All-trans Retinoic Acid Diminishes Collagen Production in a Hepatic Stellate Cell Line via Suppression of Active Protein-1 and c-Jun N-terminal Kinase Signal

Following acute and chronic liver injury,hepatic stellate cells (HSCs) become activated to undergo a phenotypic transformation into myofibroblast-like cells and lose their retinol content,but the mechanisms of retinoid loss and its potential roles in HSCs activation and liver fibrosis are not understood.The influence of retinoids on HSCs and hepatic fibrosis remains controversial.The purpose of this study was to evaluate the effects of all-trans retinoid acid (ATRA) on cell proliferation,mRNA expression of collagen genes [procollagen α1 (Ⅰ),procollagen α1 (Ⅲ)],profibrogenic genes (TGF-β 1,CTGF,MMP-2,TIMP-1,TIMP-2,PAI-1),fibrolytic genes (MMP-3,MMP-13) and the upstream element (JNK and AP-1) in the rat hepatic stellate cell line (CFSC-2G).Cell proliferation was evaluated by measuring BrdU incorporation.The mRNA expression levels of collagen genes [procollagen α1 (Ⅰ),procollagen α1 (Ⅲ)],profibrogenic genes (TGF-β 1,CTGF,MMP-2,TIMP-1,TIMP-2,PAI-1),and fibrolytic genes (MMP-3,MMP-13) were quantitatively detected by using real-time PCR.The mRNA expression of JNK and AP-1 was quantified by RT-PCR.The results showed that ATRA inhibited HSCs proliferation and diminished the mRNA expression of collagen genes [procollagen α1 (Ⅰ),procollagen α1 (Ⅲ)] and profibrogenic genes (TGF-β 1,CTGF,MMP-2,TIMP-1,TIMP-2,PAI-1),and significantly stimulated the mRNA expression of MMP-3 and MMP-13 in HSCs by suppressing the mRNA expression of JNK and AP-1.These findings suggested that ATRA could inhibit proliferation and collagen production of HSCs via the suppression of active protein-1 and c-Jun N-terminal kinase signal,then decrease the mRNAs expression of profibrogenic genes (TGF-β 1,CTGF,MMP-2,TIMP-1,TIMP-2,PAI-1),and significantly induce the mRNA expression of MMP-3 and MMP-13.

Role of Activator Protein-1 in the Transcription of Interleukin-5 Gene Regulated by Protein Kinase C Signal in Asthmatic Human TLymphocytes

Summary: In order to explore the role of activator protein-1 (AP-1) in the transcription of interleukin-5 (IL-5) gene regulated by protein kinase C (PKC) signal in peripheral blood T lymphocytes from asthmatic patient, T lymphocytes were isolated and purified from peripheral blood of each asthmatic patient. The T lymphocytes were randomly divided into 4 groups: group A (blank control), group B (treated with PKC agonist phorbol 12-myristate 13-acetate (PMA)), Group C (treated with PMA and AP-1 cis-element decoy oligodeoxynucleotides (decoy ODNs)), and group D (treated with PMA and AP-1 mutant decoy ODNs). The ODNs were transfected into the T cells of group C and D by cation liposome respectively. Reverse transcription-polymerase chain reaction (RT-PCR) was employed to assess IL-5 mRNA expression, and electrophoretic mobility shift assays (EMSA) for the activation of AP-1. The results showed that the activation of AP-1 (88 003.58±1 626.57) and the expression of IL-5 mRNA (0.8300±0.0294) in T lymphocytes stimulated with PMA were significantly higher than these in blank control (20 888.47±1103.56 and 0.3050±0.0208, respectively, P< 0.01), while the indexes (23 219.83±1 024.86 and 0.3425±0.0171 respectively) of T lymphocytes stimulated with PMA and AP-1 decoy ODNs were significantly inhibited, as compared with group B (P< 0.01). The indexes (87 107.41±1 342.92 and 0.8225±0.0222, respectively) in T lymphocytes stimulated with PMA and AP-1 mutant decoy ODNs did not exhibit significant changes, as compared with group B (P>0.05). The significant positive correlation was found between the activation of AP-1 and the expression of IL-5 mRNA (P< 0.01). It was concluded that AP-1 might participate in the signal transduction of PKC-triggered transcription of IL-5 gene in asthmatic T lymphocytes. This suggests the activation of PKC/AP-1 signal transduction cascade of T lymphocytes may play an important role in the pathogenesis of asthma.

