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Expert Opinion on Biological Therapy Volume 10, 2010 - Issue 12
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Decellularized matrices for tissue engineering

Takashi Hoshiba National Institute for Materials Science, Biomaterials Center, Tsukuba, Ibaraki 305-0044, Japan +81 29 860 4496; +81 29 860 4714; [email protected]
, PhD,
Hongxu Lu National Institute for Materials Science, Biomaterials Center, Tsukuba, Ibaraki 305-0044, Japan +81 29 860 4496; +81 29 860 4714; [email protected]
, PhD,
Naoki Kawazoe National Institute for Materials Science, Biomaterials Center, Tsukuba, Ibaraki 305-0044, Japan +81 29 860 4496; +81 29 860 4714; [email protected]
, PhD &
Guoping Chen National Institute for Materials Science, Biomaterials Center, Tsukuba, Ibaraki 305-0044, Japan +81 29 860 4496; +81 29 860 4714; [email protected]
, PhD
Pages 1717-1728 | Published online: 09 Nov 2010

Bibliography

  • Langer R, Vacanti JP. Tissue engineering. Science 1993;260:920-6
  • Griffith LG, Naughton G. Tissue engineering-current challenges and expanding opportunities. Science 2002;295:1009-14
  • Badylak SF, Freytes DO, Gilbert TW. Extracellular matrix as a biological scaffolds material: structure and function. Acta Biomater 2009;5:1-13
  • Adachi E, Hopkinson I, Hayashi T. Basement-membrane stromal relationships: interactions between collagen fibrils and the lamina densa. Int Rev Cytol 1997;173:73-156
  • Giancotti FG, Ruoslahti E. Integrin signaling. Science 1999;285:1028-32
  • Rahman S, Patel Y, Murray J, Novel hepatocyte growth factor (HGF) binding domains on fibronectin and vitronectin coordinate a distinct and amplified Met-integrin induced signalling pathway in endothelial cells. BMC Cell Biol 2005;6:8
  • Comoglio PM, Boccaccio C, Trusolino L. Interactions between growth factor receptors and adhesion molecules: breaking the rules. Curr Opin Cell Biol 2003;15:565-71
  • Manabe R, Tsutsui K, Yamada T, Transcriptome-based systematic identification of extracellular matrix proteins. Proc Natl Acad Sci USA 2008;105:12849-54
  • Frisch SM, Francis H. Disruption of epithelial cell-matrix interactions induces apoptosis. J Cell Biol 1994;124:619-26
  • Grossmann J. Molecular mechanisms of “detachment-induced apoptosis-Anoikis”. Apoptosis 2002;7:247-60
  • Gu J, Fujibayashi A, Yamada KM, Sekiguchi K. Laminin-10/11 and fibronectin differentially prevent apoptosis induced by serum removal via phosphatidylinositol 3-kinase/Akt- and MEK1/ERK-dependent pathways. J Biol Chem 2002;277:19922-8
  • Gu J, Sumida Y, Sanzen N, Sekiguchi K. Laminin-10/11 and fibronectin differentially regulate integrin-dependent Rho and Rac activation via p130Cas-CrkII-Dock180 pathway. J Biol Chem 2001;276:27090-7
  • Serandour A-L, Loyer P, Garnier D, TNFalpha-mediated extracellular matrix remodeling is required for multiple division cycles in rat hepatocytes. Hepatology 2005;41:478-86
  • Mohammed FF, Pennington CJ, Kassiri Z, Metalloproteinase inhibitor TIMP-1 affects hepatocyte cell cycle via HGF activation in murine liver regeneration. Hepatology 2005;41:857-67
  • Gutierrez J, Osses N, Brandan E. Changes in secreted and cell associated proteoglycan synthesis during conversion of myoblasts to osteoblasts in response to bone morphogenetic protein-2: role of decorin in cell response to BMP-2. J Cell Physiol 2006;206:58-67
  • Moreno M, Munoz R, Aroca F, Biglycan is a new extracellular component of the Chordin-BMP4 signaling pathway. EMBO J 2005;24:1397-405
