Characterization and potential applications of progenitor-like cells isolated from horse amniotic membrane

Journal of Tissue Engineering and Regenerative Medicine

Volumn 6, Issue 8, 2012, Pages 622-635

  Lange Consiglio, A ^a   Corradetti, B ^b   Bizzaro, D ^b   Magatti, M ^c   Ressel, L ^c   Tassan, S ^d   Parolini, O ^c   Cremonesi, F ^a  

^a UNIVERSITY OF MILAN   (Italy)

^b UNIVERSITÀ POLITECNICA DELLE MARCHE   (Italy)

^c Istituto ospedaliero Fondazione Poliambulanza di Brescia   (Italy)

^d Equicenter Veterinary Clinic   (Italy)

Author keywords

Amnion; Differentiation ability; Equine; MSCs; Regenerative medicine; Tendinopathies

Indexed keywords

CELL CULTURE; REGENERATIVE MEDICINE; TENDONS;

AMNION; AMNIOTIC MEMBRANES; BIOLOGICAL PROPERTIES; CELL POPULATIONS; DIFFERENTIATION ABILITY; DOUBLINGS; EQUINE; IMMUNOCYTOCHEMICAL STUDY; REGENERATIVE MEDICINE; TENDINOPATHY;

CELL PROLIFERATION;

CD34 ANTIGEN; MAJOR HISTOCOMPATIBILITY ANTIGEN CLASS 1; MAJOR HISTOCOMPATIBILITY ANTIGEN CLASS 2; OCTAMER TRANSCRIPTION FACTOR 4; STAGE SPECIFIC EMBRYO ANTIGEN 3; STAGE SPECIFIC EMBRYO ANTIGEN 4; STROMAL CELL DERIVED FACTOR 1;

ADIPOGENESIS; AMNION; ARTICLE; BONE DEVELOPMENT; CELL ISOLATION; CELL LINEAGE; CELL POPULATION; CELL PROLIFERATION; CELL STRUCTURE; CHONDROGENESIS; CONTROLLED STUDY; EPITHELIUM CELL; FIBROBLAST; IMMUNOCYTOCHEMISTRY; IN VITRO STUDY; MESENCHYME CELL; NERVOUS SYSTEM DEVELOPMENT; NONHUMAN; PRIORITY JOURNAL; PROTEIN EXPRESSION; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION; STEM CELL; TENDON INJURY;

EID: 84859405533     PISSN: 19326254     EISSN: 19327005     Source Type: Journal    
DOI: 10.1002/term.465     Document Type: Article

References (53)

