E, Carter C S, Leeuwenburgh C, Pahor M and Manini T M 2010 Models of accelerated sarcopenia: critical pieces for solving the puzzle of agerelated muscle atrophy Ageing Res. Rev. 9 369-83
4. Campion D R 1984 The muscle satellite cell: a review Int. Rev. Cytol. 87 225-51
5. DiEdwardo C A, Petrosko P, Acarturk T O, DiMilla P A, LaFramboise W A and Johnson P C 1999 Muscle tissue engineering Clin. Plast. Surg. 26 647-56
6. Jackson W M, Nesti L J and Tuan R S 2010 Potential therapeutic applications of muscle-derived mesenchymal stem and progenitor cells Expert Opin. Biol. Ther. 10 505-17
7. Klumpp D, Horch R E, Kneser U and Beier J P 2010 Engineering skeletal muscle tissue-new perspectives in vitro and in vivo J. Cell. Mol. Med. 14 2622-9
8. Kino-oka M, Chowdhury S R, Muneyuki Y, Manabe M, Saito A, Sawa Y and Taya M 2009 Automating the expansion process of human skeletal muscle myoblasts with suppression of myotube formation Tissue Eng. C: Methods 15 717-28
9. Hahn W, Pyun W-B, Kim D-S, Yoo W-S, Lee S-D, Won J-H, Shin G J, Kim J-M and Kim S 2011 Enhanced cardioprotective effects by coexpression of two isoforms of hepatocyte growth factor from naked plasmid DNA in a rat ischemic heart disease model J. Gene Med. 13 549-55
10. Sekine H, Shimizu T, Dobashi I, Matsuura K, Hagiwara N, Takahashi M, Kobayashi E, Yamato M and Okano T 2011 Cardiac cell sheet transplantation improves damaged heart function via superior cell survival in comparison with dissociated cell injection Tissue Eng. A 17 2973-80
11. Longo U G, Loppini M, Berton A, Spiezia F, Maffulli N and Denaro V 2012 Tissue engineered strategies for skeletal muscle injury Stem Cells Int. 2012 175038
12. Kuraitis D, Giordano C, Ruel M, Musaro A and Suuronen E J 2012 Exploiting extracellular matrix-stem cell interactions: a review of natural materials for therapeutic muscle regeneration Biomaterials 33 428-43
13. Sato M, Ito A, Kawabe Y, Nagamori E and Kamihira M 2011 Enhanced contractile force generation by artificial skeletal muscle tissues using IGF-I gene-engineered myoblast cells J. Biosci. Bioeng. 112 273-8
14. Kroehne V, Heschel I, Schuegner F, Lasrich D, Bartsch J W and Jockusch H 2008 Use of a novel collagen matrix with oriented pore structure for muscle cell differentiation in cell culture and in grafts J. Cell. Mol. Med. 12 1640-8
15. Levenberg S et al 2005 Engineering vascularized skeletal muscle tissue Nat. Biotechnol. 23 879-84
16. Wang P Y, Yu H T and Tsai W B 2010 Modulation of alignment and differentiation of skeletal myoblasts by submicron ridges/grooves surface structure Biotechnol. Bioeng. 106 285-94
17. Moon D G, Christ G, Stitzel J D, Atala A and Yoo J J 2008 Cyclic mechanical preconditioning improves engineered muscle contraction Tissue Eng. A 14 473-82
18. Vandenburgh H H 2002 Functional assessment and tissue design of skeletal muscle Ann. (N. Y.) Acad. Sci. 961 201-2
19. Lam M T, Sim S, Zhu X and Takayama S 2006 The effect of continuous wavy micropatterns on silicone substrates on the alignment of skeletal muscle myoblasts and myotubes Biomaterials 27 4340-7
20. Bian W and Bursac N 2008 Cellular/tissue engineering IEEE Eng. Med. Biol. Mag. 27 109-13
21. Bursac N, Loo Y, Leong K and Tung L 2007 Novel anisotropic engineered cardiac tissues: studies of electrical propagation Biochem. Biophys. Res. Commun. 361 487-53
22. Huang Y C, Dennis R G, Larkin L and Baar K 2005 Rapid formation of functional muscle in vitro using fibrin gels J. Appl. Physiol. 98 706-13
23. Khodabukus A and Baar K 2012 Defined electrical stimulation emphasizing excitability for the development and testing of engineered skeletal muscle Tissue Eng. C: Methods 18 349-57
24. Huang N F, Lee R J and Li S 2010 Engineering of aligned skeletal muscle by micropatterning Am. J. Transl. Res. 2 43-55
25. Rossi C A, Flaibani M, Blaauw B, Pozzobon M, Figallo E, Reggiani C, Vitiello L, Elvassore N and De Coppi P 2011 In vivo tissue engineering of functional skeletal muscle by freshly isolated satellite cells embedded in a photopolymerizable hydrogel Faseb Journal 25 2296-304