  • Kerever A, Schnack J, Vellinga D, Novel extracellular matrix structures in the neural stem cell niche capture the neurogenic factor fibroblast growth factor 2 from the extracellular milieu. Stem Cells 2007;25:2146-57
  • Engler AJ, Sen S, Sweeney HL, Discher DE. Matrix elasticity directs stem cell lineage specification. Cell 2006;126:677-89
  • Alcaraz J, Xu R, Mori H, Laminin and biomimetic extracellular elasticity enhance functional differentiation in mammary epithelia. EMBO J 2008;27:2829-38
  • Sellaro TL, Ravindra AK, Stolz DB, Badylak SF. Maintenance of hepatic sinusoidal endothelial cell phenotype in vitro using organ-specific extracellular matrix scaffolds. Tissue Eng 2007;13:2301-10
  • Daley WP, Peters SB, Larsen M. Extracellular matrix dynamics in development and regenerative medicine. J Cell Sci 2008;121:255-64
  • Midwood KS, Williams LV, Schwarzbauer JE. Tissue repair and the dynamics of the extracellular matrix. Int J Biochem Cell Biol 2004;36:1031-7
  • Bedossa P, Paradis V. Liver extracellular matrix in health and disease. J Pathol 2003;200:504-15
  • Gilbert TW, Sellaro TL, Badylak SF. Decellularization of tissues and organs. Biomaterials 2006;27:3675-83
  • Jackson DW, Grood ES, Cohn BT, The effects of in situ freezing on the anterior cruciate ligament. An experimental study in goats. J Bone Joint Surg Am 1991;73:201-13
  • Yoo JJ, Meng J, Oberpenning F, Atala A. Bladder augmentation using allogenic bladder submucosa seeded with cells. Urology 1998;51:221-5
  • Chen F, Yoo JJ, Atala A. Acellular collagen matrix as a possible “off the shelf” biomaterial for urethral repair. Urology 1999;54:407-10
  • Woods T, Gratzer PF. Effectiveness of three extraction techniques in the development of a decellularized bone-anterior cruciate ligament-bone graft. Biomaterials 2005;26:7339-49
  • McFetridge PS, Daniel JW, Bodamyali T, Preparation of porcine carotid arteries for vascular tissue engineering applications. J Biomed Mater Res 2004;70A:224-34
  • Ott HC, Matthiesen TS, Goh S-K, Perfusion-decellularized matrix: using nature's platform to engineer a bioartificial heart. Nat Med 2008;14:213-21
  • Steinhoff GU, Stock N, Karim H, Tissue engineering of pulmonary heart valves on allogenic acellular matrix conduits in vivo restoration of valve tissue. Circulation 2000;102:III-50-5
  • Bertipaglia BF, Ortolani L, Petrelli G, Cell characterization of porcine aortic valve and decellularized leaflets repopulated with aortic valve interstitial cells: the VESALIO Project (Vitalitate Exornatum Succedaneum Aorticum Labore Ingenioso Obtenibitur). Ann Thorac Surg 2003;75:1274-82
  • Tedder ME, Simionescu A, Chen J, Assembly and testing of stem cell-seeded layered collagen constructs for heart valve tissue engineering. Tissue Eng A: published online 6 September 2010, doi:10.1089/ten.tea.2010.0138
  • Schmidt CE, Baier JM. A cellular vascular tissues: natural biomaterials for tissue repair and tissue engineering. Biomaterials 2000;21:2215-31
  • Singelyn JM, DeQuach JA, Seif-Naraghi SB, Naturally derived myocardial matrix as an injectable scaffold for cardiac tissue engineering. Biomaterials 2009;30:5409-16
  • Badylak SF, Lantz GC, Coffey A, Geddes LA. Small intestinal submucosa as a large diameter vascular graft in the dog. J Surg Res 1989;47:74-80
  • Funamoto S, Nam K, Kimura T, The use of high-hydrostatic pressure treatment to decellularized blood vessels. Biomaterials 2010;31:3590-5
