The dose effect of human bone marrow-derived mesenchymal stem cells on epidermal development in organotypic co-culture

Journal of Dermatological Science

Volumn 55, Issue 3, 2009, Pages 150-160

  Laco, Filip ^a,b   Kun, Ma ^b   Weber, Hans Joachim ^a   Ramakrishna, S ^b   Chan, Casey K ^b,c  

^a AACHEN UNIVERSITY OF APPLIED SCIENCES   (Germany)

^b NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^c NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

Author keywords

Epidermis; Mesenchymal stem cells; Organotypic; Skin regeneration

Indexed keywords

FILAGGRIN; INVOLUCRIN; KERATIN;

ARTICLE; COCULTURE; CONTROLLED STUDY; EPIDERMIS; FIBROBLAST; HEMATOPOIETIC STEM CELL; HUMAN; HUMAN CELL; HUMAN TISSUE; IMMUNOHISTOCHEMISTRY; IN VITRO STUDY; KERATINOCYTE; MESENCHYMAL STEM CELL; PRIORITY JOURNAL; SKIN CULTURE; SKINFOLD THICKNESS; STRATUM CORNEUM; TISSUE REGENERATION; TISSUE REPAIR; WOUND HEALING;

BONE MARROW CELLS; COCULTURE TECHNIQUES; EPIDERMIS; HOMEOSTASIS; HUMANS; INTERMEDIATE FILAMENT PROTEINS; KERATIN-10; KERATINOCYTES; MESENCHYMAL STEM CELLS; MODELS, BIOLOGICAL; ORGAN CULTURE TECHNIQUES; PROTEIN PRECURSORS; QUANTUM DOTS; REGENERATION;

EID: 67650720347     PISSN: 09231811     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jdermsci.2009.05.009     Document Type: Article

References (39)

