Use of an in vitro model of tissue-engineered skin to investigate the mechanism of skin graft contraction.

Skin graft contraction leading to loss of joint mobility and cosmetic deformity remains a major clinical problem. In this study we used a tissue-engineered model of human skin, based on sterilized human adult dermis seeded with keratinocytes and fibroblasts, which contracts by up to 60% over 28 days in vitro, as a model to investigate the mechanism of skin contraction. Pharmacologic agents modifying collagen synthesis, degradation, and cross-linking were examined for their effect on contraction. Collagen synthesis and degradation were determined using immunoassay techniques. The results show that skin contraction was not dependent on inhibition of collagen synthesis or stimulation of collagen degradation, but was related to collagen remodelling. Thus, reducing dermal pliability with glutaraldehyde inhibited the ability of cells to contract the dermis. So did inhibition of matrix metalloproteinases and inhibition of lysyl oxidase-mediated collagen cross-linking, but not transglutaminase-mediated cross-linking. In summary, this in vitro model of human skin has allowed us to identify specific cross-linking pathways as possible pharmacologic targets for prevention of graft contracture in vivo.

[1]  I. K. Cohen,et al.  Effect of β-Aminopropionitrile and Ascorbate on Fibroblast Migration , 1988 .

[2]  S. Gross,et al.  Importance of tissue transglutaminase in repair of extracellular matrices and cell death of dermal fibroblasts after exposure to a solarium ultraviolet A source. , 2003, The Journal of investigative dermatology.

[3]  E. D. Harris,et al.  Resistance to collagenase: a characteristic of collagen fibrils cross-linked by formaldehyde. , 1972, Biochimica et biophysica acta.

[4]  Rebecca Dawson,et al.  Melanoma invasion in reconstructed human skin is influenced by skin cells – investigation of the role of proteolytic enzymes , 2003, Clinical & Experimental Metastasis.

[5]  S. Mac Neil,et al.  Development of autologous human dermal–epidermal composites based on sterilized human allodermis for clinical use , 1999, The British journal of dermatology.

[6]  R. Timpl,et al.  Activation of collagen gene expression in keloids: co-localization of type I and VI collagen and transforming growth factor-beta 1 mRNA. , 1991, The Journal of investigative dermatology.

[7]  R. Ward,et al.  Pressure therapy for the control of hypertrophic scar formation after burn injury. A history and review. , 1991, The Journal of burn care & rehabilitation.

[8]  T. Salo,et al.  Chemically modified tetracycline (CMT‐8) and estrogen promote wound healing in ovariectomized rats: Effects on matrix metalloproteinase‐2, membrane type 1 matrix metalloproteinase, and laminin‐5 γ2‐chain , 2002, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[9]  E. Doolin,et al.  Collagen crosslinking and cell density have distinct effects on fibroblast‐mediated contraction of collagen gels , 2003, Skin research and technology : official journal of International Society for Bioengineering and the Skin (ISBS) [and] International Society for Digital Imaging of Skin (ISDIS) [and] International Society for Skin Imaging.

[10]  F Yang,et al.  Green tea polyphenols block endotoxin-induced tumor necrosis factor-production and lethality in a murine model. , 1998, The Journal of nutrition.

[11]  S. Macneil,et al.  Keratinocytes contract human dermal extracellular matrix and reduce soluble fibronectin production by fibroblasts in a skin composite model. , 1997, British journal of plastic surgery.

[12]  R. Tarnuzzer,et al.  Estrogen accelerates cutaneous wound healing associated with an increase in TGF-β1 levels , 1997, Nature Medicine.

[13]  H. Kagan,et al.  Regulation of lysyl oxidase expression in lung fibroblasts by transforming growth factor-beta 1 and prostaglandin E2. , 1994, American journal of respiratory cell and molecular biology.

[14]  K. Dolynchuk Inhibition of tissue transglutaminase and ɛ (γ‐glutamyl) lysine cross‐linking in human hypertrophic scar , 1996, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[15]  S. MacNeil,et al.  Developments in xenobiotic‐free culture of human keratinocytes for clinical use , 2004, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[16]  E. M. Wills Studies in Wound Healing , 1999 .