  • Badylak SF. The extracellular matrix as a biologic scaffold material. Biomaterials 2007;28:3587-93
  • Badylak SF, Freytes DO, Gilbert TW. Extracellular matrix as a biological scaffold material: Structure and function. Acta Biomater 2009;5:1-13
  • Ott HC, Clippinger B, Conrad C, Regeneration and orthotopic transplantation of a bioartificial lung. Nat Med 2010;16:927-33
  • Petersen TH, Calle EA, Zhao L, Tissue-engineered lungs for in vivo implantation. Science 2010;329:538-41
  • Price AP, England KA, Matson AM, Development of a decellularized lung bioreactor system for bioengineering the lung: the matrix reloaded. Tissue Eng A 2010;16:2581-91
  • Jungebluth P, Go T, Asnaghi A, Structural and morphologic evaluation of a novel detergent-enzymatic tissue-engineered tracheal tubular matrix. J Thorac Cardiovasc Surg 2009;138:586-93
  • Wainwright D, Madden M, Luterman A, Clinical evaluation of an acellular allograft dermal matrix in full-thickness burns. J Burn Care Rehabil 1996;17:124-36
  • Stern M. The grafting of preserved amniotic membrane to burned and ulcerated surfaces, substituting skin grafts. JAMA 1913;60:973-4
  • Hudson TW, Liu SY, Schmidt CE. Engineering an improved acellular nerve graft via optimized chemical processing. Tissue Eng 2004;10:1346-58
  • Sondell M, Lundborg G, Kanje M. Regeneration of the rat sciatic nerve into allografts made acellular through chemical extraction. Brain Res 1998;795:44-54
  • Choi JS, Williams JK, Margaret G, Bioengineering endothelialized neo-corneas using donor-derived corneal endothelial cells and decellularized corneal stroma. Biomaterials 2010;31:6738-45
  • Sasaki S, Funamoto S, Hashimoto Y, In vivo evaluation of a novel scaffold for artificial corneas prepared by using ultrahigh hydrostatic pressure to decellularized porcine corneas. Mol Vis 2009;15:2022-8
  • Hashimoto Y, Funamoto S, Sasaki S, Preparation and characterization of decellularized cornea using high-hydrostatic pressurization for corneal tissue engineering. Biomaterials 2010;31:3941-8
  • Kajitani M, Wadia Y, Hinds MT, Successful repair of esophageal injury using an elastin based biomaterial patch. ASAIO J 2001;47:342-5
  • Ozeki M, Narita Y, Kagami H, Evaluation of decellularized esophagus as a scaffold for cultured esophageal epithelial cells. J Biomed Mater Res 2006;79A:771-8
  • Reid LM, Rojkind M. New techniques for culturing differentiated cells: reconstituted basement membrane rafts. Methods Enzymol 1978;58:263-78
  • Rojkind M, Gatmaitan Z, Mackensen S, Connective tissue biomatrix: its isolation and utilization for long-term cultures of normal rat hepatocytes. J Cell Biol 1980;87:255-63
  • Uygun BE, Soto-Gutierrez A, Yagi H, Organ reengineering through development of a transplantable recellularized liver graft using decellularized liver matrix. Nat Med 2010;16:814-20
  • Nakayama KH, Batchelder CA, Lee CI, Tarantal AF. Decellularized rhesus monkey kidney as a three-dimensional scaffold for renal tissue engineering. Tissue Eng A 2010;16:2207-16
  • Yang B, Zhang Y, Zhou L, Development of a porcine bladder acellular matrix with well-preserved extracellular bioactive factors for tissue engineering. Tissue Eng C 2010;16:1201-11
  • Stapleton TW, Ingram J, Katta J, Development and characterization of an acellular porcine medial meniscus for use in tissue engineering. Tissue Eng A 2008;14:505-18
  • Uriel S, Huang J, Moya ML, The role of adipose protein derived hydrogels in adipogenesis. Biomaterials 2008;29:3712-19
