Bone marrow mesenchymal stem cell transplantation for improving nerve regeneration

International Review of Neurobiology

Volumn 108, Issue , 2013, Pages 59-77

  Oliveira, Júlia Teixeira ^a   Mostacada, Klauss ^a   de Lima, Silmara ^a   Martinez, Ana Maria Blanco ^a  

^a FEDERAL UNIVERSITY OF RIO DE JANEIRO   (Brazil)

Author keywords

Bone marrow mesenchymal stem cells; Cell based therapy; Mechanisms; Nerve regeneration; Therapeutic strategies

Indexed keywords

ARTICLE; BONE MARROW MESENCHYMAL STEM CELL TRANSPLANTATION; CELL SURVIVAL; CELL TRANSDIFFERENTIATION; CELL TYPE; CLINICAL STUDY; HUMAN; INTRACELLULAR SIGNALING; MESENCHYMAL STEM CELL TRANSPLANTATION; NERVE CELL PLASTICITY; NERVE DEGENERATION; NERVE FIBER GROWTH; NERVE REGENERATION; NONHUMAN; PERIPHERAL NEUROPATHY; PRIORITY JOURNAL; REMYELINIZATION; SCHWANN CELL; SPINAL CORD INJURY; SPINAL GANGLION; TISSUE REPAIR;

BONE MARROW MESENCHYMAL STEM CELLS; CELL-BASED THERAPY; MECHANISMS; NERVE REGENERATION; THERAPEUTIC STRATEGIES;

ANIMALS; BONE MARROW TRANSPLANTATION; HUMANS; MESENCHYMAL STEM CELL TRANSPLANTATION; NERVE REGENERATION; PERIPHERAL NERVOUS SYSTEM DISEASES;

EID: 84884694094     PISSN: 00747742     EISSN: None     Source Type: Book Series    
DOI: 10.1016/B978-0-12-410499-0.00003-4     Document Type: Chapter

References (48)