[17]  S. Russell,et al.  Differential effects of hydrocortisone on both growth and collagen metabolism of human fibroblasts from normal and keloid tissue , 1978, Journal of cellular physiology.

[18]  C A Harrison,et al.  Investigation of keratinocyte regulation of collagen I synthesis by dermal fibroblasts in a simple in vitro model , 2006, The British journal of dermatology.

[19]  Jonathan Bard,et al.  COLLAGEN SUBSTRATA FOR STUDIES ON CELL BEHAVIOR , 1972, The Journal of cell biology.

[20]  T. K. Hunt,et al.  Effect of Delayed Administration of Corticosteroids on Wound Contraction , 1971, Annals of surgery.

[21]  P. Lorigan,et al.  Investigation of female survival benefit in metastatic melanoma , 1999, British Journal of Cancer.

[22]  Freddie H. Fu,et al.  Prostaglandin E2 Affects Proliferation and Collagen Synthesis by Human Patellar Tendon Fibroblasts , 2004, Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine.

[23]  C. Christiansen,et al.  Immunoassay for quantifying type I collagen degradation products in urine evaluated. , 1994, Clinical chemistry.

[24]  J. Gross,et al.  Studies in Wound Healing. III. Contraction in Vit. C Deficiency , 1959, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[25]  J. Bowness,et al.  Increased ϵ(γ-glytamyl)lysine crosslinking associated with increased protein synthesis in the inner layers of healing rat skin wounds , 1992 .

[26]  H. Maibach,et al.  Estrogen and Skin , 2001, American journal of clinical dermatology.

[27]  I. K. Cohen,et al.  TISSUE ALPHA‐GLOBULINS IN KELOID FORMATION , 1977, Plastic and reconstructive surgery.

[28]  J. Serletti,et al.  Topical putrescine (Fibrostat) in treatment of hypertrophic scars: phase II study. , 1996, Plastic and reconstructive surgery.

[29]  H. Schlebusch,et al.  Stabilization of collagen by polyphenols. , 1972, Angiologica.

[30]  W. Bors,et al.  Antioxidant capacity of flavanols and gallate esters: pulse radiolysis studies. , 1999, Free radical biology & medicine.

[31]  T. Salo,et al.  Wound healing in ovariectomized rats: effects of chemically modified tetracycline (CMT-8) and estrogen on matrix metalloproteinases -8, -13 and type I collagen expression. , 2001, Current medicinal chemistry.

[32]  S. Pizzo,et al.  Characterization of the interaction between alpha2-macroglobulin and fibroblast growth factor-2: the role of hydrophobic interactions. , 2003, The Biochemical journal.

[33]  T. Sato,et al.  Hormonal regulation of collagenolysis in uterine cervical fibroblasts. Modulation of synthesis of procollagenase, prostromelysin and tissue inhibitor of metalloproteinases (TIMP) by progesterone and oestradiol-17 beta. , 1991, The Biochemical journal.

[34]  N. I. Cruz,et al.  Inhibition of Human Keloid Fibroblast Growth by Isotretinoin and Triamcinolone Acetonide In Vitro , 1994, Annals of plastic surgery.

[35]  Rita Casadio,et al.  Transglutaminases: nature's biological glues. , 2002, The Biochemical journal.

[36]  P T Khaw,et al.  KERATINOCYTE‐DRIVEN CONTRACTION OF RECONSTRUCTED HUMAN SKIN , 2001, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[37]  M. Longaker,et al.  Expression of transforming growth factor beta 1, 2, and 3 proteins in keloids. , 1999, Annals of plastic surgery.

[38]  R. Jordan,et al.  Splints and scar management for acute and reconstructive burn care. , 2000, Clinics in plastic surgery.

[39]  H. Kagan,et al.  Regulation of lysyl oxidase and cyclooxygenase expression in human lung fibroblasts: interactions among TGF‐β, IL‐1β, and prostaglandin E , 1996 .

[40]  J. Feijen,et al.  Glutaraldehyde as a crosslinking agent for collagen-based biomaterials , 1995 .

[41]  M. Yamauchi,et al.  Collagen telopeptides (cross-linking sites) play a role in collagen gel lattice contraction. , 1991, The Journal of investigative dermatology.

