Organogenesis for kidney regeneration

Current Opinion in Organ Transplantation

Volumn 18, Issue 2, 2013, Pages 186-190

  Yokote, Shinya ^a   Yokoo, Takashi ^a  

^a JIKEI UNIVERSITY SCHOOL OF MEDICINE   (Japan)

Author keywords

Blastocyst complementation; Induced pluripotent stem cells; Kidney regeneration; Mesenchymal stem cells; Metanephros

Indexed keywords

BLASTOCYST; CELL DIFFERENTIATION; DEVELOPMENTAL BIOLOGY; EMBRYONIC STEM CELL; HUMAN; IN VITRO STUDY; IN VIVO STUDY; KIDNEY; KIDNEY CELL; KIDNEY DEVELOPMENT; KIDNEY FUNCTION; KIDNEY PARENCHYMA; KIDNEY REGENERATION; KIDNEY STRUCTURE; MESENCHYMAL STEM CELL; MULTIPOTENT STEM CELL; ORGANOGENESIS; PLURIPOTENT STEM CELL; REGENERATION; REVIEW;

HUMANS; INDUCED PLURIPOTENT STEM CELLS; KIDNEY; MESENCHYMAL STROMAL CELLS; ORGANOGENESIS; REGENERATION; REGENERATIVE MEDICINE; TISSUE ENGINEERING;

EID: 84875387278     PISSN: 10872418     EISSN: 15317013     Source Type: Journal    
DOI: 10.1097/MOT.0b013e32835f070d     Document Type: Review

References (50)

