Your search keyword '"Liu, Kangdong"' showing total 26 results

1. Blocking the PD-1 signal transduction by occupying the phosphorylated ITSM recognition site of SHP-2

Author

Li, Wenjie, Mei, Wenyi, Jiang, Hewei, Wang, Jie, Li, Xiaoli, Quan, Lina, Diao, Yanyan, Ma, Yanni, Fan, Sisi, Xie, Zhuwei, Gong, Mengdie, Zhu, Huan, Bi, Dewen, Zhang, Feng, Ma, Lei, Zhang, Jian, Gao, Yufeng, Paschalidis, Aris, Lin, Honghuang, Liu, Fangfang, Liu, Kangdong, Ye, Mingliang, Zhao, Zhenjiang, Duan, Yajun, Chen, Zhuo, Xu, Yufang, Xiao, Weilie, Tao, Shengce, Zhu, Lili, and Li, Honglin

Abstract

Targeting the PD-1/PD-L1 axis with small-molecular inhibitors is a promising approach for immunotherapy. Here, we identify a natural pentacyclic triterpenoid, Pygenic Acid A (PA), as a PD-1 signaling inhibitor. PA exerts anti-tumor activity in hPD-1 knock-in C57BL/6 mice and enhances effector functions of T cells to promote immune responses by disrupting the PD-1 signaling transduction. Furthermore, we identify SHP-2 as the direct molecular target of PA for inhibiting the PD-1 signaling transduction. Subsequently, mechanistic studies suggest that PA binds to a new druggable site in the phosphorylated PD-1 ITSM recognition site of SHP-2, inhibiting the recruitment of SHP-2 by PD-1. Taken together, our findings demonstrate that PA has a potential application in cancer immunotherapy and occupying the phosphorylated ITSM recognition site of SHP-2 may serve as an alternative strategy to develop PD-1 signaling inhibitors. In addition, our success in target recognition provides a paradigm of target identification and confirmation for natural products.

Published

2025

2. DDX5 promotes esophageal squamous cell carcinoma growth through sustaining VAV3 mRNA stability

Author

Shi, Yunshu, Wang, Junyong, Yuan, Qiang, Chen, Yingying, Zhao, Miao, Li, Xiaoyu, Wang, Zitong, Zhou, Hao, Zhu, Fangli, Wei, Bing, Jiang, Yanan, Zhao, Jimin, Qiao, Yan, Dong, Zigang, and Liu, Kangdong

Abstract

Novel therapeutic targets and their inhibitors for esophageal squamous cell carcinoma (ESCC) prevention and therapy are urgently needed. This study aimed to investigate the function of DEAD-box helicase 5 (DDX5) in ESCC progression and to identify a promising inhibitor of DDX5. We verified that DDX5 was highly expressed in ESCC and played an oncogenic role, binding with vav guanine nucleotide exchange factor 3 (VAV3) mRNA and facilitating VAV3 mRNA N6-methyladenosine (m6A) modification by interacting with the m6A methyltransferase 3 (METTL3). M6A-modified VAV3 mRNA was identified by insulin-like growth factor 1 (IGF2BP1), increasing mRNA stability. Methylnissolin-3-β-D-O-glucoside (MD) inhibited ESCC progression through the DDX5-VAV3 axis. Our findings suggest that DDX5 promotes ESCC progression. MD inhibits ESCC progression by targeting DDX5.

Published

2024

3. Diosmetin suppresses the progression of ESCC by CDK2/Rb/E2F2/RRM2 pathway and synergies with cisplatin

Author

Chen, Yihuan, Dai, Xiaoshuo, Chen, Wei, Qiao, Yan, Bai, Ruihua, Duan, Xiaoxuan, Zhang, Kai, Chen, Xinhuan, Li, Xin, Mo, Saijun, Cao, Wenbo, Li, Xiang, Liu, Kangdong, Dong, Ziming, and Lu, Jing