[42]  R. Bast,et al.  Regulation of tumour necrosis factor-α processing by a metalloproteinase inhibitor , 1994, Nature.

[43]  A. H. Drummond,et al.  Processing of tumour necrosis factor-α precursor by metalloproteinases , 1994, Nature.

[44]  Linghong Huang,et al.  Inhibition of Transglutaminase Activity Reduces Extracellular Matrix Accumulation Induced by High Glucose Levels in Proximal Tubular Epithelial Cells* , 2004, Journal of Biological Chemistry.

[45]  J. Davidson,et al.  Transforming growth factor-beta stimulates wound healing and modulates extracellular matrix gene expression in pig skin: incisional wound model. , 1991, The Journal of investigative dermatology.

[46]  G. Dubyak,et al.  Human epidermal keratinocytes undergo (-)-epigallocatechin-3-gallate-dependent differentiation but not apoptosis. , 2005, Carcinogenesis.

[47]  M. M. Ghosh,et al.  A Comparison of Methodologies for the Preparation of Human Epidermal‐Dermal Composites , 1997, Annals of plastic surgery.

[48]  D. Gore,et al.  Both Dermal Matrix and Epidermis Contribute to an Inhibition of Wound Contraction , 2000, Annals of plastic surgery.

[49]  J. Woessner Matrix Metalloproteinase Inhibition: From The Jurassic To The Third Millennium , 1999, Annals of the New York Academy of Sciences.

[50]  P. Trackman,et al.  Post-translational glycosylation and proteolytic processing of a lysyl oxidase precursor. , 1992, The Journal of biological chemistry.

[51]  Nicola J Brown,et al.  Development of a reconstructed human skin model for angiogenesis , 2003, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[52]  J. Woessner,et al.  Matrix metalloproteinases and their inhibitors in connective tissue remodeling , 1991, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[53]  F. Grinnell,et al.  Transforming growth factor beta stimulates fibroblast-collagen matrix contraction by different mechanisms in mechanically loaded and unloaded matrices. , 2002, Experimental cell research.

[54]  D. Gingras,et al.  Matrix metalloproteinase inhibition by green tea catechins. , 2000, Biochimica et biophysica acta.

[55]  W. Landis,et al.  Post‐translational control of collagen fibrillogenesis in mineralizing cultures of chick osteoblasts , 1993, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[56]  S. Macneil,et al.  Tamoxifen, 17beta-oestradiol and the calmodulin antagonist J8 inhibit human melanoma cell invasion through fibronectin. , 1997, British Journal of Cancer.

[57]  J. Bowness,et al.  Increased transglutaminase activity during skin wound healing in rats. , 1988, Biochimica et biophysica acta.

[58]  J. Lechaire,et al.  Cultured epidermis influences the fibril organization of purified type I collagen gels. , 1987, Tissue & cell.

[59]  D. Rifkin,et al.  Alpha 2-macroglobulin is a binding protein for basic fibroblast growth factor. , 1989, The Journal of biological chemistry.

[60]  S. L. Gonias,et al.  Cytokine binding and clearance properties of proteinase-activated alpha 2-macroglobulins. , 1991, Laboratory investigation; a journal of technical methods and pathology.

[61]  Shinichi Watanabe,et al.  17β-Estradiol Inhibits Oxidative Stress-Induced Apoptosis in Keratinocytes by Promoting Bcl-2 Expression , 2003 .

[62]  C. McCulloch,et al.  TNF-alpha inactivation of collagen receptors: implications for fibroblast function and fibrosis. , 1996, Journal of immunology.

[63]  K. Sakabe,et al.  Female sex hormone stimulates cultured human keratinocyte proliferation and its RNA- and protein-synthetic activities. , 1995, Journal of dermatological science.

[64]  M. Kleerekoper,et al.  Recent advances in biochemical markers of bone turnover. , 1994, Clinical chemistry.

[65]  J. Wrana,et al.  Independent regulation of collagenase, 72-kDa progelatinase, and metalloendoproteinase inhibitor expression in human fibroblasts by transforming growth factor-beta. , 1989, The Journal of biological chemistry.

[66]  A. E. El Nahas,et al.  Transglutaminase transcription and antigen translocation in experimental renal scarring. , 1999, Journal of the American Society of Nephrology : JASN.

