Abstract
Cytoglobin (CYGB) belongs to the mammalian globin family and is exclusively expressed in hepatic stellate cells (HSCs) in the liver. In addition to its gas-binding ability, CYGB is relevant to hepatic inflammation, fibrosis, and cancer because of its anti-oxidative properties; however, the regulation of CYGB gene expression remains unknown. Here, we sought to identify factors that induce CYGB expression in HSCs and to clarify the molecular mechanism involved. We used the human HSC cell line HHSteC and primary human HSCs isolated from intact human liver tissues. In HHSteC cells, treatment with a culture supplement solution that included fibroblast growth factor 2 (FGF2) increased CYGB expression with concomitant and time-dependent α-smooth muscle actin (αSMA) down-regulation. We found that FGF2 is a key factor in inducing the alteration in both CYGB and αSMA expression in HHSteCs and primary HSCs and that FGF2 triggered the rapid phosphorylation of both c-Jun N-terminal kinase (JNK) and c-JUN. Both the JNK inhibitor PS600125 and transfection of c-JUN–targeting siRNA abrogated FGF2-mediated CYGB induction, and conversely, c-JUN overexpression induced CYGB and reduced αSMA expression. Chromatin immunoprecipitation analyses revealed that upon FGF2 stimulation, phospho-c-JUN bound to its consensus motif (5′-TGA(C/G)TCA), located −218 to −222 bases from the transcription initiation site in the CYGB promoter. Of note, in bile duct–ligated mice, FGF2 administration ameliorated liver fibrosis and significantly reduced HSC activation. In conclusion, FGF2 triggers CYGB gene expression and deactivation of myofibroblastic human HSCs, indicating that FGF2 has therapeutic potential for managing liver fibrosis.
Highlights
Cytoglobin (CYGB) belongs to the mammalian globin family and is exclusively expressed in hepatic stellate cells (HSCs) in the liver
We show that fibroblast growth factor 2 (FGF2) administration ameliorates liver fibrosis induced by bile duct ligation (BDL) in mice
We have demonstrated that FGF2 is a key modulator of an activated phenotype of human HSCs by up-regulating CYGB expression via the Jun N-terminal kinase (JNK)/c-JUN pathway
Summary
In our first set of experiments, CYGB expression was compared between LX-2 cells, which have been widely used and are extensively characterized as a human HSC line [25], and the human HSC line HHSteCs. MRNA expression of CYGB and ␣SMA was increased and reduced by FGF2, respectively, compared with nontreated hHSCs. We examined the effect of supplement solution and FGF2 on the expression of PPAR␥, which is a master regulator of adipogenesis and is reported to be suppressed in cultured–activated human and rat HSCs [28, 29]. The quantitative Sirius red-positive areas were significantly decreased in Fgf2-treated mouse livers compared with control treatment (Fig. 6D) Both Cygb- and ␣Sma-positive cells were propagated around portal vein areas in medium-injected BDL murine livers. The expression levels of ␣Sma and ColIa1 mRNA were significantly reduced in FGF2-treated mouse livers compared with those in the medium-treated mouse livers (Fig. 6G) These observations suggest that the administration of Fgf attenuated BDL-induced liver fibrosis, in part, by reducing the number of activated HSCs
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