26. Dhandayuthapani B, Yoshida Y, Maekawa T and Kumar D S 2011 Polymeric scaffolds in tissue engineering application: a review Int. J. Polym. Sci. 2011 290602
27. Jana S, Cooper A and Zhang M 2013 Chitosan scaffolds with unidirectional microtubular pores for large skeletal myotube generation Adv. Health Mater. 2 557-61
28. Jun. I, Jeong S and Shin H 2009 The stimulation of myoblast differentiation by electrically conductive sub-micron fibers Biomaterials 30 2038-47
29. Thorrez L, Shansky J, Wang L, Fast L, VandenDriessche T, Chuah M, Mooney D and Vandenburgh H 2008 Growth, differentiation, transplantation and survival of human skeletal myofibers on biodegradable scaffolds Biomaterials 29 75-84
30. Beier J P, Klumpp D, Rudisile M, Dersch R, Wendorff J H, Bleiziffer O, Arkudas A, Polykandriotis E, Horch R E and Kneser U 2009 Collagen matrices from sponge to nano: new perspectives for tissue engineering of skeletal muscle BMC Biotechnol. 9 34
31. Neves S C, Moreira Teixeira L S, Moroni L, Reis R L, Van Blitterswijk C A, Alves N M, Karperien M and Mano J F 2011 Chitosan/poly (epsilon-caprolactone) blend scaffolds for cartilage repair Biomaterials 32 1068-79
32. Wu C S 2005 A comparison of the structure, thermal properties, and biodegradability of polycaprolactone/chitosan and acrylic acid grafted polycaprolactone/chitosan Polymer 46 147-55
33. Danielsson C, Ruault S, Simonet M, Neuenschwander P and Frey P 2006 Polyesterurethane foam scaffold for smooth muscle cell tissue engineering Biomaterials 27 1410-5
34. Bach A D, Stem-Straeter J, Beier J P, Bannasch H and Stark G B 2003 Engineering of muscle tissue Clin. Plast. Surg. 30 589-99
35. Dalby M J, Riehle M O, Sutherland D S, Agheli H and Curtis A S G 2004 Use of nanotopography to study mechanotransduction in fibroblasts-methods and perspectives Eur. J. Cell Biol. 83 159-69
36. Teixeira A I, Abrams G A, Bertics P J, Murphy C J and Nealey P F 2003 Epithelial contact guidance on well-defined micro- and nanostructured substrates J. Cell Sci. 116 1881-92
37. Kim D-H, Seo C-H, Han K, Kwon K W, Levchenko A and Suh K-Y 2009 Guided cell migration on microtextured substrates with variable local density and anisotropy Adv. Funct. Mater. 19 1579-86
38. Ropka-Molik K, Eckert R and Piorkowska K 2011 The expression pattern of myogenic regulatory factors MyoD, Myf6 and Pax7 in postnatal porcine skeletal muscles Gene Expression Patterns 11 79-83
39. Scime A, Caron A Z and Grenier G 2009 Advances in myogenic cell transplantation and skeletal muscle tissue engineering Front. Biosci. 14 3012-23
40. Guex A G, Kocher F M, Fortunato G, Koerner E, Hegemann D, Carrel T P, Tevaearai H T and Giraud M N 2012 Fine-tuning of substrate architecture and surface chemistry promotes muscle tissue development Acta Biomaterialia 8 1481-9
41. Costa M L, Escaleira R C, Jazenko F and Mermelstein C S 2008 Cell adhesion in zebrafish myogenesis: Distribution of intermediate filaments, microfilaments, intracellular adhesion structures and extracellular matrix Cell Motil. Cytoskel. 65 801-15
42. Baker B M, Handorf A M, Ionescu L C, Li W-J and Mauck R L 2009 New directions in nanofibrous scaffolds for soft tissue engineering and regeneration Expert Rev. Med. Devices 6 515-32
43. Teh T K H, Toh S-L and Goh J C H 2011 Aligned hybrid silk scaffold for enhanced differentiation of mesenchymal stem cells into ligament fibroblasts Tissue Eng. Part C-Methods 17 687-703
44. Chen M, Patra P K, Warner S B and Bhowmick S 2007 Role of fiber diameter in adhesion and proliferation of NIH 3T3 fibroblast on electrospun polycaprolactone scaffolds Tissue Eng. 13 579-87
45. Christopherson G T, Song H and Mao H Q 2009 The influence of fiber diameter of electrospun substrates on neural stem cell differentiation and proliferation Biomaterials 30 556-64
46. Zhang D, Shadrin I Y, Lam J, Xian H Q, Snodgrass H R and Bursac N 2013 Tissue-engineered cardiac patch for advanced functional maturation of human ESC-derived cardiomyocytes Biomaterials 34 5813-20