Optimal tissue sources of mesenchymal stromal cells for clinical applications

Mesenchymal Stem Cell Therapy

Volumn , Issue , 2013, Pages 355-372

  Heazlewood, Celena ^a,b   Atkinson, Kerry ^a,b  

^a MATER MEDICAL RESEARCH INSTITUTE   (Australia)

^b UNIVERSITY OF QUEENSLAND   (Australia)

Author keywords

Clinical applications; Mesenchymal stem stromal cells (MSC); Tissue source

Indexed keywords

EID: 84887391300     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1007/978-1-62703-200-1_16     Document Type: Chapter

References (108)

1. Brooke G et al (2007) Therapeutic applications of mesenchymal stromal cells. Semin Cell Dev Biol 18(6):846-858
2. Dominici M et al (2006) Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement. Cytotherapy 8(4):315-317
3. Jiang Y et al (2002) Pluripotency of mesenchymal stem cells derived from adult marrow. Nature 418(6893):41-49
4. Koh SH et al (2008) Implantation of human umbilical cord-derived mesenchymal stem cells as a neuroprotective therapy for ischemic stroke in rats. Brain Res 1229:233-248
5. Wakabayashi K et al (2010) Transplantation of human mesenchymal stem cells promotes functional improvement and increased expression of neurotrophic factors in a rat focal cerebral ischemia model. J Neurosci Res 88(5):1017-1025
6. Lee JS et al (2010) A long-term follow-up study of intravenous autologous mesenchymal stem cell transplantation in patients with ischemic stroke. Stem Cells 28(6):1099-1106
7. Lee JK et al (2010) Intracerebral transplantation of bone marrow-derived mesenchymal stem cells reduces amyloid-beta deposition and rescues memory deficits in Alzheimer's disease mice by modulation of immune responses. Stem Cells 28(2):329-343
8. Osaka M et al (2010) Intravenous administration of mesenchymal stem cells derived from bone marrow after contusive spinal cord injury improves functional outcome. Brain Res 1343:226-235
9. Cizkova D et al (2011) Repetitive intrathecal catheter delivery of bone marrow mesenchymal stromal cells improves functional recovery in a rat model of contusive spinal cord injury. J Neurotrauma 28(9):1951-1961
10. Abdel Aziz MT et al (2007) Therapeutic potential of bone marrow-derived mesenchymal stem cells on experimental liver fibrosis. Clin Biochem 40(12):893-899
11. Black LL et al (2008) Effect of intraarticular injection of autologous adipose-derived mesenchymal stem and regenerative cells on clinical signs of chronic osteoarthritis of the elbow joint in dogs. Vet Ther 9(3):192-200
12. De Coppi P et al (2007) Isolation of amniotic stem cell lines with potential for therapy. Nat Biotechnol 25(1):100-106
13. Tao XR et al (2009) Clonal mesenchymal stem cells derived from human bone marrow can differentiate into hepatocyte-like cells in injured livers of SCID mice. J Cell Biochem 108(3):693-704
14. Baertschiger RM et al (2009) Fibrogenic potential of human multipotent mesenchymal stromal cells in injured liver. PLoS One 4(8):e6657
15. Sato Y et al (2005) Human mesenchymal stem cells xenografted directly to rat liver are differentiated into human hepatocytes without fusion. Blood 106(2):756-763
16. Mezey E et al (2000) Turning blood into brain: cells bearing neuronal antigens generated in vivo from bone marrow. Science 290(5497):1779-1782
17. Jones BJ et al (2007) Immunosuppression by placental indoleamine 2,3-dioxygenase: a role for mesenchymal stem cells. Placenta 28(11-12):1174-1181
18. Devine SM et al (2003) Mesenchymal stem cells distribute to a wide range of tissues following systemic infusion into nonhuman primates. Blood 101(8):2999-3001
19. Le Blanc K (2003) Immunomodulatory effects of fetal and adult mesenchymal stem cells. Cytotherapy 5(6):485-489