Abstract

Cisplatin (CDDP) is the first-line drug in the clinical treatment of esophageal squamous cell carcinoma (ESCC), which has severe nephrotoxicity. Diosmetin (DIOS) can protect kidney from oxidative damage, however, its function in ESCC is unknown. This study aims to explore the effect and mechanism of DIOS on ESCC and its combined effect with CDDP. Herein, we found that DIOS significantly inhibited the progression of ESCC in vitro and in vivo. Furthermore, the anti-tumor effect of DIOS was not statistically different from that of CDDP. Mechanically, transcriptomics revealed that DIOS inhibited the E2F2/RRM2 signaling pathway. The transcriptional regulation of RRM2 by E2F2 was verified by luciferase assay. Moreover, docking model, CETSA, pull-down assay and CDK2 inhibitor assay confirmed that DIOS directly targeted CDK2, leading to significant suppression of ESCC. Additionally, the patient-derived xenografts (PDX) model showed that the combination of DIOS and CDDP significantly inhibited the growth of ESCC. Importantly, the combined treatment with DIOS and CDDP significantly reduced the mRNA expression levels of kidney injury biomarkers KIM-1and NGALin renal tissue, as well as the levels of blood urea nitrogen, serum creatinine and blood uric acid compared to the single treatment with CDDP. In conclusion, DIOS could be an effective drug and a potential chemotherapeutic adjuvant for ESCC treatment. Furthermore, DIOS could reduce the nephrotoxicity of CDDP to some extent.

Published

2023

4. New perspectives for targeting therapy in ALK-positive human cancers

Author

Zhao, Simin, Li, Jian, Xia, Qingxin, Liu, Kangdong, and Dong, Zigang

Abstract

Anaplastic lymphoma kinase (ALK) is a member of the insulin receptor protein-tyrosine kinase superfamily and was first discovered in anaplastic large-cell lymphoma (ALCL). ALK alterations, including fusions, over-expression and mutations, are highly associated with cancer initiation and progression. This kinase plays an important role in different cancers, from very rare to the more prevalent non-small cell lung cancers. Several ALK inhibitors have been developed and received Food and Drug Administration (FDA) approval. However, like other drugs used in targeted therapies, ALK inhibitors inevitably encounter cancer cell resistance. Therefore, monoclonal antibody screening based on extracellular domain or combination therapies may provide viable alternatives for treating ALK-positive tumors. In this review, we discuss the current understanding of wild-type ALK and fusion protein structures, the pathological functions of ALK, ALK target therapy, drug resistance and future therapeutic directions.

Published

2023

5. CHI-KAT8i5 suppresses ESCC tumor growth by inhibiting KAT8-mediated c-Myc stability

Author

Zhang, Dandan, Jiang, Ming, Li, Pan, Laster, Kyle Vaughn, Zhao, Dengyun, Zhi, Yafei, Wei, Huifang, Nie, Wenna, Gao, Yunfeng, Wu, Qiong, Xiang, Pu, He, Xinyu, Liu, Kangdong, and Dong, Zigang

Abstract

The integrated analysis of histone modifier enzymes in solid tumors, especially in esophageal squamous cell carcinoma (ESCC), is still inadequate. Here, we investigate the expression levels of histone modifier enzymes in ESCC tissues. Notably, KAT8 (lysine acetyltransferase 8) is identified as a prognostic and therapeutic biomarker in ESCC. Esophageal-tissue-specific deletion of KAT8 in mice led to less tumor burden after induction of tumorigenesis via 4-nitroquinoline N-oxide (4NQO) treatment compared with wild-type mice. Meanwhile, silencing KAT8 significantly suppresses tumor growth in cell-line-derived xenograft (CDX) and patient-derived xenograft (PDX) models. Mechanically, we confirm that KAT8 regulates c-Myc protein stability by directly binding it. Furthermore, we design and screen a specific KAT8 inhibitor (CHI-KAT8i5) that significantly attenuates tumor growth in vitroand in vivo, providing promising potential for clinical application. Thus, our work identifies that KAT8 could serve as a potential clinically relevant biomarker and therapeutic target in patients with ESCC and that KAT8 inhibitor is a promising lead candidate for ESCC therapy.