  • Flynn LE. The use of decellularized adipose tissue to provide an inductive microenvironment for the adipogenic differentiation of human adipose-derived stem cells. Biomaterials 2010;31:4715-24
  • Abberton KM, Bortolotto SK, Woods AA, Myogel, a novel, basement membrane-rich, extracellular matrix derived from skeletal muscle, is highly adipogenic in vivo and in vitro. Cells Tissues Organs 2008;188:347-58
  • Trelford JD, Trelford-Sauder M. The amnion in surgery, past and present. Am J Obstet Gynecol 1979;134:833-45
  • Wilshaw S-P, Kearney JN, Fisher J, Ingham E. Production of an acellular amniotic membrane matrix for use in tissue engineering. Tissue Eng 2006;12:2117-29
  • Hao Y, Ma DH, Hwang DG, Identification of antiangiogenic and anti-inflammatory proteins in human amniotic membrane. Cornea 2000;19:348-52
  • Kjaergaard N, Hein M, Hyttel L, Antibacterial properties of human amnion and chorion in vitro. Eur J Obstet Gynecol Reprod Biol 2001;94:224-9
  • Nakajima I, Yamaguchi T, Ozutsumi K, Aso H. Adipose tissue extracellular matrix: newly organized by adipocytes during differentiation. Differentiation 1998;63:193-200
  • Freytes DO, Martin J, Velankar SS, Preparation and rheological characterization of a gel form of the porcine urinary bladder matrix. Biomaterials 2008;29:1630-7
  • Grinnell F, Feld MK. Fibronectin adsorption on hydrophilic and hydrophobic surfaces detected by antibody binding and analyzed during cell adhesion in serum-containing medium. J Biol Chem 1982;257:4888-93
  • Hoshiba T, Cho CS, Murakawa A, The effect of natural extracellular matrix deposited on synthetic polymers on cultured primary hepatocytes. Biomaterials 2006;27:4519-28
  • Chen LB, Murray A, Segal RA, Studies on intercellular LETS glycoprotein matrices. Cell 1978;14:377-91
  • Hedman K, Kurkinen M, Alitalo K, Isolation of the pericellular matrix of human fibroblast culture. J Cell Biol 1979;81:83-91
  • Furuyama A, Kimata K, Mochitate K. Assembly of basement membrane in vitro by cooperation between alveolar epithelial cells and pulmonary fibroblasts. Cell Struct Funct 1997;22:603-14
  • Furuyama A, Mochitate K. Assembly of the exogenous extracellular matrix during basement membrane formation by alveolar epithelial cells in vitro. J Cell Sci 2000;113:859-68
  • Hoshiba T, Mochitate K, Akaike T. Hepatocytes maintain their function on basement membrane formed by epithelial cells. Biochem Biophys Res Commun 2007;359:151-6
  • Hosokawa T, Betsuyaku T, Nishimura M, Differentiation of tracheal basal cells to ciliated cells and tissue reconstruction on the synthesized basement membrane substratum in vitro. Connect Tissue Res 2007;48:9-18
  • Pham MT, Reuther H, Maitz MF. Native extracellular matrix coating on Ti surfaces. J Biomed Mater Res 2003;66A:310-16
  • Klimanskaya I, Chung Y, Meisner L, Human embryonic stem cells derived without feeder cells. Lancet 2005;365:1636-41
  • Lai Y, Sun Y, Skinner CM, Reconstitution of marrow-derived extracellular matrix ex vivo: a robust culture system for expanding large-scale highly functional human mesenchymal stem cells. Stem Cells Dev 2010;19:1095-107
  • Chen X-D, Dusevich V, Feng JQ, Extracellular matrix made by bone marrow cells facilitates expansion of marrow-derived mesenchymal progenitor cells and prevents their differentiation into osteoblasts. J Bone Miner Res 2007;22:1943-56
