Jeng-Ting Chen scite author profile

The inflammasome adaptor protein, ASC, contributes to both innate immune responses and inflammatory diseases via self-oligomerization, which leads to the activation of the protease, caspase-1. Here, we report that the cytosolic tyrosine kinases, FAK and Pyk2, are differentially involved in NLRP3 and AIM2 inflammasome activation. The inhibition of FAK and Pyk2 with RNA interference or chemical inhibitors dramatically abolished ASC oligomerization, caspase-1 activation, and IL-1β secretion in response to NLRP3 or AIM2 stimulation. Pyk2 is phosphorylated by the kinase Syk and relocalizes to the ASC specks upon NLRP3 inflammasome activation. Pyk2, but not FAK, could directly phosphorylate ASC at Tyr146, and only the phosphorylated ASC could participate in speck formation and trigger IL-1β secretion. Moreover, the clinical-trial-tested Pyk2/FAK dual inhibitor PF-562271 reduced monosodium urate-mediated peritonitis, a disease model used for studying the consequences of NLRP3 activation. Our results suggest that although Pyk2 and FAK are involved in inflammasome activation, only Pyk2 directly phosphorylates ASC and brings ASC into an oligomerization-competent state by allowing Tyr146 phosphorylation to participate ASC speck formation and subsequent NLRP3 inflammation.

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Cysteine protease cathepsin B mediates radiation-induced bystander effects

Peng

Zhang

Zheng

et al. 2017

Nature

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Radiation-induced bystander effects (RIBE) refer to a unique process, in which factors released by irradiated cells or tissues exert effects on other parts of the animal not exposed to radiation, causing genomic instability, stress responses, and altered apoptosis or cell proliferation1–3. Despite important implications in radioprotection, radiation safety and radiotherapy, the molecular identities of RIBE factors and their mechanisms of action remain elusive. Here we use C. elegans as an animal model to study RIBE and have identified a cysteine protease CPR-4, a human cathepsin B homolog, as the first RIBE factor in nematodes. CPR-4 is secreted from animals irradiated with ultraviolet (UV) or ionizing gamma rays (IR) and is the major factor in the conditioned medium that leads to inhibition of cell death and increased embryonic lethality in unirradiated animals. Moreover, CPR-4 causes these effects and stress response at unexposed sites distal to the irradiated tissue. The activity of CPR-4 is regulated by the p53 homolog cep-1 in response to radiation and CPR-4 appears to act through the insulin-like growth factor receptor, DAF-2, to exert RIBE. Our study provides critical insights into the elusive RIBE and will facilitate identification of additional RIBE factors and their mechanisms of action.

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Somatic sex determination in Caenorhabditis elegans is modulated by SUP-26 repression of tra-2 translation

Mapes

Chen

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

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Translational repression mediated by RNA-binding proteins or micro RNAs has emerged as a major regulatory mechanism for fine-tuning important biological processes. In Caenorhabditis elegans, translational repression of the key sex-determination gene tra-2 (tra, transformer) is controlled by a 28-nucleotide repeat element, the TRA-2/GLI element (TGE), located in its 3′ untranslated region (UTR). Mutations that disrupt TGE or the germline-specific TGE-binding factor GLD-1 increase TRA-2 protein expression and inhibit sperm production in hermaphrodites. Here we report the characterization of the sup-26 gene, which regulates sex determination in the soma and encodes an RNA recognition motif (RRM)-containing protein. We show that SUP-26 regulates the level of the TRA-2 protein through TGE in vivo and binds directly to TGE in vitro through its RRM domain. Interestingly, SUP-26 associates with poly(A)-binding protein 1 (PAB-1) in vivo and may repress tra-2 expression by inhibiting the translation-stimulating activity of PAB-1. Taken together, our results provide further insight into how mRNA-binding factors repress translation and modulate sexual development in different tissues of C. elegans.

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Binding of the extreme carboxyl-terminus of PAK-interacting exchange factor β (βPIX) to myosin 18A (MYO18A) is required for epithelial cell migration

Hsu¹,

Hsieh²,

Ty³

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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The PAK2/βPIX/GIT1 (p21-activated kinase 2/PAK-interacting exchange factor-β/G protein-coupled receptor kinase-interactor 1) complex has been shown to distribute to both membrane ruffles and focal adhesions of cells, where it plays an important role in regulating focal adhesion turnover. However, the detailed mechanism underlying this regulation is largely unknown. We previously reported that MYO18Aα interacts via its carboxyl terminus with the PAK2/βPIX/GIT1 complex through direct binding to βPIX, and that knockdown of MYO18Aα in epithelial cells causes accumulation of the complex in focal adhesions and decreased cell migration ability (Hsu et al., 2010). The current study characterized the detailed MYO18Aα-βPIX interaction mechanism and the biological significance of this interaction. We found that deletion of the carboxyl-terminal globular domain of MYO18Aα profoundly altered the cellular localization of βPIX and inhibited cell migration. βPIX interacts through its most carboxyl-terminus, PAWDETNL (639-646), with MYO18Aα and partially colocalized with MYO18Aα in membrane ruffles of cells, whereas βPIX(1-638), a mutant with deletion of PAWDETNL, accumulated in focal adhesions. Both focal adhesion numbers and area in βPIX(1-638)-expressing cells were greater than those in cells expressing wild-type βPIX(FL). Further experiments using deletion mutants of MYO18A and βPIX showed that disruption of MYO18A-βPIX interaction not only impaired cell motility but also decreased Rac1 activity. Collectively, our data unravel the interaction regions between MYO18A and βPIX and provide evidence for the critical role of this interaction in regulating cellular localization of βPIX, Rac1 activity, and adhesion and migration in epithelial cells.