1. Aggarwal S., Pittenger M.F. Human mesenchymal stem cells modulate allogeneic immune cell responses. Blood 2005, 105(4):1815-1822.
2. Bjorklund L.M., Sánchez-Pernaute R., Chung S., Andersson T., Chen I.Y., McNaught K.S., et al. Embryonic stem cells develop into functional dopaminergic neurons after transplantation in a Parkinson rat model. Proceedings of the National Academy of Sciences of the United States of America 2002, 99(4):2344-2349.
3. Bossolasco P., Cova L., Calzarossa C., Rimoldi S.G., Borsotti C., Deliliers G.L., et al. Neuro-glial differentiation of human bone marrow stem cells in vitro. Experimental Neurology 2005, 193(2):312-325.
4. Chen C.J., Ou Y.C., Liao S.L., Chen W.Y., Chen S.Y., Wu C.W., et al. Transplantation of bone marrow stromal cells for peripheral nerve repair. Experimental Neurology 2007, 204(1):443-453.
5. Crigler L., Robey R.C., Asawachaicharn A., Gaupp D., Phinney D.G. Human mesenchymal stem cell subpopulations express a variety of neuro-regulatory molecules and promote neuronal cell survival and neuritogenesis. Experimental Neurology 2006, 198(1):54-64.
6. Cristante A.F., Barros-Filho T.E., Tatsui N., Mendrone A., Caldas J.G., Camargo A., et al. Stem cells in the treatment of chronic spinal cord injury: Evaluation of somatosensitive evoked potentials in 39 patients. Spinal Cord 2009, 47:733-738.
7. Cuevas P., Carceller F., Dujovny M., Garcia-Gómez I., Cuevas B., González-Corrochano R., et al. Peripheral nerve regeneration by bone marrow stromal cells. Neurological Research 2002, 24(7):634-638.
8. Dadon-Nachum M., Sadan O., Srugo I., Melamed E., Offen D. Differentiated mesenchymal stem cells for sciatic nerve injury. Stem Cells Reviews 2011, 7(3):664-671.
9. Dezawa M., Takahashi I., Esaki M., Takano M., Sawada H. Sciatic nerve regeneration in rats induced by transplantation of in vitro differentiated bone-marrow stromal cells. European Journal of Neuroscience 2001, 4(11):1771-1776.
10. Di Nicola M., Carlo-Stella C., Magni M., Milanesi M., Longoni P.D., Matteucci P., et al. Human bone marrow stromal cells suppress T-lymphocyte proliferation induced by cellular or nonspecific mitogenic stimuli. Blood 2002, 99(10):3838-3843.
11. Fernández Vallone V.B., Romaniuk M.A., Choi H., Labovsky V., Otaegui J., Chasseing N.A. Mesenchymal stem cells and their use in therapy: What has been achieved?. Differentiation 2013, 85(1-2):1-10.
12. Frattini F., Lopes F.R., Almeida F.M., Rodrigues R.F., Boldrini L.C., Tomaz M.A., et al. Mesenchymal stem cells in a polycaprolactone conduit promote sciatic nerve regeneration and sensory neuron survival after nerve injury. Tissue Engineering. Part A 2012, 18(19-20):2030-2039.
13. Geuna S., Raimondo S., Ronchi G., Di Scipio F., Tos P., Czaja K., et al. Chapter 3: Histology of the peripheral nerve and changes occurring during nerve regeneration. International Review of Neurobiology 2009, 87:27-46.
14. Gu Y., Wang J., Ding F., Hu N., Wang Y., Gu X. Neurotrophic actions of bone marrow stromal cells on primary culture of dorsal root ganglion tissues and neurons. Journal of Molecular Neuroscience 2010, 40(3):332-341.
15. Harrop J.S., Hashimoto R., Norvell D., Raich A., Aarabi B., Grossman R.G., et al. Evaluation of clinical experience using cell-based therapies in patients with spinal cord injury: A systematic review. Journal of Neurosurgery: Spine 2012, 17(1 Suppl.):230-246.
16. Hoke A., Keswani S.C. Neuroprotection in the PNS: Erythropoietin and immunophilin ligands. Annals of the New York Academy of Sciences 2005, 1053:491-501.
17. Jiang X.X., Zhang Y., Liu B., Zhang S.X., Wu Y., Yu X.D., et al. Human mesenchymal stem cells inhibit differentiation and function of monocyte-derived dendritic cells. Blood 2005, 105(10):4120-4126.
18. Kassis I., Grigoriadis N., Gowda-Kurkalli B., Mizrachi-Kol R., Ben-Hur T., Slavin S., et al. Neuroprotection and immunomodulation with mesenchymal stem cells in chronic experimental autoimmune encephalomyelitis. Current Stem Cell Research & Therapy 2008, 65(6):753-761.
19. Keilhoff G., Fansa H. Mesenchymal stem cells for peripheral nerve regeneration-A real hope or just an empty promise?. Experimental Neurology 2011, 232(2):110-113.
20. Keilhoff G., Goihl A., Langnäse K., Fansa H., Wolf G. Transdifferentiation of mesenchymal stem cells into Schwann cell-like myelinating cells. European Journal of Cell Biology 2006, 85(1):11-24.
21. Kim B.J., Seo J.H., Bubien J.K., Oh Y.S. Differentiation of adult bone marrow stem cells into neuroprogenitor cells in vitro. Neuroreport 2002, 13:1185-1188.
22. Kishk N.A., Gabr H., Hamdy S., Afifi L., Abokresha N., Mahmoud H., et al. Case control series of intrathecal autologous bone marrow mesenchymal stem cell therapy for chronic spinal cord injury. Neurorehabilitation and Neural Repair 2010, 24:702-708.
23. Krampera M., Marconi S., Pasini A., Gali M., Rigotti G., Mosna F., et al. Induction of neural-like differentiation in human mesenchymal stem cells derived from bone marrow, fat, spleen and thymus. Bone 2006, 40:382-390.
24. Ladak A., Olson J., Tredget E.E., Gordon T. Differentiation of mesenchymal stem cells to support peripheral nerve regeneration in a rat model. Experimental Neurology 2011, 228(2):242-252.
25. Mahay D., Terenghi G., Shawcross S.G. Schwann cell mediated trophic effects by differentiated mesenchymal stem cells. Experimental Cell Research 2008, 314(14):2692-2701.
