[HTML][HTML] Human liver myofibroblasts during development and diseases with a focus on portal (myo) fibroblasts

S Lepreux, A Desmoulière - Frontiers in physiology, 2015 - frontiersin.org
S Lepreux, A Desmoulière
Frontiers in physiology, 2015frontiersin.org
Myofibroblasts are stromal cells mainly involved in tissue repair. These cells present
contractile properties and play a major role in extracellular matrix deposition and
remodeling. In liver, myofibroblasts are found in two critical situations. First, during fetal liver
development, especially in portal tracts, myofibroblasts surround vessels and bile ducts
during their maturation. After complete development of the liver, myofibroblasts disappear
and are replaced in portal tracts by portal fibroblasts. Second, during liver injury …
Myofibroblasts are stromal cells mainly involved in tissue repair. These cells present contractile properties and play a major role in extracellular matrix deposition and remodeling. In liver, myofibroblasts are found in two critical situations. First, during fetal liver development, especially in portal tracts, myofibroblasts surround vessels and bile ducts during their maturation. After complete development of the liver, myofibroblasts disappear and are replaced in portal tracts by portal fibroblasts. Second, during liver injury, myofibroblasts re-appear principally deriving from the activation of local stromal cells such as portal fibroblasts and hepatic stellate cells or can sometimes emerge by an epithelial-mesenchymal transition process. After acute injury, myofibroblasts play also a major role during liver regeneration. While myofibroblastic precursor cells are well known, the spectrum of activation and the fate of myofibroblasts during disease evolution are not fully understood. Some data are in accordance with a possible deactivation, at least partial, or a disappearance by apoptosis. Despite these shadows, liver is definitively a pertinent model showing that myofibroblasts are pivotal cells for extracellular matrix control during morphogenesis, repair and fibrous scarring.
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