1. Alviano F, Fossati V, Marchionni C, et al. 2007; Term amniotic membrane is a high throughput source for multipotent mesenchymal stem cells with the ability to differentiate into endothelial cells in vitro. BMC Dev Biol 7: 11-24.
2. Arcelli R, Tibaldini P, Angeli G, et al. 2009; Equine amniotic membrane transplantation in some ocular surface diseases in the dog and cat: a preliminary study. Vet Res Commun 33(suppl 1): 169-171.
3. Avila M, Espana M, Moreno C, et al. 2001; Reconstruction of ocular surface with heterologous limbal epithelium and amniotic membrane in a rabbit model. Cornea 20: 414-420.
4. Bailo M, Soncini M, Vertua E, et al. 2004; Engraftmentpotential of human amnion and chorion cells derived from term placenta. Transplantation 78: 1439-1448.
5. Baksh D, Yao R, Tuan RS. 2007; Comparison of proliferative and multilineage differentiation potential of human mesenchymal stem cells derived from umbilical cord and bone marrow. Stem Cells 25: 1384-1392.
6. Berg L, Koch T, Heerkens T, et al. 2009; Chondrogenic potential of mesenchymal stromal cells derived from equine bone marrow and umbilical cord blood. Vet Comp Orthop Traumatol 22: 363-370.
7. Campagnoli C, Roberts IA, Kumar S, et al. 2001; Identification of mesenchymal stem/progenitor cells in human first-trimester fetal blood, liver and bone marrow. Blood 98: 2396-2402.
8. Carlin R, Davis D, Weiss M, et al. 2006; Expression of early transcription factors Oct-4, Sox-2 and Nanog by porcine umbilical cord (PUC) matrix cells. Reprod Biol Endocrinol 4: 8.
9. Cremonesi F, Violini S, Lange Consiglio A, et al. 2008; Isolation, in vitro culture and characterization of foal umbilical cord stem cells at birth. Vet Res Commun 32: 139-142.
10. Digirolamo CM, Stokes D, Colter D, et al. 1999; Propagation and senescence of human marrow stromal cells in culture: a simple colony-forming assay identifies samples with the greatest potential to propagate and differentiate. Br J Haematol 107: 275-281.
11. Dua HS, Gomes JA, King AJ, et al. 2004; The amniotic membrane in ophthalmology. Surv Ophthalmol 49: 51-77.
12. Durando MM, Zarucco L, Schaer TP, et al. 2006; Pneumopericardium in a horse secondary to sternal bone marrow aspiration. Equine Vet Educ 18: 75-79.
13. Evangelista M, Soncini M, Parolini O. 2008; Placenta-derived stem cells: new hope for cell therapy? Cytotechnology 58: 33-42.
14. Fortier LA, Smith RK. 2008; Regenerative medicine for tendinous and ligamentous injuries of sport horses. Vet. Clin. North Am. Equine Pract. 24: 191-201.
15. Guest DJ, Ousey JC, Smith MRW. 2008; Defining the expression of marker genes in equine mesenchymal stromal cells. Stem Cells Cloning Adv Applic 1: 1-9.
16. Guest DJ, Smith MR, Allen WR. 2010; Equine embryonic stem-like cells and mesenchymal stromal cells have different survival rates and migration patterns following their injection into damaged superficial digital flexor tendon. Equine Vet. J. 42: 636-642.
17. Guillot PV, Gotherstrom C, Chan J, et al. 2007; Human first-trimester fetal MSC express pluripotency markers and grow faster and have longer telomeres than adult MSC. Stem Cells 25: 646-654.
18. Hoynowski SM, Fry MM, Gardner BM, et al. 2007; Characterization and differentiation of equine umbilical cord-derived matrix cells. Biochem Biophys Res Commun 362: 347-353.
19. Ilancheran S, Michalska A, Peh G, et al. 2007; Stem cells derived from human fetal membranes display multilineage differentiation potential. Biol Reprod 77: 577-588.
20. In 't Anker PS, Scherjon SA, Kleijburg-van der Keur C, et al. 2004; Isolation of mesenchymal stem cells of fetal or maternal origin from human placenta. Stem Cells 22: 1338-1345.
21. Karahuseyinoglu S, Cinar O, Kilic E, et al. 2007; Biology of stem cells in human umbilical cord stroma: in situ and in vitro surveys. Stem Cells 25: 319-331.
22. Kisiday JD, Kopesky PW, Evans CH, et al. 2008; Evaluation of adult equine bone marrow- and adipose-derived progenitor cell chondrogenesis in hydrogel cultures. J Orthop Res 26: 322-331.
23. Koch TG, Heerkens T, Thomsen PD, et al. 2007; Isolation of mesenchymal stem cells from equine umbilical cord blood. BMC Biotechnol 7: 26.
24. Koerner J, Nesic D, Romero JD, et al. 2006; Equine peripheral blood-derived progenitors in comparison to bone marrow-derived mesenchymal stem cells. Stem Cells 24: 1613-1619.
25. Kubo M, Sonoda Y, Muramatsu R, et al. 2001; Immunogenicity of human amniotic membrane in experimental xenotransplantation. Invest. Ophthalmol. Vis. Sci. 42: 1539-1546.
26. Lund RD, Wang S, Lu B, et al. 2007; Cells isolated from umbilical cord tissue rescue photoreceptors and visual functions in a rodent model of retinal disease. Stem Cells 25: 602-611.