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Identification of secretory gelsolin as a plasma biomarker associated with distant organ metastasis of colorectal cancer

Tsai¹,

Wu²,

Peng³

et al. 2011

J Mol Med

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Colorectal cancer (CRC) is one of the most common cancers worldwide. More than half of all CRC patients will develop metastases, which represents the major cause of death for CRC patients. CRC metastases confined in other organs are potentially resectable, and patients who receive curative resections appear to have better outcomes. Thus, the early detection of metastasis in CRC patients could improve their survival rate after curative surgery. Here, we report the use of Cy-dye labeling combined with multi-dimensional fractionation and mass spectrometry as a proteomics-based approach for identifying CRC metastasis-associated biomarker(s) in plasma samples collected from three CRC patients upon diagnosis of their primary and metastatic tumors. Among the eight identified proteins, we used Western blot analysis and an in-house-developed ELISA to validate the increased plasma levels of one, secretory (plasma) gelsolin, in >80% of CRC patients with distal metastases in a larger sample cohort (32 patients). We also found a significant increase of secretory gelsolin in plasma samples of stage IV versus stages I-III CRC patients before treatment. Furthermore, immunohistochemistry showed that secretory gelsolin was highly overexpressed in CRC tissue specimens compared to adjacent normal tissues, and a cell model study showed that secretory gelsolin may help regulate CRC cell migration.

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Stomatin-like protein 2 regulates survivin expression in non-small cell lung cancer cells through β-catenin signaling pathway

Yang

et al. 2018

Cell Death Dis

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The overexpression of stomatin-like protein-2 (SLP-2) is commonly observed in non-small cell lung cancer (NSCLC) cells. In the present study, we transfected a number of NSCLC cells with an SLP-2 shRNA-expressing vector (AdSLP2i) and examined its possible effects on cell growth and apoptosis. We found that suppression of SLP-2 expression inhibited cell growth, and that the apoptosis induced by SLP-2 suppression was correlated with decreased survivin protein expression. Moreover, the reduced survivin expression was found to be associated with reduced β-catenin nuclear localization and appeared not to be modulated through the AKT signaling pathway. By using immunoprecipitation and proteomics to analyze protein–protein interactions in A549 cells with SLP-2 overexpression, we found that annexin A2 interacted with SLP-2 and β-catenin directly. Our data further suggested that the knockdown of SLP-2 gene affected the SLP-2/Annexin A2/β-catenin cascade formation, reduced the translocation of cytoplasmic β-catenin into nucleus, and downregulated downstream target genes. The results presented in this study, together with our previous findings, suggest that SLP-2 promotes NSCLC cell proliferation by enhancing survivin expression mediated via β-catenin pathway.

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Integrated omics profiling identifies hypoxia-regulated genes in HCT116 colon cancer cells

Chen

Liu

et al. 2018

Journal of Proteomics

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Integrated analysis of fine-needle-aspiration cystic fluid proteome, cancer cell secretome, and public transcriptome datasets for papillary thyroid cancer biomarker discovery

Lin

Chen

et al. 2018

Oncotarget

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Thyroid ultrasound and ultrasound-guided fine-needle aspiration (USG/FNA) biopsy are currently used for diagnosing papillary thyroid carcinoma (PTC), but their detection limit could be improved by combining other biomarkers. To discover novel PTC biomarkers, we herein applied a GeLC-MS/MS strategy to analyze the proteome profiles of serum-abundant-protein-depleted FNA cystic fluid from benign and PTC patients, as well as two PTC cell line secretomes. From them, we identified 346, 488, and 2105 proteins, respectively. Comparative analysis revealed that 191 proteins were detected in the PTC but not the benign cystic fluid samples, and thus may represent potential PTC biomarkers. Among these proteins, 101 were detected in the PTC cell line secretomes, and seven of them (NPC2, CTSC, AGRN, GPNMB, DPP4, ERAP2, and SH3BGRL3) were reported in public PTC transcriptome datasets as having 4681 elevated mRNA expression in PTC. Immunoblot analysis confirmed the elevated expression levels of five proteins (NPC2, CTSC, GPNMB, DPP4, and ERAP2) in PTC versus benign cystic fluids. Immunohistochemical studies from near 100 pairs of PTC tissue and their adjacent non-tumor counterparts further showed that AGRN (n = 98), CTSC (n = 99), ERAP2 (n = 98) and GPNMB (n = 100) were significantly (p < 0.05) overexpressed in PTC and higher expression levels of AGRN and CTSC were also significantly associated with metastasis and poor prognosis of PTC patients. Collectively, our results indicate that an integrated analysis of FNA cystic fluid proteome, cancer cell secretome and tissue transcriptome datasets represents a useful strategy for efficiently discovering novel PTC biomarker candidates.

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Jeng-Ting Chen

Pyk2 activates the NLRP3 inflammasome by directly phosphorylating ASC and contributes to inflammasome-dependent peritonitis

Cysteine protease cathepsin B mediates radiation-induced bystander effects

Somatic sex determination in Caenorhabditis elegans is modulated by SUP-26 repression of tra-2 translation

Binding of the extreme carboxyl-terminus of PAK-interacting exchange factor β (βPIX) to myosin 18A (MYO18A) is required for epithelial cell migration

Identification of secretory gelsolin as a plasma biomarker associated with distant organ metastasis of colorectal cancer

Stomatin-like protein 2 regulates survivin expression in non-small cell lung cancer cells through β-catenin signaling pathway

Integrated omics profiling identifies hypoxia-regulated genes in HCT116 colon cancer cells

Integrated analysis of fine-needle-aspiration cystic fluid proteome, cancer cell secretome, and public transcriptome datasets for papillary thyroid cancer biomarker discovery

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