20. English K, Mahon BP (2011) Allogeneic mesenchymal stem cells: agents of immune modulation. J Cell Biochem 112(8):1963-1968
21. Lazarus HM et al (2005) Cotransplantation of HLA-identical sibling culture-expanded mesenchymal stem cells and hematopoietic stem cells in hematologic malignancy patients. Biol Blood Marrow Transplant 11(5):389-398
22. Pittenger MF et al (1999) Multilineage potential of adult human mesenchymal stem cells. Science 284(5411):143-147
23. Tondreau T et al (2009) In vitro study of matrix metalloproteinase/tissue inhibitor of metalloproteinase production by mesenchymal stromal cells in response to inflammatory cytokines: the role of their migration in injured tissues. Cytotherapy 11(5):559-569
24. Brooke G et al (2009) Manufacturing of human placenta-derived mesenchymal stem cells for clinical trials. Br J Haematol 144(4):571-579
25. Honczarenko M et al (2006) Human bone marrow stromal cells express a distinct set of biologically functional chemokine receptors. Stem Cells 24(4):1030-1041
26. Brooke G et al (2008) Molecular trafficking mechanisms of multipotent mesenchymal stem cells derived from human bone marrow and placenta. Stem Cells Dev 17(5):929-940
27. Fox JM et al (2007) Recent advances into the understanding of mesenchymal stem cell trafficking. Br J Haematol 137(6):491-502
28. Ponte AL et al (2007) The in vitro migration capacity of human bone marrow mesenchymal stem cells: comparison of chemokine and growth factor chemotactic activities. Stem Cells 25(7): 1737-1745
29. Shi M et al (2007) Regulation of CXCR4 expression in human mesenchymal stem cells by cytokine treatment: role in homing efficiency in NOD/SCID mice. Haematologica 92(7): 897-904
30. Wynn RF et al (2004) A small proportion of mesenchymal stem cells strongly expresses functionally active CXCR4 receptor capable of promoting migration to bone marrow. Blood 104(9):2643-2645
31. Ryu CH et al (2010) Migration of human umbilical cord blood mesenchymal stem cells mediated by stromal cell-derived factor-1/CXCR4 axis via Akt, ERK, and p38 signal transduction pathways. Biochem Biophys Res Commun 398(1):105-110
32. Block GJ et al (2009) Multipotent stromal cells are activated to reduce apoptosis in part by upregulation and secretion of stanniocalcin-1. Stem Cells 27(3):670-681
33. Pelekanos RA et al (2012) Comprehensive transcriptome and immunophenotype analysis of renal and cardiac MSC-like populations supports strong congruence with bone marrow MSC despite maintenance of distinct identities. Stem Cell Res 8(1):58-73
34. da Silva Meirelles L, Chagastelles PC, Nardi NB (2006) Mesenchymal stem cells reside in virtually all post-natal organs and tissues. J Cell Sci 119(Pt 11): 2204-2213
35. Heazlewood C et al (2012) Exploring the human term placenta as a novel niche for stem cells and their application in the clinic. In: Zheng J (ed) The human placenta. Tech, Rijeka, Croatia
36. Barlow S et al (2008) Comparison of human placenta-and bone marrow-derived multipotent mesenchymal stem cells. Stem Cells Dev 17(6):1095-1107
37. Kern S et al (2006) Comparative analysis of mesenchymal stem cells from bone marrow, umbilical cord blood, or adipose tissue. Stem Cells 24(5):1294-1301
38. Friedenstein AJ et al (1968) Heterotopic of bone marrow. Analysis of precursor cells for osteogenic and hematopoietic tissues. Transplantation 6(2):230-247
39. Owen M, Friedenstein AJ (1988) Stromal stem cells: marrow-derived osteogenic precursors. Ciba Found Symp 136:42-60
40. Ilic N et al (2011) Manufacture of clinical grade human placenta-derived multipotent mesenchymal stromal cells. Methods Mol Biol 698:89-106
41. Phinney DG et al (1999) Plastic adherent stromal cells from the bone marrow of commonly used strains of inbred mice: variations in yield, growth, and differentiation. J Cell Biochem 72(4):570-585