26. Mehta T., Feroz A., Thakkar U., Vanikar A., Shah V., Trivedi H. Subarachnoid placement of stem cells in neurological disorders. Transplantation Proceedings 2008, 40:1145-1147.
27. Mo S.J., Zhong Q., Zhou Y.F., Deng D.B., Zhang X.Q. Bone marrow-derived mesenchymal stem cells prevent the apoptosis of neuron-like PC12 cells via erythropoietin expression. Neuroscience Letters 2012, 522(2):92-97.
28. Muraglia A., Cacedda R., Quarto R. Clonal mesenchymal progenitors from human bone marrow differentiate in vitro according to a hierarchical model. Journal of Cell Science 2000, 113:1161-1166.
29. Nakajima H., Uchida K., Guerrero A.R., Watanabe S., Sugita D., Takeura N., et al. Transplantation of mesenchymal stem cells promotes an alternative pathway of macrophage activation and functional recovery after spinal cord injury. Journal of Neurotrauma 2012, 29(8):1614-1625.
30. Navarro X., Vivó M., Valero-Cabré A. Neural plasticity after peripheral nerve injury and regeneration. Progress in Neurobiology 2007, 82:163-201.
31. Oliveira J.T., Almeida F.M., Biancalana A., Baptista A.F., Tomaz M.A., Melo P.A., et al. Mesenchymal stem cells in a polycaprolactone conduit enhance median-nerve regeneration, prevent decrease of creatine phosphokinase levels in muscle, and improve functional recovery in mice. Neuroscience 2010, 170(4):1295-1303.
32. Oliveira J.T., Almeida F.M., Martinez A.M. Peripheral nerve regeneration after traumatic injury and stem-cell therapy. Stem-cells and cancer stem cells 2012, 47-58. Springer, The Netherlands. M.A. Hayat (Ed.).
33. Pereira Lopes F.R., Camargo de Moura Campos L., Dias Corrêa J., Balduino A., Lora S., et al. Bone marrow stromal cells and resorbable collagen guidance tubes enhance sciatic nerve regeneration in mice. Experimental Neurology 2006, 198(2):457-468.
34. Ribeiro-Resende V.T., Pimentel-Coelho P.M., Mesentier-Louro L.A., Mendez R.M., Mello-Silva J.P., Cabral-da-Silva M.C., et al. Trophic activity derived from bone marrow mononuclear cells increases peripheral nerve regeneration by acting on both neuronal and glial cell populations. Neuroscience 2009, 159(2):540-549.
35. Rooney G.E., Moran C., McMahon S.S., Ritter T., Maenz M., Flügel A., et al. Gene-modified mesenchymal stem cells express functionally active nerve growth factor on an engineered polylactic glycolic acid (PLGA) substrate. Tissue Engineering. Part A 2008, 14(5):681-690.
36. Sato K., Ozaki K., Oh I., Meguro A., Hatanaka K., Nagai T., et al. Nitric oxide plays a critical role in suppression of T-cell proliferation by mesenchymal stem cells. Blood 2007, 109(1):228-234.
37. Schlosshauer B., Müller E., Schröder B., Planck H., Müller H.W. Rat Schwann cells in bioresorbable nerve guides to promote and accelerate axonal regeneration. Brain Research 2003, 963(1-2):321-326.
38. Shimizu S., Kitada M., Ishikawa H., Itokazu Y., Wakao S., Dezawa M. Peripheral nerve regeneration by the in vitro differentiated-human bone marrow stromal cells with Schwann cell property. Biochemical and Biophysical Research Communications 2007, 359(4):915-920.
39. Spees J.L., Olson S.D., Whitney M.J., Prockop D.J. Mitochondrial transfer between cells can rescue aerobic respiration. Proceedings of the National Academy of Sciences of the United States of America 2006, 103(5):1283-1288.
40. Stoll G., Jander S., Myers R.R. Degeneration and regeneration of the peripheral nervous system: From Augustus Waller's observations to neuroinflammation. Journal of the Peripheral Nervous System 2002, 7(1):13-27.
41. Terada N., Hamazaki T., Oka M., Hoki M., Mastalerz D.M., Nakano Y., et al. Bone marrow cells adopt the phenotype of other cells by spontaneous cell fusion. Nature 2002, 416(6880):542-545.
42. Uccelli A., Moretta L., Pistoia V. Immunoregulatory function of mesenchymal stem cells. European Journal of Immunology 2006, 36(10):2566-2573.
43. Wang J., Ding F., Gu Y., Liu J., Gu X. Bone marrow mesenchymal stem cells promote cell proliferation and neurotrophic function of Schwann cells in vitro and in vivo. Brain Research 2009, 1262:7-15.
44. Weimann J.M., Charlton C.A., Brazelton T.R., Hackman R.C., Blau H.M. Contribution of transplanted bone marrow cells to Purkinje neurons in human adult brains. Proceedings of the National Academy of Sciences of the United States of America 2003, 100(4):2088-2093.
45. Woodbury D., Schwarz E.J., Prockop D.J., Black I.B. Adult rat and human bone marrow stromal cells differentiate into neurons. Journal of Neuroscience Research 2000, 61:364-370.
46. Yang J., Lou Q., Huang R., Shen L., Chen Z. Dorsal root ganglion neurons induce transdifferentiation of mesenchymal stem cells along a Schwann cell lineage. Neuroscience Letters 2008, 445(3):246-251.
47. Yang Y., Yuan X., Ding F., Yao D., Gu Y., Liu J., et al. Repair of rat sciatic nerve gap by a silk fibroin-based scaffold added with bone marrow mesenchymal stem cells. Tissue Engineering. Part A 2011, 17(17-18):2231-2244.
48. Yoon S.H., Shim Y.S., Park Y.H., Chung J.K., Nam J.H., Kim M.O., et al. Complete spinal cord injury treatment using autologous bone marrow cell transplantation and bone marrow stimulation with granulocyte macrophage-colony stimulating factor: Phase I/II clinical trial. Stem Cells 2007, 25:2066-2073.