| pubmed-article:8210206 | pubmed:abstractText | The liver epoch like other tissue epochs occurs after that different events have induced heterogeneity in embryonic cells which results in distinct evolutionary processes. These events and those of organogenesis like "induction" are deeply dependent on cell-cell communications. Cell-cell interactions involve either soluble factors (hormones, growth factors), extracellular matrix or plasma membrane proteins responsible for cell-cell recognition and/or adhesion. All these plasma membrane signals are transduced to the nucleus and modulate the expression of groups of genes. To be functionally stable along the adult stage the liver has to maintain an ordered activity of cell renewal. This balance between proliferation and differentiation is, at least in part, controlled by cell-cell communications. Therefore, it is not surprising that intercellular communications are altered during hepatocarcinogenesis. They involve changes in the distribution of junctions, in the amounts of extracellular matrix components and/or growth factors which all result in modifying the differentiation/proliferation balance. Cell culture models have been used for these different studies; new in vitro systems should be set up in the near future by taking advantage of the targeted hepatocarcinogenesis in transgenic mouse. | lld:pubmed |