  • Higuchi Y, Shiraki N, Yamane K, Synthesized basement membranes direct the differentiation of mouse embryonic stem cells into pancreatic lineages. J Cell Sci 2010;123:2733-42
  • Choi K-H, Choi BH, Park SR, The chondrogenic differentiation of mesenchymal stem cells on an extracellular matrix scaffold derived from porcine chondrocytes. Biomaterials 2010;31:5355-65
  • Cheng H-W, Tsui Y-K, Cheung KMC, Decellularization of chondrocyte-encapsulated collagen microspheres: a three-dimensional model to study the effects of acellular matrix on stem cell fate. Tissue Eng C 2009;15:697-706
  • Datta N, Pham QP, Sharma U, In vitro generated extracellular matrix and fluid shear stress synergistically enhance 3D osteoblastic differentiation. Proc Natl Acad Sci USA 2006;103:2488-93
  • Pham QP, Kasper FK, Baggett LS, The influence of an in vitro generated bone-like extracellular matrix on osteoblastic gene expression of marrow stromal cells. Biomaterials 2008;29:2729-39
  • Dumas V, Ducharne B, Perrier A, Extracellular matrix produced by osteoblasts cultured under low-magnitude, high-frequency stimulation is favourable to osteogenic differentiation of mesenchymal stem cells. Calcif Tissue Int 2010;87:351-64
  • Hoshiba T, Kawazoe N, Tateishi T, Chen G. Development of stepwise osteogenesis-mimicking matrices for the regulation of mesenchymal stem cell functions. J Biol Chem 2009;284:31164-73
  • Hoshiba T, Kawazoe N, Tateishi T, Chen G. Development of extracellular matrices mimicking stepwise adipogenesis of mesenchymal stem cells. Adv Mater 2010;22:3042-7
  • D'Amour KA, Bang AG, Eliazer S, Production of pancreatic hormone-expressing endocrine cells from human embryonic stem cells. Nat Biotechnol 2006;24:1392-401
  • Xu T, Bianco P, Fisher LW, Targeted disruption of the biglycan gene leads to an osteoporosis-like phenotype in mice. Nat Genet 1998;20:78-82
  • Spiegelman BM, Ginty CA. Fibronectin modulation of cell shape and lipogenic gene expression in 3T3-adipocytes. Cell 1983;35:657-66
  • Brodkin KR, Garcia AJ, Levenston ME. Chondrocyte phenotypes on different extracellular matrix monolayers. Biomaterials 2004;25:5929-38
  • Yi JY, Yoon YH, Park HS, Reconstruction of basement membrane in skin equivalent; role of laminin-1. Arch Dermatol Res 2001;293:356-62
  • Nagata NA, Inoue K, Tabata Y. Co-culture of extracellular matrix suppresses the cell death of rat pancreatic islets. J Biomater Sci Polym Ed 2002;13:579-90
  • Oda H, Nozawa K, Hitomi Y, Kakinuma A. Laminin-rich extracellular matrix maintains high level of hepatocyte nuclear factor 4 in rat hepatocyte culture. Biochem Biophys Res Commun 1995;212:800-5
  • Barcellos-Hoff MH, Aggeler J, Ram TG, Bissell MJ. Functional differentiation and alveolar morphogenesis of primary mammary cultures on reconstituted basement membrane. Development 1989;105:223-35
  • Bork P, Downing AK, Kieffer B, Campbell ID. Structure and distribution of modules in extracellular proteins. Q Rev Biophys 1996;29:119-67
  • Kasimir MT, Rieder E, Seebacher G, Decellularization does not eliminate thrombogenicity and inflammatory stimulation in tissue-engineered porcine heart valves. J Heart Valve Dis 2006;15:278-86
  • Dessau W, Vertel BM, von der Mark H, von der Mark K. Extracellular matrix formation by chondrocytes in monolayer culture. J Cell Biol 1981;90:78-83
  • Jin CZ, Park SR, Choi BH, In vivo cartilage tissue engineering using a cell-derived extracellular matrix scaffold. Artif Organs 2007;31:183-92

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