42. Ortiz LA et al (2003) Mesenchymal stem cell engraftment in lung is enhanced in response to bleomycin exposure and ameliorates its fibrotic effects. Proc Natl Acad Sci USA 100(14):8407-8411
43. Gronthos S et al (2003) Molecular and cellular characterisation of highly purified stromal stem cells derived from human bone marrow. J Cell Sci 116(Pt 9):1827-1835
44. Peister A et al (2004) Adult stem cells from bone marrow (MSCs) isolated from different strains of inbred mice vary in surface epitopes, rates of proliferation, and differentiation potential. Blood 103(5):1662-1668
45. Sacchetti B et al (2007) Self-renewing osteoprogenitors in bone marrow sinusoids can organize a hematopoietic microenvironment. Cell 131(2):324-336
46. Belema-Bedada F et al (2008) Efficient homing of multipotent adult mesenchymal stem cells depends on FROUNT-mediated clustering of CCR2. Cell Stem Cell 2(6):566-575
47. Caplan AI (1994) The mesengenic process. Clin Plast Surg 21(3):429-435
48. Stenderup K et al (2003) Aging is associated with decreased maximal life span and accelerated senescence of bone marrow stromal cells. Bone 33(6):919-926
49. Bergman RJ et al (1996) Age-related changes in osteogenic stem cells in mice. J Bone Miner Res 11(5):568-577
50. D'Ippolito G et al (1999) Age-related osteogenic potential of mesenchymal stromal stem cells from human vertebral bone marrow. J Bone Miner Res 14(7):1115-1122
51. Ringe J et al (2002) Stem cells for regenerative medicine: advances in the engineering of tissues and organs. Naturwissenschaften 89(8):338-351
52. Schreml S et al (2009) Harvesting human adipose tissue-derived adult stem cells: resection versus liposuction. Cytotherapy 11(7):947-957
53. Lee RH et al (2004) Characterization and expression analysis of mesenchymal stem cells from human bone marrow and adipose tissue. Cell Physiol Biochem 14(4-6):311-324
54. Gronthos S et al (2000) Postnatal human dental pulp stem cells (DPSCs) in vitro and in vivo. Proc Natl Acad Sci USA 97(25):13625-13630
55. Shi S, Robey PG, Gronthos S (2001) Comparison of human dental pulp and bone marrow stromal stem cells by cDNA microarray analysis. Bone 29(6):532-539
56. Yen BL et al (2005) Isolation of multipotent cells from human term placenta. Stem Cells 23(1):3-9
57. Menicanin D et al (2010) Identification of a common gene expression signature associated with immature clonal mesenchymal cell populations derived from bone marrow and dental tissues. Stem Cells Dev 19(10):1501-1510
58. Guillot PV et al (2007) Human first-trimester fetal MSC express pluripotency markers and grow faster and have longer telomeres than adult MSC. Stem Cells 25(3):646-654
59. Jo YY et al (2007) Isolation and characterization of postnatal stem cells from human dental tissues. Tissue Eng 13(4):767-773
60. Krampera M et al (2007) Induction of neural-like differentiation in human mesenchymal stem cells derived from bone marrow, fat, spleen and thymus. Bone 40(2):382-390
61. Yamanishi H, Fujiwara S, Soma T (2012) Perivascular localization of dermal stem cells in human scalp. Exp Dermatol 21(1):78-80
62. Masuda H et al (2010) Stem cell-like properties of the endometrial side population: implication in endometrial regeneration. PLoS One 5(4):e10387
63. Meng X et al (2007) Endometrial regenerative cells: a novel stem cell population. J Transl Med 5:57
64. Musina RA et al (2008) Endometrial mesenchymal stem cells isolated from the menstrual blood. Bull Exp Biol Med 145(4):539-543
65. Rodriguez LV et al (2006) Clonogenic multipotent stem cells in human adipose tissue differentiate into functional smooth muscle cells. Proc Natl Acad Sci USA 103(32):12167-12172
