BACKGROUND/AIMS: Transactivated hepatic stellate cells (HSCs) represent the key source of extra cellular matrix (ECM) in fibrotic liver. Imatinib, a potent inhibitor of the PDGF receptor tyrosine kinase, reduces HSC proliferation and fibrogenesis when treatment is initiated before fibrosis has developed. We tested the antifibrotic potential of imatinib in ongoing liver injury and in established fibrosis. METHODS: BDL-rats were gavage fed with 20 mg/kg/d imatinib either early (days 0-21) or late (days 22-35) after BDL. Untreated BDL-rats served as controls. ECM and activated HSCs were quantified by morphometry. Tissue activity of MMP-2 was determined by gelatin zymography. mRNA expression of TIMP-1 and procollagen alpha1(I) were measured by RT-PCR. Liver tissue concentration of imatinib was measured by tandem mass spectrometry. RESULTS: Early imatinib reduced ECM formation by 30% (P=0.0455) but left numbers of activated HSCs and procollagen I expression unchanged. MMP-2 activity and TIMP-1 expression were reduced by 50%. Late imatinib treatment did not alter histological or molecular markers of fibrogenesis despite high imatinib tissue levels. CONCLUSIONS: The antifibrotic effectiveness of imatinib is limited to the early phase of fibrogenesis. In ongoing liver injury other mediators most likely compensate for the inhibited PDGF effect.
BACKGROUND/AIMS: Transactivated hepatic stellate cells (HSCs) represent the key source of extra cellular matrix (ECM) in fibrotic liver. Imatinib, a potent inhibitor of the PDGF receptor tyrosine kinase, reduces HSC proliferation and fibrogenesis when treatment is initiated before fibrosis has developed. We tested the antifibrotic potential of imatinib in ongoing liver injury and in established fibrosis. METHODS: BDL-rats were gavage fed with 20 mg/kg/d imatinib either early (days 0-21) or late (days 22-35) after BDL. Untreated BDL-rats served as controls. ECM and activated HSCs were quantified by morphometry. Tissue activity of MMP-2 was determined by gelatin zymography. mRNA expression of TIMP-1 and procollagen alpha1(I) were measured by RT-PCR. Liver tissue concentration of imatinib was measured by tandem mass spectrometry. RESULTS: Early imatinib reduced ECM formation by 30% (P=0.0455) but left numbers of activated HSCs and procollagen I expression unchanged. MMP-2 activity and TIMP-1 expression were reduced by 50%. Late imatinib treatment did not alter histological or molecular markers of fibrogenesis despite high imatinib tissue levels. CONCLUSIONS: The antifibrotic effectiveness of imatinib is limited to the early phase of fibrogenesis. In ongoing liver injury other mediators most likely compensate for the inhibited PDGF effect.
Authors: Youngchul Kim; Maria I Fiel; Efsevia Albanis; Hsin I Chou; Weijia Zhang; Gregory Khitrov; Scott L Friedman Journal: Liver Int Date: 2012-04-16 Impact factor: 5.828
Authors: Yuqing Liu; Xiao Ming Wen; Eric Lik Hang Lui; Scott L Friedman; Wei Cui; Nancy Pei Shan Ho; Lei Li; Tao Ye; Sheung Tat Fan; Hui Zhang Journal: Lab Invest Date: 2009-08-10 Impact factor: 5.662
Authors: David Semela; Amitava Das; Daniel Langer; Ningling Kang; Edward Leof; Vijay Shah Journal: Gastroenterology Date: 2008-04-16 Impact factor: 22.682
Authors: Zhen-Wei Peng; Naoki Ikenaga; Susan B Liu; Deanna Y Sverdlov; Kahini A Vaid; Richa Dixit; Paul H Weinreb; Shelia Violette; Dean Sheppard; Detlef Schuppan; Yury Popov Journal: Hepatology Date: 2015-11-23 Impact factor: 17.425