27. Magatti M, De Munari S, Vertua E, et al. 2008; Human amnion mesenchyme harbors cells with allogeneic T-cell suppression and stimulation capabilities. Stem Cells 26: 182-192.
28. Miki T, Lehmann T, Cai H, et al. 2005; Stem cell characteristics of amniotic epithelial cells. Stem Cells 23: 1549-1559.
29. Miki T, Marongiu F, Dorko K, et al. 2010; Isolation of amniotic epithelial stem cells. Curr. Protoc. Stem Cell Biol. 1: 1E 3.
30. Miki T, Strom SC. 2006; Amnion-derived pluripotent/multipotent stem cells. Stem Cell Rev. 2: 133-142.
31. Mitchell KE, Weiss ML, Mitchell BM, et al. 2003; Matrix cells from Wharton's jelly form neurons and glia. Stem Cells 21: 50-60.
32. Ollivier FJ, Kallberg ME, Plummer CE, et al. 2006; Amniotic membrane transplantation for corneal surface reconstruction after excision of corneolimbal squamous cell carcinomas in nine horses. Vet Ophthalmol 9: 404-413.
33. Pacini S, Spinabella S, Trombi L, et al. 2007; Suspension of bone marrow-derived undifferentiated mesenchymal stromal cells for repair of superficial digital flexor tendon in race horses. Tissue Eng. 13: 2949-2955.
34. Paris DB, Stout TA. 2010; Equine embryos and embryonic stem cells: defining reliable markers of pluripotency. Theriogenology 74: 516-524.
35. Passeri S, Nocchi F, Lamanna R, et al. 2009; Isolation and expansion of equine umbilical cord-derived matrix cells (EUCMCs). Cell Biol. Int. 33: 100-105.
36. Plummer CE. 2009; The use of amniotic membrane transplantation for ocular surface reconstruction: a review and series of 58 equine clinical cases (2002-2008). Vet Ophthalmol 12: 17-24.
37. Portmann-Lanz CB, Schoeberlein A, Huber A, et al. 2006; Placental mesenchymal stem cells as potential autologous graft for pre- and perinatal neuroregeneration. Am J Obstet Gynecol 194: 664-673.
38. Reed SA, Johnson SE. 2008; Equine umbilical cord blood contains a population of stem cells that express Oct4 and differentiate into mesodermal and endodermal cell types. J Cell Physiol 215: 329-336.
39. Richardson LE, Dudhia J, Clegg PD, et al. 2007; Stem cells in veterinary medicine - attempts at regenerating equine tendon after injury. Trends Biotechnol. 25: 409-416.
40. Rindermann G, Cislakova M, Arndt G, et al. 2010; Autologus conditioned plasma as therapy of tendon and ligament lesion in seven horses. J Vet Sci 11(2): 173-175.
41. Romanov YA, Svintsitskaya VA, Smirnov VN. 2003; Searching for alternative sources of postnatal human mesenchymal stem cells: candidate MSC-like cells from umbilical cord. Stem Cells 21: 105-110.
42. Sankar V, Muthusamy R. 2003; Role of human amniotic epithelial cell transplantation in spinal cord injury repair research. Neuroscience 118: 11-17.
43. Sarugaser R, Lickorish D, Baksh D, et al. 2005; Human umbilical cord perivascular (HUCPV) cells: a source of mesenchymal progenitors. Stem Cells 23: 220-229.
44. Seo MS, Jeong YH, Park JR, et al. 2009; Isolation and characterization of canine umbilical cord blood-derived mesenchymal stem cells. J Vet Sci 10: 181-187.
45. Smith RK, Korda M, Blunn GW, et al. 2003; Isolation and implantation of autologous equine mesenchymal stem cells from bone marrow into the superficial digital flexor tendon as a potential novel treatment. Equine Vet. J. 35: 99-102.
46. Solomon A, Wajngarten M, Alviano F, et al. 2005; Suppression of inflammatory and fibrotic responses in allergic inflammation by the amniotic membrane stromal matrix. Clin. Exp. Allergy 35: 941-948.
47. Soncini M, Vertua E, Gibelli L, et al. 2007; Isolation and characterization of mesenchymal cells from human fetal membranes. J. Tissue Eng. Regen. Med. 1: 296-305.
48. Vejlsted M. 2010; Comparative placentation. In Essentials of Domestic Animal Embryology, Hyttel P (ed). Saunders/Elsevier: Edinburgh, New York: 104-119.
49. Vidal MA, Kilroy GE, Johnson JR, et al. 2006; Cell growth characteristics and differentiation frequency of adherent equine bone marrow-derived mesenchymal stromal cells: adipogenic and osteogenic capacity. Vet Surg 35: 601-610.
50. Weiss ML, Medicetty S, Bledsoe AR, et al. 2006; Human umbilical cord matrix stem cells: preliminary characterization and effect of transplantation in a rodent model of Parkinson's disease. Stem Cells 24: 781-792.
51. Weiss ML, Troyer D. 2007; Stem cells in the umbilical cord. Stem Cell Rev. 2: 155-162.
52. Woodbury D, Schwarz EJ, Prockop DJ, et al. 2000; Adult rat and human bone marrow stromal cells differentiate into neurons. J Neurosci Res 61: 364-370.
53. Yuge I, Takumi Y, Koyabu K, et al. 2004; Transplanted human amniotic epithelial cells express connexin 26 and Na-K-adenosine triphosphatase in the inner ear. Transplantation 77: 1452-1454.