[67]  F. Grinnell,et al.  Studies on the mechanism of hydrated collagen gel reorganization by human skin fibroblasts. , 1985, Journal of cell science.

[68]  Susan Biggin,et al.  Tumor gelatinases and invasion inhibited by the green tea flavanol epigallocatechin‐3‐gallate , 2001, Cancer.

[69]  J. Smith,et al.  Differential glucocorticoid regulation of collagen mRNAs in human dermal fibroblasts. Keloid-derived and fetal fibroblasts are refractory to down-regulation. , 1989, The Journal of biological chemistry.

[70]  J. Kleman,et al.  Transglutaminase-catalyzed cross-linking of fibrils of collagen V/XI in A204 rhabdomyosarcoma cells. , 1995, Biochemistry.

[71]  A. Lupulescu Hormonal regulation of epidermal tumor development. , 1981, The Journal of investigative dermatology.

[72]  R. Wijk,et al.  Contraction of collagen by human fibroblasts and keratinocytes , 1989, In Vitro Cellular & Developmental Biology.

[73]  S. Pizzo,et al.  Oxidized alpha2-macroglobulin (alpha2M) differentially regulates receptor binding by cytokines/growth factors: implications for tissue injury and repair mechanisms in inflammation. , 1998, Journal of immunology.

[74]  J. S. Janicki,et al.  Extracellular matrix regulation of metalloproteinase and antiproteinase in human heart fibroblast cells , 1996, Journal of cellular physiology.

[75]  B Havsteen,et al.  Flavonoids, a class of natural products of high pharmacological potency. , 1983, Biochemical pharmacology.

[76]  P. Medawar,et al.  Contracture and intussusceptive growth in the healing of extensive wounds in mammalian skin. , 1955, Journal of Anatomy.

[77]  E. Deitch,et al.  Burn contractures: incidence, predisposing factors, and results of surgical therapy. , 1988, The Journal of burn care & rehabilitation.

[78]  H. Larjava,et al.  Matrix metalloproteinase 2 (gelatinase A) is related to migration of keratinocytes. , 1999, Experimental cell research.

[79]  R. Kuttan,et al.  Collagen treated with (+)-catechin becomes resistant to the action of mammalian collagenase , 1981, Experientia.

[80]  M A Horan,et al.  Topical estrogen accelerates cutaneous wound healing in aged humans associated with an altered inflammatory response. , 1999, The American journal of pathology.

[81]  H. Kagan Characterization and Regulation of Lysyl Oxidase , 1986 .

[82]  P. Pilch,et al.  Stimulation of collagen formation by insulin and insulin-like growth factor I in cultures of human lung fibroblasts. , 1989, Endocrinology.

[83]  P. Delmas,et al.  Noninvasive techniques for assessing skeletal changes in inflammatory arthritis: bone biomarkers , 2004, Current opinion in rheumatology.

[84]  J. C. Romijn Polyamines and transglutaminase actions: Polyamine und Transglutaminase‐Wirkungen , 1990 .

[85]  G. Melino,et al.  Transglutaminase type II plays a protective role in hepatic injury. , 2003, The American journal of pathology.

[86]  W. Bollag,et al.  Green Tea Polyphenols Induce Differentiation and Proliferation in Epidermal Keratinocytes , 2003, Journal of Pharmacology and Experimental Therapeutics.

[87]  M. Hurley,et al.  Basic fibroblast growth factor inhibits type I collagen gene expression in osteoblastic MC3T3-E1 cells. , 1993, The Journal of biological chemistry.

[88]  M. Cilli,et al.  Down-regulation of Lysyl Oxidase-induced Tumorigenic Transformation in NRK-49F Cells Characterized by Constitutive Activation of Ras Proto-oncogene* , 2001, The Journal of Biological Chemistry.

[89]  J. Bowness,et al.  Components of increased labelling with putrescine and fucose during healing of skin wounds. , 1987, Connective tissue research.

[90]  E. J. Miller,et al.  Preparation and characterization of the different types of collagen. , 1982, Methods in enzymology.

[91]  Boyce,et al.  The requirement for basement membrane antigens in the production of human epidermal/dermal composites in vitro , 1999, The British journal of dermatology.