Matrix metalloproteinase 3 (MMP3) is well known as a secretory endopeptidase that degrades extracellular matrices. Recent reports indicated the presence of MMPs in the nucleus (A. J. Kwon et al., FASEB J. 18:690-692, 2004); however, its function has not been well investigated. Here, we report a novel function of human nuclear MMP3 as a trans regulator of connective tissue growth factor (CCN2/CTGF). Initially, we cloned MMP3 cDNA as a DNA-binding factor for the CCN2/CTGF gene. An interaction between MMP3 and transcription enhancer dominant in chondrocytes (TRENDIC) in the CCN2/CTGF promoter was confirmed by a gel shift assay and chromatin immunoprecipitation. The CCN2/CTGF promoter was activated by overexpressed MMP3, whereas a TRENDIC mutant promoter lost the response. Also, the knocking down of MMP3 suppressed CCN2/CTGF expression. By cytochemical and histochemical analyses, MMP3 was detected in the nuclei of chondrocytic cells in culture and also in the nuclei of normal and osteoarthritic chondrocytes in vivo. The nuclear translocation of externally added recombinant MMP3 and six putative nuclear localization signals in MMP3 also were shown. Furthermore, we determined that heterochromatin protein gamma coordinately regulates CCN2/CTGF by interacting with MMP3. The involvement of this novel role of MMP3 in the development, tissue remodeling, and pathology of arthritic diseases through CCN2/CTGF regulation thus is suggested.
We identified chemical components that exhibited antitumor activity against oral squamous cell carcinoma (OSCC) cells and examined their effective concentrations and additive and/or synergistic effects in combinational usage on the proliferation, apoptosis and cell cycle of OSCC cells.Using high-performance liquid chromatography, nuclear magnetic resonance spectroscopy and electrospray ionization-mass spectrometry, we identified the main chemical components of the methanol extracts from Paeonia lutea. We investigated the pharmaceutical effects of those components on the proliferation, apoptosis, and cell cycle of an OSCC cell line, SAS, using the tetrazolium salt 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT) and caspase assays, as well as flow cytometry cell cycle analysis. We also examined the effects of those components on the mitogen-activated protein kinase signal transduction pathway by western blotting. Finally, the effects on normal human epidermal keratinocyte cells were also examined in similar experiments.Three chemicals have been identified in P. lutea leaves using high performance liquid chromatography: gallic acid methyl ester (GAME), pentagalloyl glucose (PGG) and paeoniflorin (PF). Both GAME and PGG significantly suppressed cell proliferation, and their combined effects were synergistic, while the effect of PF was minimal. However, those chemicals did not induce apoptosis. Cell cycle and western blotting analysis showed that the suppressive effects on cell proliferation resulted from G2 arrest and the suppression of phosphorylation of Akt/PKB. No effect was identified on normal human epidermal keratinocyte cells.These results indicate that GAME and PGG are the main chemical components of P. lutea leaves that have potential anti-cancer therapeutic effects.
Abstract CTGF/Hcs24 is a multifunctional growth factor that potentiates the growth and differentiation of various cells. Our previous study revealed that the 3'-UTR of mammalian CTGF/Hcs24 mRNA contains a small segment that represses the gene expression in cis fashion. In this study, we isolated and characterized a chicken CTGF/Hcs24 cDNA clone. Chicken ctgf/hcs24 mRNA showed highly conserved homology in the ORF to that of mammalian species, whereas the homology in the 3'-UTR was relatively low. Northern blotting analysis revealed that chicken ctgf/hcs24 mRNA was expressed most strongly in cartilage, and also in brain, lung, heart, but faintly in liver. Thereafter we analyzed the functional potential of the 3'-UTR of ctgf/hcs24 cDNA to regulate its gene expression by reporter gene assay, and found that it repressed gene expression in cis fashion, specifically in avian cells, but not in mammalian cells. Conversely, the mammalian 3'-UTR showed less repressive activity in avian cells than in mammalian cells. Deletion analysis showed that a segment near the polyadenyl tail of the 3'-UTR of chicken ctgf/hcs24 played an important functional role, unlike in the mammalian species. Thus, we uncovered a novel mode of functional conservation of the ctgf/hcs24 3 UTR among vertebrate species mediated by different factors.
