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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

c-Met responsiveness of isolated hepatocytes evaluated in an in vitro de-differentiation model.

Hepatocyte growth factor (HGF) accelerates tissue regeneration and ameliorates tissue fibrosis through its ligand c-Met receptor tyrosine kinase. Hence, HGF is currently discussed as an attractive therapeutic candidate for fatal liver diseases. However, it remains unclear whether c-Met of de-differentiated hepatocytes adequately responds to HGF in an impaired liver. Therefore, we investigated c-Met expression and c-Met responsiveness to HGF in an experimental de-differentiation cell culture system. Primary rat hepatocytes were seeded on a two-dimensional collagen matrix or embedded within a three dimensional collagen gel to guarantee intact cell geometry. Cells were cultivated in a growth factor enriched extracellular milieu (de-differentiation medium), or in a chemically defined differentiation medium, representing physiologically intact hepatocytes. c-Met surface expression was determined by flow cytometry. Receptor localisation was examined by confocal microscopy, c-Met and phosphorylated c-Met protein were determined by western blotting. Hepatocyte-specific asialoglycoprotein receptor (ASGPr) was examined to control the differentiation status of the cells. Growth factor enriched milieu induced a rapid loss of ASGPr with a significant increase of c-Met surface level and a decrease in c-Met protein level. Surprisingly, the increased amount of c-Met surface expression was associated with its loss of responsiveness to HGF. The addition of bile acids into the culture medium had significantly delayed the process of de-differentiation and restrained the drastic elevation of c-Met (tauroursodeoxycholic acid > ursodeoxycholic acid). Application of the three-dimensional hepatocellular architecture stabilized the c-Met surface receptor level and rendered c-Met activation. We have demonstrated that growth factor enriched extracellular milieu and loss of intact liver architecture seems to be accompanied by an up-regulation of c-Met surface level. Our findings suggest that irresponsiveness of c-Met to soluble HGF was possibly caused by an excessive HGF production and receptor over-stimulation. Both events should be considered when establishing an HGF-based therapy for fibrosis/cirrhosis.[1]

References

  1. c-Met responsiveness of isolated hepatocytes evaluated in an in vitro de-differentiation model. Boost, K.A., Kim, H.J., Engl, T., Oppermann, E., Jonas, D., Oertl, A., Blaheta, R.A. Int. J. Mol. Med. (2006) [Pubmed]
 
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