1. Takahashi K, Yamanaka S. Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors. Cell 2006;126: 663-676
2. Song B, Smink AM, Jones CV, et al. The directed differentiation of human iPS cells into kidney podocytes. PLoS One 2012;7:e46453
3. Kao RM, Vasilyev A, Miyawaki A, et al. Invasion of distal nephron precursors associates with tubular interconnection during nephrogenesis. J Am Soc Nephrol 2012;10: 1682-1690
4. Park JS, Ma W, O'Brien LL, et al. Six2 and Wnt regulate self-renewal and commitment of nephron progenitors through shared gene regulatory networks. Dev Cell 2012;23: 637-651
5. O'Brien LL, Grimaldi M, Kostun Z, et al. Wt1a, Foxc1a, and the Notch mediator Rbpj physically interact and regulate the formation of podocytes in zebrafish. Dev Biol 2011;358: 318-330
6. Wingert RA, Davidson AJ. Zebrafish nephrogenesis involves dynamic spatiotemporal expression changes in renal progenitors and essential signals from retinoic acid and irx3b. Dev Dyn 2011;240: 2011-2027
7. Diep CQ, Ma D, Deo RC, et al. Identification of adult nephron progenitors capable of kidney regeneration in zebrafish. Nature 2011;470: 95-100
8. Yokote S, Yokoo T. Stem cells in kidney regeneration. Curr Med Chem 2012;19: 6009-6017
9. Ott HC, Matthiesen TS, Goh SK, et al. Perfusion decellularized matrix: Using nature's platform to engineer a bioartificial heart. Nat Med 2008;14: 213- 221
10. Ross EA, Williams MJ, Hamazaki T, et al. Embryonic stem cells proliferate and differentiate when seeded into kidney scaffolds. J Am Soc Nephrol 2009;20: 2338-2347
11. Sariola H, Ekblom P, Lehtonen E, et al. Differentiation and vascularization of the metanephric kidney grafted on the chorioallantoic membrane. Dev Biol 1983;96: 43-51
12. Rogers SA, Lowell JA, Hammerman NA, et al. Transplantation of developing metanephroi into adult rats. Kidney Int 1998;54: 27-37
13. Hammerman MR. Renal organogenesis from transplanted metanephric primordial. J Am Soc Nephrol 2004;15: 1126-1132
14. Matsumoto K, Yokoo T, Yokote S, et al. Functional development of a transplanted embryonic kidney: Effect of transplantation site. J Nephrol 2012;25: 50-55
15. Yokote S, Yokoo T, Matsumoto K, et al. The effect of metanephros transplantation on blood pressure in anephric rats with induced acute hypotension. Nephrol Dial Transplant 2012;27: 3449-3455
16. Yokote S, Yokoo T, Matsumoto K, et al. Metanephros transplantation inhibits the progression of vascular calcification in rats with adenine-induced renal failure. Nephron Exp Nephrol 2012;120:e32-e40
17. Rogers SA, Talcott M, Hammerman MR. Transplantation of pig metanephroi. ASAIO J 2003;49: 48-52
18. Dekel B, Burakova T, Arditti FD, et al. Human and porcine early kidney precursors as a new source for transplantation. Nat Med 2003;9: 53-60
19. Matsumoto K, Yokoo T, Matsunari H, et al. Xenotransplanted embryonic kidney provides a niche for endogenous mesenchymal stem cell differentiation into erythropoietin-producing tissue. Stem Cells 2012;30: 1228- 1235
20. Xinaris C, Benedetti V, Rizzo P, et al. In vivo maturation of functional renal organoids formed from embryonic cell suspensions. J Am Soc Nephrol 2012;23: 1857-1868
21. Ogle B, Cascalho M, Platt JL. Fusion of approaches to the treatment of organ failure. Am J Transplant 2004;4: 74-77
22. Cascalho M, Ogle BM, Platt JL. Xenotransplantation and the future of renal replacement. J Am Soc Nephrol 2004;15: 1106-1112
23. Liechty KW, MacKenzie TC, Shaaban AF, et al. Human mesenchymal stem cells engraft and demonstrate site-specific differentiation after in utero transplantation in sheep. Nat Med 2000;6: 1282-1286
24. Reis LA, Borges FT, Simoöes MJ, et al. Bone marrow-derived mesenchymal stem cells repaired but did not prevent gentamicin-induced acute kidney injury through paracrine effects in rats. PLoS One 2012;7:e44092
25. Zoja C, Bautista Garcia P, Rota C, et al. Mesenchymal stem cell therapy promotes renal repair by limiting glomerular podocyte and progenitor cell dysfunction in adriamycin-induced nephropathy. Am J Physiol Renal Physiol 2012;303:F1370-F1381
26. Chen J, Park HC, Addabbo F, et al. Kidney-derived mesenchymal stem cells contribute to vasculogenesis, angiogenesis and endothelial repair. Kidney Int 2008;74: 879-889
27. Katsuno T, Ozaki T, Saka Y, et al. Low serum cultured adipose tissue-derived stromal cells ameliorate acute kidney injury in rats. Cell Transplant 2012 [Epub ahead of print].
28. Saxen L. Organogenesis of the kidney. Cambridge, UK: Cambridge University Press; 1987
29. Davies JA, Fisher CE. Genes and proteins in renal development. Exp Nephrol 2002;10: 102-113
30. Yokoo T, Ohashi T, Shen JS, et al. Human mesenchymal stem cells in rodent whole-embryo culture are reprogrammed to contribute to kidney tissues. Proc Natl Acad Sci USA 2005;102: 3296-3300
31. Yokoo T, Matsumoto K, Yokote S. Potential use of stem cells for kidney regeneration. Int J Nephrol 2011;2011: 591731
32. Yokoo T, Fukui A, Ohashi T, et al. Xenobiotic kidney organogenesis from human mesenchymal stem cells using a growing rodent embryo. J Am Soc Nephrol 2006;17: 1026-1034
33. Yokoo T, Fukui A, Matsumoto K, et al. Generation of a transplantable erythropoietin-producer derived from human mesenchymal stem cells. Transplantation 2008;85: 1654-1658
34. Fukui A, Yokoo T, Matsumoto K, et al. Integration of human mesenchymal stem cells into the Wolffian duct in chicken embryos. Biochem Biophys Res Commun 2009;385: 330-335
35. Kobayashi T, Yamaguchi T, Hamanaka S, et al. Generation of rat pancreas in mouse by interspecific blastocyst injection of pluripotent stem cells. Cell 2010;142: 787-799
36. Espejel S, Roll GR, McLaughlin KJ, et al. Induced pluripotent stem cell-derived hepatocytes have the functional and proliferative capabilities needed for liver regeneration in mice. J Clin Invest 2010;120: 3120-3126
37. Usui JI, Kobayashi T, Yamaguchi T, et al. Generation of kidney from pluripotent stem cells via blastocyst complementation. Am J Pathol 2012;180: 2417- 2426
38. Usui JI, Yamagata K, Nishinakamura R, et al. Unpublished data. The 55th annual meeting of the Japanese Society of Nephrology. 2012
39. D'Amour KA, Bang AG, Eliazer S, et al. Production of pancreatic hormoneexpressing endocrine cells from human embryonic stem cells. Nat Biotechnol 2006;24: 1392-1401
40. Zhang D, Jiang W, Liu M, et al. Highly efficient differentiation of human ES cells and iPS cells into mature pancreatic insulin-producing cells. Cell Res 2009;19: 429-438
41. Hay DC, Zhao D, Fletcher J, et al. Efficient differentiation of hepatocytes from human embryonic stem cells exhibiting markers recapitulating liver development in vivo. Stem Cells 2008;26: 894-902
42. Basma H, Soto-Gutié rrez A, Yannam GR, et al. Differentiation and transplantation of human embryonic stem cell-derived hepatocytes. Gastroenterology 2009;136: 990-999
43. Spence JR, Mayhew CN, Rankin SA, et al. Directed differentiation of human pluripotent stem cells into intestinal tissue in vitro. Nature 2011;470: 105- 109
44. Suga H, Kadoshima T, Minaguchi M, et al. Self-formation of functional adenohypophysis in three-dimensional culture. Nature 2011;480: 57-62
45. Eiraku M, Watanabe K, Matsuo-Takasaki M, et al. Self-organized formation of polarized cortical tissues from ESCs and its active manipulation by extrinsic signals. Cell Stem Cell 2008;3: 519-532
46. Eiraku M, Takata N, Ishibashi H, et al. Self-organizing optic-cup morphogenesis in three-dimensional culture. Nature 2011;472: 51-56
47. Nakano T, Ando S, Takata N, et al. Self-formation of optic cups and storable stratified neural retina from human ESCs. Cell Stem Cell 2012;10: 771- 785
48. Osafune K, Takasato M, Kispert A, et al. Identification of multipotent progenitors in the embryonic mouse kidney by a novel colony-forming assay. Development 2006;133: 151-161
49. Unbekandt M, Davies JA. Dissociation of embryonic kidneys followed by reaggregation allows the formation of renal tissues. Kidney Int 2010;77: 407-416
50. Mae S, Shono A, Shiota F, et al. Monitoring and robust induction of nephrogenic intermediate mesoderm from human pluripotent stem cells. Nat Commun 2013 [Epub ahead of print].