66. Wagner W et al (2005) Comparative characteristics of mesenchymal stem cells from human bone marrow, adipose tissue, and umbilical cord blood. Exp Hematol 33(11):1402-1416
67. Huang GT, Gronthos S, Shi S (2009) Mesenchymal stem cells derived from dental tissues vs. those from other sources: their biology and role in regenerative medicine. J Dent Res 88(9):792-806
68. Volponi AA, Pang Y, Sharpe PT (2010) Stem cell-based biological tooth repair and regeneration. Trends Cell Biol 20(12):715-722
69. Miura M et al (2003) SHED: stem cells from human exfoliated deciduous teeth. Proc Natl Acad Sci USA 100(10):5807-5812
70. Seo BM et al (2004) Investigation of multipotent postnatal stem cells from human periodontal ligament. Lancet 364(9429):149-155
71. Sonoyama W et al (2008) Characterization of the apical papilla and its residing stem cells from human immature permanent teeth: a pilot study. J Endod 34(2):166-171
72. Morsczeck C et al (2005) Isolation of precursor cells (PCs) from human dental follicle of wisdom teeth. Matrix Biol 24(2):155-165
73. Yamada Y et al (2006) Cluster analysis and gene expression profiles: a cDNA microarray system-based comparison between human dental pulp stem cells (hDPSCs) and human mesenchymal stem cells (hMSCs) for tissue engineering cell therapy. Biomaterials 27(20):3766-3781
74. Zhang W et al (2006) Multilineage differentiation potential of stem cells derived from human dental pulp after cryopreservation. Tissue Eng 12(10):2813-2823
75. Batouli S et al (2003) Comparison of stem-cell-mediated osteogenesis and dentinogenesis. J Dent Res 82(12):976-981
76. Timmins NE et al (2012) Closed system isolation and scalable expansion of human placental mesenchymal stem cells. Biotechnol Bioeng 109(7):1817-1826
77. Guillot PV et al (2008) Intrauterine transplantation of human fetal mesenchymal stem cells from first-trimester blood repairs bone and reduces fractures in osteogenesis imperfecta mice. Blood 111(3):1717-1725
78. Gotherstrom C et al (2003) Immunomodulatory effects of human foetal liver-derived mesenchymal stem cells. Bone Marrow Transplant 32(3):265-272
79. in't Anker PS et al (2003) Mesenchymal stem cells in human second-trimester bone marrow, liver, lung, and spleen exhibit a similar immunophenotype but a heterogeneous multilineage differentiation potential. Haematologica 88(8):845-852
80. Nadri S, Soleimani M (2007) Comparative analysis of mesenchymal stromal cells from murine bone marrow and amniotic fluid. Cytotherapy 9(8):729-737
81. Mareschi K et al (2001) Isolation of human mesenchymal stem cells: bone marrow versus umbilical cord blood. Haematologica 86(10):1099-1100
82. Kogler G et al (2004) A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential. J Exp Med 200(2):123-135
83. Parolini O et al (2008) Concise review: isolation and characterization of cells from human term placenta: outcome of the first international Workshop on Placenta Derived Stem Cells. Stem Cells 26(2):300-311
84. Blackburn S (ed) (2003) Maternal, fetal & neonatal physiology: a clinical perspective. Saunders: An Imprint of Elsevier Science, Amsterdam
85. Soncini M et al (2007) Isolation and characterization of mesenchymal cells from human fetal membranes. J Tissue Eng Regen Med 1(4):296-305
86. Casey ML, MacDonald PC (1996) Interstitial collagen synthesis and processing in human amnion: a property of the mesenchymal cells. Biol Reprod 55(6):1253-1260
87. Whittle WL, Gibb W, Challis JR (2000) The characterization of human amnion epithelial and mesenchymal cells: the cellular expression, activity and glucocorticoid regulation of prostaglandin output. Placenta 21(4):394-401
88. Bacenkova D et al (2011) Isolation and basic characterization of human term amnion and chorion mesenchymal stromal cells. Cytotherapy 13(9):1047-1056
