Identifying the Molecular Phenotype of Renal Progenitor Cells

doi:10.1097/01.ASN.0000136779.17837.8F


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J Am Soc Nephrol 15: 2344-2357, 2004
© 2004 American Society of Nephrology
doi: 10.1097/01.ASN.0000136779.17837.8F

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J Am Soc Nephrol 15:2344-2357, 2004
© 2004 American Society of Nephrology

BASIC SCIENCE

Identifying the Molecular Phenotype of Renal Progenitor Cells

Grant A. Challen, Gemma Martinez, Melissa J. Davis, Darrin F. Taylor, Mark Crowe, Rohan D. Teasdale, Sean M. Grimmond and Melissa H. Little

Institute for Molecular Bioscience, The University Of Queensland, Brisbane, Queensland, Australia

Correspondence to Dr. Melissa H. Little, Institute For Molecular Bioscience, Queensland Bioscience Precinct, 306 Carmody Road, The University of Queensland, St. Lucia, Brisbane, QLD, 4072. Phone: +61-7-3346-2054; Fax: +61-7-3346-2101; E-mail: M.Little{at}imb.uq.edu.au

ABSTRACT. Although many of the molecular interactions in kidneydevelopment are now well understood, the molecules involvedin the specification of the metanephric mesenchyme from surroundingintermediate mesoderm and, hence, the formation of the renalprogenitor population are poorly characterized. In this study,cDNA microarrays were used to identify genes enriched in themurine embryonic day 10.5 (E10.5) uninduced metanephric mesenchyme,the renal progenitor population, in comparison with more rostralderivatives of the intermediate mesoderm. Microarray data wereanalyzed using R statistical software to determine accuratelygenes differentially expressed between these populations. Microarrayoutliers were biologically verified, and the spatial expressionpattern of these genes at E10.5 and subsequent stages of earlykidney development was determined by RNA in situ hybridization.This approach identified 21 genes preferentially expressed bythe E10.5 metanephric mesenchyme, including Ewing sarcoma homolog,14-3-3 ${theta}$ , retinoic acid receptor- ${alpha}$ , stearoyl-CoA desaturase 2,CD24, and cadherin-11, that may be important in formation ofrenal progenitor cells. Cell surface proteins such as CD24 andcadherin-11 that were strongly and specifically expressed inthe uninduced metanephric mesenchyme and mark the renal progenitorpopulation may prove useful in the purification of renal progenitorcells by FACS. These findings may assist in the isolation andcharacterization of potential renal stem cells for use in cellulartherapies for kidney disease.

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HOME CURRENT ISSUE ARCHIVES JASN Express ONLINE SUBMISSION AUTHOR INFO
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				E. Lazzeri, C. Crescioli, E. Ronconi, B. Mazzinghi, C. Sagrinati, G. S. Netti, M. L. Angelotti, E. Parente, L. Ballerini, L. Cosmi, et al. Regenerative Potential of Embryonic Renal Multipotent Progenitors in Acute Renal Failure J. Am. Soc. Nephrol., December 1, 2007; 18(12): 3128 - 3138. [Abstract] [Full Text] [PDF]

				S. A. Ochsner, H. Strick-Marchand, Q. Qiu, S. Venable, A. Dean, M. Wilde, M. C. Weiss, and G. J. Darlington Transcriptional Profiling of Bipotential Embryonic Liver Cells to Identify Liver Progenitor Cell Surface Markers Stem Cells, October 1, 2007; 25(10): 2476 - 2487. [Abstract] [Full Text] [PDF]

				J. Markovic-Lipkovski, C. A. Muller, G. Klein, T. Flad, T. Klatt, S. Blaschke, J. T. Wessels, and G. A. Muller Neural cell adhesion molecule expression on renal interstitial cells Nephrol. Dial. Transplant., June 1, 2007; 22(6): 1558 - 1566. [Abstract] [Full Text] [PDF]

				C. Vigneau, K. Polgar, G. Striker, J. Elliott, D. Hyink, O. Weber, H.-J. Fehling, G. Keller, C. Burrow, and P. Wilson Mouse Embryonic Stem Cell-Derived Embryoid Bodies Generate Progenitors That Integrate Long Term into Renal Proximal Tubules In Vivo J. Am. Soc. Nephrol., June 1, 2007; 18(6): 1709 - 1720. [Abstract] [Full Text] [PDF]

				K. M. Schmidt-Ott, K. Mori, J. Y. Li, A. Kalandadze, D. J. Cohen, P. Devarajan, and J. Barasch Dual Action of Neutrophil Gelatinase-Associated Lipocalin J. Am. Soc. Nephrol., February 1, 2007; 18(2): 407 - 413. [Abstract] [Full Text] [PDF]

				P. A. Dawson, B. Gardiner, S. Grimmond, and D. Markovich Transcriptional profile reveals altered hepatic lipid and cholesterol metabolism in hyposulfatemic NaS1 null mice Physiol Genomics, September 14, 2006; 26(2): 116 - 124. [Abstract] [Full Text] [PDF]

				M. H. Little Regrow or Repair: Potential Regenerative Therapies for the Kidney J. Am. Soc. Nephrol., September 1, 2006; 17(9): 2390 - 2401. [Abstract] [Full Text] [PDF]

				G. A. Challen, I. Bertoncello, J. A. Deane, S. D. Ricardo, and M. H. Little Kidney Side Population Reveals Multilineage Potential and Renal Functional Capacity but also Cellular Heterogeneity J. Am. Soc. Nephrol., July 1, 2006; 17(7): 1896 - 1912. [Abstract] [Full Text] [PDF]

				M. Liang and B. Ventura Physiological genomics in PG and beyond: July to September 2005 Physiol Genomics, October 17, 2005; 23(2): 119 - 124. [Full Text] [PDF]

				G. Challen, B. Gardiner, G. Caruana, X. Kostoulias, G. Martinez, M. Crowe, D. F. Taylor, J. Bertram, M. Little, and S. M. Grimmond Temporal and spatial transcriptional programs in murine kidney development Physiol Genomics, October 17, 2005; 23(2): 159 - 171. [Abstract] [Full Text] [PDF]

				J. C. Brodie and H. D. Humes Stem Cell Approaches for the Treatment of Renal Failure Pharmacol. Rev., September 1, 2005; 57(3): 299 - 313. [Abstract] [Full Text] [PDF]

				K. M. Schmidt-Ott, J. Yang, X. Chen, H. Wang, N. Paragas, K. Mori, J.-Y. Li, B. Lu, F. Costantini, M. Schiffer, et al. Novel Regulators of Kidney Development from the Tips of the Ureteric Bud J. Am. Soc. Nephrol., July 1, 2005; 16(7): 1993 - 2002. [Abstract] [Full Text] [PDF]

				S. J. M. Welham, P. R. Riley, A. Wade, M. Hubank, and A. S. Woolf Maternal diet programs embryonic kidney gene expression Physiol Genomics, June 16, 2005; 22(1): 48 - 56. [Abstract] [Full Text] [PDF]