Abstract Background. Tumor protein D52 (TPD52) reportedly plays an important role in the proliferation and metastasis of various cancer cells, including oral squamous cell carcinoma (OSCC) cells, and is expressed strongly at the center of the tumor, where the microenvironment is hypoxic. Thus, the present study investigated the roles of TPD52 in the survival and death of OSCC cells under hypoxia, and the relationship with hypoxia-inducible factor (HIF). We examined the expression of TPD52 in OSCC cells under hypoxic conditions and analyzed the effects of HIF on the modulation of TPD52 expression. Finally, the combinational effects of TPD52 knockdown and HIF inhibition were investigated both in vitro and in vivo . Results. The mRNA and protein levels of TPD52 increased in OSCC cells under hypoxia. However, the increase was independent of HIF transcription. Importantly, the observation was due to upregulation of mRNA stability by binding of mRNA to T-cell intercellular antigen (TIA) 1 and TIA-related protein (TIAR). Simultaneous knockdown of TPD52 and inhibition of HIF significantly reduced cell viability. In addition, the in vivo tumor-xenograft experiments showed that TPD52 acts as an autophagy inhibitor caused by a decrease in p62. Conclusions. This study showed that the expression of TPD52 increases in OSCC cells under hypoxia in a HIF-independent manner and plays an important role in the proliferation and survival of the cells in concordance with HIF, suggesting that novel cancer therapeutics might be led by TPD52 suppression.
The tumor protein D52 (TPD52) protein family includes TPD52, -53, -54 and -55. Several reports have shown important roles for TPD52 and TPD53, and have also suggested the potential involvement of TPD54, in D52-family physiological effects. Therefore, we performed detailed expression analysis of TPD52 family proteins in oral squamous cell carcinoma (OSCC). Towards this end, TPD54-overexpressing or knocked-down cells were constructed using OSCC-derived SAS, HSC2 and HSC3 cells. tpd52 or tpd53 was expressed or co-expressed in these cells by transfection. The cells were then analyzed using cell viability (MTT), colony formation, migration, and invasion assays. In OSCC-xenograft experiments, the cells were transplanted into nude mice together with injection of anti-tpd siRNAs. MTT assay of cell monolayers showed little differences in growth of the transfected cells. tpd54 overexpression in SAS cells significantly decreased colony formation in an anchorage-independent manner. Additionally, knock-down of tpd54 enhanced the number of colonies formed and overexpression of tpd52 in tpd54 knock-down cells increased the size of the colonies formed. The chemotaxis assay showed that tpd54 overexpression decreased cell migration. In the OSCC-xenograft in vivo study, tpd54 overexpression slightly attenuated tumor volume in vivo, despite the fact that tumor metastasis or cell survival was not involved. Our results showed that TPD54 not only downregulated anchorage-independent growth and cell migration in vitro, but also attenuated tumor growth in vivo. Based on these results, it is considered that TPD54 might act as a negative regulator of tumor progression in OSCC cells.
A definitive diagnosis of salivary gland tumors is extremely difficult to make without evaluating the entire tumor and conducting immunohistochemical examinations. In this study, we aimed to examine and compare the expression patterns of the tumor protein (TP) D52 family, including TPD52, TPD53, and TPD54, in salivary gland tumor cells by using immunohistochemical staining. Among over 30 benign and malignant salivary gland tumors with extensive and diverse morphological features and overlapping histological similarities, we selected Warthin’s tumor and pleomorphic adenoma to represent benign salivary gland tumors and mucoepidermoid carcinoma to represent malignant ones. Tumor samples were fixed in 10% buffered formalin and embedded in paraffin. Then, immunohistochemical staining was performed using antibodies against TPD52, TPD53, and TPD54. Neither the benign salivary gland tumors nor mucoepidermoid carcinoma stained for TPD52. However, the intensity of TPD53 and TPD54 staining was found to be low in the benign salivary gland tumors and high in mucoepidermoid carcinoma. TPD54 may serve as a pathological indicator of benign salivary gland tumors and mucoepidermoid carcinoma.
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