89. Roelen DL et al (2009) Differential immunomodulatory effects of fetal versus maternal multipotent stromal cells. Hum Immunol 70(1):16-23
90. Xu M et al (2011) [Comparison of immunologic regulatory characteristics of mesenchymal stem cells derived from human umbilical cord amnion and adult bone marrow]. Zhongguo Shi Yan Xue Ye Xue Za Zhi 19(5):1224-1229
91. Walther G, Gekas J, Bertrand OF (2009) Amniotic stem cells for cellular cardiomyoplasty: promises and premises. Catheter Cardiovasc Interv 73(7):917-924
92. Portmann-Lanz CB et al (2006) Placental mesenchymal stem cells as potential autologous graft for pre-and perinatal neuroregeneration. Am J Obstet Gynecol 194(3):664-673
93. Roubelakis MG et al (2007) Molecular and proteomic characterization ofhuman mesenchymal stem cells derived from amniotic fluid: comparison to bone marrow mesenchymal stem cells. Stem Cells Dev 16(6):931-952
94. Tsai MS et al (2004) Isolation of human multipotent mesenchymal stem cells from second-trimester amniotic fluid using a novel two-stage culture protocol. Hum Reprod 19(6): 1450-1456
95. Witkowska-Zimny M, Wrobel E (2011) Perinatal sources of mesenchymal stem cells: Wharton's jelly, amnion and chorion. Cell Mol Biol Lett 16(3):493-514
96. Bieback K et al (2004) Critical parameters for the isolation of mesenchymal stem cells from umbilical cord blood. Stem Cells 22(4):625-634
97. Sibov TT et al (2012) Mesenchymal stem cells from umbilical cord blood: parameters for isolation, characterization and adipogenic differentiation. Cytotechnology [Epub ahead of print]
98. Brooke G et al (2012) Unrestricted stem cells from cord blood show distinct differences in multipotential stromal cells isolated from bone marrow and placenta at both the gene expression and functional level (in preparation)
99. Chang YJ et al (2006) Characterization of two populations of mesenchymal progenitor cells in umbilical cord blood. Cell Biol Int 30(6):495-499
100. Winter M et al (2009) Suppression of cellular immunity by cord blood-derived unrestricted somatic stem cells is cytokine-dependent. J Cell Mol Med 13(88):2465-2475
101. Le Blanc K et al (2005) Fetal mesenchymal stem-cell engraftment in bone after in utero transplantation in a patient with severe osteogenesis imperfecta. Transplantation 79(11):1607-1614
102. Koc ON et al (2000) Rapid hematopoietic recovery after coinfusion of autologous-blood stem cells and culture-expanded marrow mesenchymal stem cells in advanced breast cancer patients receiving high-dose chemotherapy. J Clin Oncol 18(2):307-316
103. Iop L et al (2008) Different cardiovascular potential of adult-and fetal-type mesenchymal stem cells in a rat model of heart cryoinjury. Cell Transplant 17(6):679-694
104. Noel D et al (2008) Cell specific differences between human adipose-derived and mesenchymal-stromal cells despite similar differentiation potentials. Exp Cell Res 314(7):1575-1584
105. Zhang ZY et al (2009) Superior osteogenic capacity for bone tissue engineering of fetal compared with perinatal and adult mesenchymal stem cells. Stem Cells 27(1):126-137
106. Li G et al (2009) Comparative proteomic analysis of mesenchymal stem cells derived from human bone marrow, umbilical cord, and placenta: implication in the migration. Proteomics 9(1):20-30
107. Rebelatto CK et al (2008) Dissimilar differentiation of mesenchymal stem cells from bone marrow, umbilical cord blood, and adipose tissue. Exp Biol Med (Maywood) 233(7):901-913
108. Tsai MS et al (2007) Functional network analysis of the transcriptomes of mesenchymal stem cells derived from amniotic fluid, amniotic membrane, cord blood, and bone marrow. Stem Cells 25(10):2511-2523