Zusammenfassung der Projektergebnisse

Human hepatocytes derived from somatic cells of individuals would be useful in developing cell-based disease models, drug development and regenerative medicine. Although several types of somatic cells have been reprogrammed to induced pluripotent cells (iPSCs) and then differentiated to hepatocyte-like cells (iHep), the method for generating such cells from renal epithelial cells shed in human urine has not been described systematically. Fresh human urine (250-500ml) was collected and the washed cell pellets were expanded in culture in a defined growth medium. The epithelial cells were reprogrammed into iPSCs by using non-transgene integrating methods, such as delivering the pluripotency factor genes OCT3/4, SOX2, KLF4 and L-MYC by nucleofection of episomal (EBNA) plasmids or infection with recombinant Sendai viruses. After characterization of stable iPS cell lines, a 3-step differentiation toward hepatocytes was performed. At each step, the expression pattern of 141 genes was assessed by qRT PCR. Flow cytometry, immunocytochemistry and hepatocytespecific functional assays were performed. After 2 weeks of cultivation of urinary cells, 4-6 stable cell populations emerged. Both reprogramming strategies yielded iPSCs with characteristic features and normal karyotype. The first step of differentiation generated definitive endoderm cells, with 90% of the cells expressing the definitive endoderm marker Sox17, as shown by qRT PCR and immunocytochemistry. At the final stage, flow cytometry revealed that 86% and 29% of the cells were positive for human serum albumin and human asialoglycoprotein receptor, respectively. The iHeps expressed mRNAs for nuclear receptors that regulate genes involved in cholesterol homeostasis, bile acid transport and detoxification, including farnesoid X receptor (FXR), and constitutive androstane receptor (CAR/NR1l3), as well as the bile salt export pump (BSEP/ABCB11). The iHeps exhibited glycogen storage, and secreted urea and albumin into the media. Urine cell-derived iPSCs can be reprogrammed and then efficiently differentiated to iHeps. Our methods allowed the expression of liver specific functions. Thus, urine is a readily available source for generating human hepatocytelike cells that could be potentially useful for disease modeling, pharmacological development and regenerative medicine.

Projektbezogene Publikationen (Auswahl)

• Hereditary Jaundice and Disorders of Bilirubin Metabolism. In The Online Metabolic and Molecular Bases of Inherited Disease. Scriver CS, Beaudet AL, Sly WS, Valle D, editors. McGraw Hill. Chapter 125, (2014)
  J. Roy-Chowdhury, V. Sauer, N. Roy-Chowdhury
  
• Induced pluripotent stem cells as a source of hepatocytes, Current Pathobiology Reports, (2014) 2: 11-20
  V. Sauer, N. Roy-Chowdhury, C. Guha, J. Roy-Chowdhury
  (Siehe online unter https://doi.org/10.1007/s40139-013-0039-2)
• Monogenic Liver Disease. In Pathobiology of Human Disease: A Dynamic Encyclopedia of Disease Mechanisms (2014). McManus LM, Mitchell RN editors in chief. Monga SS, Section editor, Hepatobiliary Pathobiology. Linda M. McManus and Richard N. Mitchell. Elsevier (Online).
  V. Sauer, N. Roy-Chowdhury, J. Roy-Chowdhury