1. Borue X., Lee S., Grove J., Herzog E.L., Harris R., Diflo T., et al. Bone marrow-derived cells contribute to epithelial engraftment during wound healing. Am J Pathol 165 5 (2004) 1767-1772
2. Sun X., Fu X., and Sheng Z. Cutaneous stem cells: something new and something borrowed. Wound Repair Regen 15 6 (2007) 775-785
3. Badiavas E.V., Abedi M., Butmarc J., Falanga V., and Quesenberry P. Participation of bone marrow derived cells in cutaneous wound healing. J Cell Physiol 196 2 (2003) 245-250
4. Sasaki M., Abe R., Fujita Y., Ando S., Inokuma D., and Shimizu H. Mesenchymal stem cells are recruited into wounded skin and contribute to wound repair by transdifferentiation into multiple skin cell type. J Immunol 180 4 (2008) 2581-2587
5. Spees J.L., Olson S.D., Ylostalo J., Lynch P.J., Smith J., Perry A., et al. Differentiation, cell fusion, and nuclear fusion during ex vivo repair of epithelium by human adult stem cells from bone marrow stroma. Proc Natl Acad Sci USA 100 5 (2003) 2397-2402
6. Wu Y., Chen L., Scott P.G., and Tredget E.E. Mesenchymal stem cells enhance wound healing through differentiation and angiogenesis. Stem Cells 25 10 (2007) 2648-2659
7. Pǎunescu V., Deak E., Herman D., Siska I.R., Tǎnasie G., Bunu C., et al. In vitro differentiation of human mesenchymal stem cells to epithelial lineage. J Cell Mol Med 11 3 (2007) 502-508
8. Harris R.G., Herzog E.L., Bruscia E.M., Grove J.E., Van Arnam J.S., and Krause D.S. Lack of a fusion requirement for development of bone marrow-derived epithelia. Science 305 5680 (2004) 90-93
9. Liu Y., Dulchavsky D.S., Gao X., Kwon D., Chopp M., Dulchavsky S., et al. Wound repair by bone marrow stromal cells through growth factor production. J Surg Res 136 2 (2006) 336-341
10. Akino K., Mineda T., and Akita S. Early cellular changes of human mesenchymal stem cells and their interaction with other cells. Wound Repair Regen 13 4 (2005) 434-440
11. Black A.F., Bouez C., Perrier E., Schlotmann K., Chapuis F., and Damour O. Optimization and characterization of an engineered human skin equivalent. Tissue Eng 11 5-6 (2005) 723-733
12. Gangatirkar P., Paquet-Fifield S., Li A., Rossi R., and Kaur P. Establishment of 3D organotypic cultures using human neonatal epidermal cells. Nat Protoc 2 1 (2007) 178-186
13. Maas-Szabowski N., Szabowski A., Stark H.J., Andrecht S., Kolbus A., Schorpp-Kistner M., et al. Organotypic cocultures with genetically modified mouse fibroblasts as a tool to dissect molecular mechanisms regulating keratinocyte growth and differentiation. J Invest Dermatol 116 5 (2001) 816-820
14. Fioretti F., Lebreton-DeCoster C., Gueniche F., Yousfi M., Humbert P., Godeau G., et al. Human bone marrow-derived cells: an attractive source to populate dermal substitutes. Wound Repair Regen 16 1 (2008) 87-94
15. Stark H.J., Baur M., Breitkreutz D., Mirancea N., and Fusenig N.E. Organotypic keratinocyte cocultures in defined medium with regular epidermal morphogenesis and differentiation. J Invest Dermatol 112 5 (1999) 681-691
16. Fusenig N.E. Epithelial-mesenchymal interactions control keratinocyte growth and differentiation in vitro. In: Leigh I.M., Lane E.B., and Watt F.M. (Eds). The keratinocytes handbook (1994), Cambridge University Press 71-94
17. Vaccariello M., Javaherian A., Parentau N., and Garlick J. Use of skin equivalent wound healing model. In: Morgan J.R., and Yarmush M.L. (Eds). Tissue engineering methods 18 (1998), Humana Press 391-405
18. Smola H., Thiekötter G., Baur M., Stark H., Breitkreutz D., and Fusenig N. Organotypic and epidermal-dermal co-cultures of normal human keratinocytes and dermal cells: regulation of transforming growth factor α, β1 and β2 mRNA levels. Toxicol. In Vitro 8 4 (1994) 641-650
19. Smola H., Stark H.J., Thiekötter G., Mirancea N., Krieg T., and Fusenig N.E. Dynamics of basement membrane formation by keratinocyte-fibroblast interactions in organotypic skin culture. Exp Cell Res 239 2 (1998) 399-410
20. Stark H.J., Szabowski A., Fusenig N.E., and Maas-Szabowski N. Organotypic cocultures as skin equivalents: a complex and sophisticated in vitro system. Biol. Procedures Online 6 (2004) 55-60
21. Yaeger P.C., Stiles C.D., and Rollins B.J. Human keratinocyte growth-promoting activity on the surface of fibroblasts. J Cell Physiol 149 1 (1991) 110-116
22. Aoki S., Toda S., Ando T., and Sugihara H. Bone marrow stromal cells, preadipocytes, and dermal fibroblasts promote epidermal regeneration in their distinctive fashions. Mol Biol Cell 15 10 (2004) 4647-4657
23. Markowicz M., Koellensperger E., Neuss S., and Paula N. Adult bone marrow mesenchymal stem cell feeder cells for human keratinocytes: new approach in bilayered skin replacement, topics in Tissue Engineering 2. Ann Plast Surg 2 4 (2005) 1-12
24. Ma K., Laco F., Ramakrishna S., Liao S., and Chan C.K. Differentiation of bone marrow-derived mesenchymal stem cells into multi-layered epidermis-like cells in 3D organotypic coculture. Biomaterials (2009)
25. Schneider R.K.M., Neuss S., Stainforth R., Laddach N., Bovi M., Knuechel R., et al. Three-dimensional epidermis-like growth of human mesenchymal stem cells on dermal equivalents: contribution to tissue organization by adaptation of myofibroblastic phenotype and function. Differentiation 76 2 (2008) 156-167
26. Wang G., Bunnell B.A., Painter R.G., Quiniones B.C., Tom S., Lanson N.A., et al. Adult stem cells from bone marrow stroma differentiate into airway epithelial cells: potential therapy for cystic fibrosis. Proc Natl Acad Sci USA 102 1 (2005) 186-191
27. Leigh I., and Watt F. Growth of human keratinocytes with feeder cells. In: Leigh I.M., Lane E.B., and Watt F.M. (Eds). The keratinocytes handbook (1994), Cambridge University Press
28. Tanaka K., Iyama K., Kitaoka M., Ninomiya Y., Oohashi T., Sado Y., et al. Differential expression of alpha 1(IV), alpha 2(IV), alpha 5(IV) and alpha 6(IV) collagen chains in the basement membrane of basal cell carcinoma. Histochem J 29 7 (1997) 563-570
29. Bikle D., and Pillai S. Vitamin D, calcium, and epidermal differentiation. Endocr Rev 14 1 (1993) 3-19
30. Carroll J.M., Albers K.M., Garlick J.A., Harrington R., and Taichman L.B. Tissue- and stratum-specific expression of the human involucrin promoter in transgenic mice. Proc Natl Acad Sci USA 90 21 (1993) 10270-10274
31. Simon M. The epidermal cornified envelope and its precursors. In: Leigh I.M., Lane E.B., and Watt F.M. (Eds). The keratinocytes handbook (1994), Cambridge University Press
32. Chichester C.O., Fernández M., and Minguell J.J. Extracellular matrix gene expression by human bone marrow stroma and by marrow fibroblasts. Cell Adhes Commun 1 2 (1993) 93-99
33. Tremain N., Korkko J., Ibberson D., Kopen G.C., DiGirolamo C., and Phinney D.G. MicroSAGE analysis of 2,353 expressed genes in a single cell-derived colony of undifferentiated human mesenchymal stem cells reveals mRNAs of multiple cell lineages. Stem Cells 19 5 (2001) 408-418
34. Lee D.Y., Ahn H.T., and Cho K.H. A new skin equivalent model: dermal substrate that combines de-epidermized dermis with fibroblast-populated collagen matrix. J Dermatol Sci 23 2 (2000) 132-137
35. Scadden D.T. The stem-cell niche as an entity of action. Nature 441 7097 (2006) 1075-1079
36. Janderová L., McNeil M., Murrell A.N., Mynatt R.L., and Smith S.R. Human mesenchymal stem cells as an in vitro model for human adipogenesis. Obes Res 11 1 (2003) 65-74
37. De Kok I.J., Hicok K.C., Padilla R.J., Young R.G., and Cooper L.F. Effect of vitamin D pretreatment of human mesenchymal stem cells on ectopic bone formation. J Oral Implantol 32 3 (2006) 103-109
38. Alexanian A.R. Neural stem cells induce bone-marrow-derived mesenchymal stem cells to generate neural stem-like cells via juxtacrine and paracrine interactions. Exp Cell Res 310 2 (2005) 383-391
39. Muller-Borer B.J., Collins M.C., Gunst P.R., Cascio W.E., and Kypson A.P. Quantum dot labeling of mesenchymal stem cells. J. Nanobiotechnol. 5 (2007) 9