Background: Hepatic stellate cells (HSCs) are a major fibrogenic cell type that contributes to collagen accumulation during chronic liver disease. With increasing interest in developing antifibrotic therapies, there is a need for cell lines that preserve the in vivo phenotype of human HSCs to elucidate pathways of human hepatic fibrosis. We established and characterised two human HSC cell lines termed LX-1 and LX-2, and compared their features with those of primary human stellate cells. Methods and results: LX-1 and LX-2 were generated by either SV40 T antigen immortalisation (LX-1) or spontaneous immortalisation in low serum conditions (LX-2). Both lines express a smooth muscle actin, vimentin, and glial fibrillary acid protein, as visualised by immunocytochemistry. Similar to primary HSCs, both lines express key receptors regulating hepatic fibrosis, including platelet derived growth factor receptor b (bPDGF-R), obese receptor long form (Ob-R L ), and discoidin domain receptor 2 (DDR2), and also proteins involved in matrix remodelling; matrix metalloproteinase (MMP)-2, tissue inhibitor of matrix metalloproteinase (TIMP)-2, and MT1-MMP, as determined by western analyses. LX-2 have reduced expression of TIMP-1. LX-2, but not LX-1, proliferate in response to PDGF. Both lines express mRNAs for a1(I) procollagen and HSP47. Transforming growth factor b1 stimulation increased their a1(I) procollagen mRNA expression, as determined by quantitative reverse transcription-polymerase chain reaction. LX-2, but not LX-1, cells are highly transfectable. Both lines had a retinoid phenotype typical of stellate cells. Microarray analyses showed strong similarity in gene expression between primary HSCs and either LX-1 (98.4%) or LX-2 (98.7%), with expression of multiple neuronal genes. Conclusions: LX-1 and LX-2 human HSC lines provide valuable new tools in the study of liver disease. Both lines retain key features of HSCs. Two unique advantages of LX-2 are their viability in serum free media and high transfectability.
Kruppel-like factor 6 (KLF6) is a zinc finger transcription factor of unknown function. Here, we show that the KLF6 gene is mutated in a subset of human prostate cancer. Loss-of-heterozygosity analysis revealed that one KLF6 allele is deleted in 77% (17 of 22) of primary prostate tumors. Sequence analysis of the retained KLF6 allele revealed mutations in 71% of these tumors. Functional studies confirm that whereas wild-type KLF6 up-regulates p21 (WAF1/CIP1) in a p53-independent manner and significantly reduces cell proliferation, tumor-derived KLF6 mutants do not. Our data suggest that KLF6 is a tumor suppressor gene involved in human prostate cancer.
Discoidin domain receptor 2 (DDR2) is a tyrosine kinase receptor expressed in mesenchymal tissues, the ligand of which is fibrillar collagen. We have compared DDR2 signaling in skin fibroblasts derived from DDR2 ؊/؊ and DDR2 ؉/؊ mice. Proliferation of DDR2 ؊/؊ fibroblasts was significantly decreased compared with DDR2 ؉/؊ cells. DDR2 ؊/؊ fibroblasts exhibited markedly impaired capacity to migrate through a reconstituted basement membrane (Matrigel) in response to a chemotactic stimulus, which correlated with diminished matrix metalloproteinase-2 (MMP-2) activity by gelatin zymography and diminished MMP-2 transcription of a minimal MMP-2 promoter. In contrast, a lack of DDR2 had no effect on cell motility or ␣-smooth muscle actin or vinculin expression. Additionally, expression of type I collagen was greatly reduced in DDR2 ؊/؊ cells. Stable reconstitution of either wild-type DDR2 or constitutively active chimeric DDR2 in DDR2 ؊/؊ cells by retroviral infection restored cell proliferation, migration through a reconstituted basement membrane (Matrigel), and MMP-2 levels to those of DDR2 ؉/؊ fibroblasts. These data establish a role for DDR2 in critical events during wound repair.
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