CSN1 inhibits c-Jun phosphorylation and down-regulates ectopic expression of JNK1

CSN1 is a component of the COP9 signalosome(CSN),a conserved protein complex with pleiotropic functions in many organs and cell types.CSN regulates ubiquitinproteasome dependent protein degradation via the deneddylation and the associated deubiquitination activities.In addition,CSN associates with protein kinases and modulates cell signaling,particularly the activator protein 1(AP-1)pathway.We have shown previously that CSN1 suppresses AP-1 transcription activity and inhibits ultraviolet(UV)and serum activation of c-fos expression.Here we show that CSN1 can inhibit phosphorylation of proto-oncogene c-Jun product and repress c-Jun dependent transcription.Further,CSN1 dramatically downregulates ectopic expression of c-Jun N-terminal kinase 1(JNK1)in cultured cells.The decline in JNK1 is not caused by excessive proteolysis or by 3′UTR-dependent mRNA instability,but by CSN1-dependent repression of one or multiple steps in transcriptional and posttranscriptional mechanisms.Thus,in contrast to CSN5/Jab1,which promotes AP-1 activity,CSN1 displays a negative effect on the AP-1 pathway.Finally,we discuss about the dynamic equilibrium of the CSN complexes in regulation of the AP-1 pathway.

c-Jun, at the crossroad of the signaling network

c-Jun,the most extensively studied protein of the activator protein-1(AP-1)complex,is involved in numerous cell activities,such as proliferation,apoptosis,survival,tumorigenesis and tissue morphogenesis.Earlier studies focused on the structure and function have led to the identification of c-Jun as a basic leucine zipper(bZIP)transcription factor that acts as homo-or heterodimer,binding to DNA and regulating gene transcription.Later on,it was shown that extracellular signals can induce post-translational modifications of c-Jun,resulting in altered transcriptional activity and target gene expression.More recent work has uncovered multiple layers of a complex regulatory scheme in which c-Jun is able to crosstalk,amplify and integrate different signals for tissue development and disease.One example of such scheme is the autocrine amplification loop,in which signal-induced AP-1 activates the c-Jun gene promoter,while increased c-Jun expression feedbacks to potentiate AP-1 activity.Another example of such scheme,based on recent characterization of gene knockout mice,is that c-Jun integrates signals of several developmental pathways,including EGFR-ERK,EGFR-RhoA-ROCK,and activin B-MAP3K1-JNK for embryonic eyelid closure.After more than two decades of extensive research,c-Jun remains at the center stage of a molecular network with mysterious functional properties,some of which are yet to be discovered.In this article,we will provide a brief historical overview of studies on c-Jun regulation and function,and use eyelid development as an example to illustrate the complexity of c-Jun crosstalking with signaling pathways.

Abnormal expression of TFIIIB subunits and RNA PolⅢgenes is associated with hepatocellular carcinoma

The levels of the products of RNA polymeraseⅢ-dependent genes(PolⅢgenes),including tRNAs and 5S rRNA,are elevated in transformed and tumor cells,which potentiate tumorigenesis.TFIIB-related factor 1(Brf1)is a key transcription factor and specifically regulates the transcription of PolⅢgenes.In vivo and in vitro studies have demonstrated that a decrease in Brf1 reduces PolⅢgene transcription and is sufficient for inhibiting cell transformation and tumor formation.Emerging evidence indicates that dysregulation of Brf1 and PolⅢgenes is linked to the development of hepatocellular carcinoma(HCC)in humans and animals.We have reported that Brf1 is overexpressed in human liver cancer patients and that those with high Brf1 levels have shorter survivals.This review summarizes the effects of dysregulation of these genes on HCC and their regulation by signaling pathways and epigenetics.These novel data should help us determine the molecular mechanisms of HCC from a different perspective and guide the development of therapeutic approaches for HCC patients.

Lipopolysaccharide-induced dysregulation of connexin 43 via nuclear factor κB /JNK-dependent signaling

Connexin 43 （Cx43） is the major structural protein of gap junctions in the ventricular myocardium and a major determinant of myocardial electrical properties. Cx43 expression is decreased in the wild type mice after myocardial infarction and this effect is attenuated in MMP-7-/- mice. Matrix metalloproteinase expression is regulated at the transcription level by the modulation of the activation of transcription factors such as activator protein （AP）-I and nuclear factor kappa-light-chain enhancer of activated B cells （NF-KB）. Methods Rat myocardial cells （H9c2） were cultured and maintained at 37 ~C and 5% CO2. H9c2 cells in 6-well plates were treated with lipopolysaccharides （LPS）, NF-kB inhibitor （JSH 23, 30 μ, Santa Cruz） ＋ LPS and c-Jun N-terminal kinase （JNK） inhibitor （SP600125, 10μM, Sigma） ＋ LPS for 6, 12 and 24 h. Apoptosis rate of cells was determined by flow cytometry. Cx43 expression was assessed by Western blotting. Results LPS induced a time-dependent apoptosis in all cell line. We have found that the treatment with LPS induced increase of apoptosis in H9c2 cells at 6 h, 12 h and 24 h, but the effect was decreased by the addition of JSH-23 and SP600125 to LPS respectively （P 〈 0.05） . LPS resulted in decreased expression of Cx43 expression at 6 h, 12 h and 24 h. However, JSH-23 and SP600125 attenuated the loss of Cx43 respectively （P 〈 0.05）. Conclusion Transcription factors NF-kB and JNK/AP-1 signaling pathway participates in the regulation of LPS-induced Cx43 expression in the H9c2 cells, and maybe play an important role in regulation of Cx43 expression.