Animal models for the study of liver fibrosis: new insights from knockout mouse models

Animal models for the study of liver fibrosis: new insights from knockout mouse models

Fibrosis arises as part of a would-healing response that maintains organ structure and integrity following tissue damage but also contributes to a variety of human pathologies such as liver fibrosis. Liver fibrosis is an abnormal response of the liver to persistent injury with the excessive accumula...

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Veröffentlicht in:American journal of physiology: Gastrointestinal and liver physiology 2011-05, Vol.300 (5), p.G729-G738
Hauptverfasser: Hayashi, Hiromitsu, Sakai, Takao
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Bile Ducts - physiology
Biliary Tract - pathology
Disease Models, Animal
Extracellular Matrix - physiology
Fatty Liver - genetics
Fatty Liver - pathology
Genetic engineering
Liver - pathology
Liver Cirrhosis - genetics
Liver Cirrhosis - pathology
Liver diseases
Medical treatment
Mice
Mice, Knockout
Mice, Transgenic
Pathogenesis
Reviews
Rodents
Tissues
Transplants & implants
Wound healing
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Beschreibung
Zusammenfassung:Fibrosis arises as part of a would-healing response that maintains organ structure and integrity following tissue damage but also contributes to a variety of human pathologies such as liver fibrosis. Liver fibrosis is an abnormal response of the liver to persistent injury with the excessive accumulation of collagenous extracellular matrices. Currently there is no effective treatment, and many patients end up with a progressive form of the disease, eventually requiring a liver transplant. The clarification of mechanisms underlying pathogenesis of liver fibrosis and the development of effective therapy are of clinical importance. Experimental animal models, in particular targeted gene knockouts (loss of function) in mice, have become a powerful resource to address the molecular mechanisms or significance of the targeted gene in hepatic functions and diseases. This review will focus on the recent advances in knowledge obtained from genetically engineered mice that provide novel insights into the pathophysiology of liver fibrosis.
ISSN:0193-1857
1522-1547
DOI:10.1152/ajpgi.00013.2011