Published

2025

6. PGC-1α promotes colorectal carcinoma metastasis through regulating ABCA1 transcription

Author

Chen, Wei, Zhang, Qiushuang, Dai, Xiaoshuo, Chen, Xinhuan, Zhang, Chengjuan, Bai, Ruihua, Chen, Yihuan, Zhang, Kai, Duan, Xiaoxuan, Qiao, Yan, Zhao, Jimin, Tian, Fang, Liu, Kangdong, Dong, Ziming, and Lu, Jing

Abstract

Colorectal cancer (CRC) is a highly aggressive cancer in which metastasis plays a key role. However, the mechanisms underlying metastasis have not been fully elucidated. Peroxisome proliferator-activated receptor gamma coactivator 1α (PGC-1α), a regulator of mitochondrial function, has been reported as a complicated factor in cancer. In this study, we found that PGC-1α was highly expressed in CRC tissues and was positively correlated with lymph node and liver metastasis. Subsequently, PGC-1α knockdown was shown to inhibit CRC growth and metastasis in both in vitro and in vivo studies. Transcriptomic analysis revealed that PGC-1α regulated ATP-binding cassette transporter 1 (ABCA1) mediated cholesterol efflux. Mechanistically, PGC-1α interacted with YY1 to promote ABCA1 transcription, resulting in cholesterol efflux, which subsequently promoted CRC metastasis through epithelial-to-mesenchymal transition (EMT). In addition, the study identified the natural compound isoliquiritigenin (ISL) as an inhibitor that targeted ABCA1 and significantly reduced CRC metastasis induced by PGC-1α. Overall, this study sheds light on how PGC-1α promotes CRC metastasis by regulating ABCA1-mediated cholesterol efflux, providing a basis for further research to inhibit CRC metastasis.

Published

2023

7. Repurposed pizotifen malate targeting NRF2 exhibits anti-tumor activity through inducing ferroptosis in esophageal squamous cell carcinoma

Author

He, Xinyu, Zhou, Yubing, Chen, Wenjing, Zhao, Xiaokun, Duan, Lina, Zhou, Hao, Li, Mingzhu, Yu, Yin, Zhao, Jimin, Guo, Yaping, Gu, Huihui, Jiang, Yanan, Dong, Zigang, and Liu, Kangdong

Abstract

Targeted therapy attempts are needed to enhance esophageal squamous cell carcinoma (ESCC) patients’ overall survival and satisfaction of life. Nuclear factor erythroid 2-related factor 2 (NRF2), as a high-confidence cancer driver gene, controls the antioxidant response, metabolic balance and redox homeostasis in cancer and is regarded as a potent molecular target for cancer treatment. Here, we attempted to find a new NRF2 inhibitor and study the underlying molecular mechanism in ESCC. We found that up-regulated NRF2 protein was negatively correlated with patient prognosis and promoted tumor proliferation in ESCC. Moreover, Pizotifen malate (PZM), a FDA-approved medication, bound to the Neh1 domain of NRF2 and prevented NRF2 protein binding to the ARE motif of target genes, suppressing transcription activity of NRF2. PZM treatment suppressed tumor development in ESCC PDX model by inducing ferroptosis via down-regulating the transcription of GPX4, GCLC, ME1 and G6PD. Our study illustrates that the over expression of NRF2 indicates poor prognosis and promotes tumor proliferation in ESCC. PZM, as a novel NRF2 inhibitor, inhibits the tumor growth by inducing ferroptosis and elucidates a potent NRF2-based therapy strategy for patients with ESCC.

Published

2023

8. CAFrgDB: a database for cancer-associated fibroblasts related genes and their functions in cancer

Author

Yuan, Qiang, Chu, Yi, Li, Xiaoyu, Shi, Yunshu, Chen, Yingying, Zhao, Jimin, Lu, Jing, Liu, Kangdong, and Guo, Yaping

Abstract

As one of the most essential components of the tumor microenvironment (TME), cancer-associated fibroblasts (CAFs) interact extensively with cancer cells and other stromal cells to remodel TME and participate in the pathogenesis of cancer, which earmarked themselves as new promising targets for cancer therapy. Numerous studies have highlighted the heterogeneity and versatility of CAFs in most cancer types. Thus, the identification and appropriate use of CAF-related genes (CAFGenes) in the context of specific cancer types will provide critical insights into disease mechanisms and CAF-related therapeutic targets. In this study, we collected and curated 5421 CAFGenes identified from small- or large-scale experiments, encompassing 4982 responsors that directly or indirectly participate in cancer malignant behaviors managed by CAFs, 1069 secretions that are secreted by CAFs and 281 regulators that contribute in modulating CAFs in human and mouse, which covered 24 cancer types. For these human CAFGenes, we performed gene expression and prognostic marker-based analyses across 24 cancer types using TCGA data. Furthermore, we provided annotations for CAF-associated proteins by integrating the knowledge of protein-protein interaction(s), drug-target relations and basic annotations, from 9 public databases. CAFrgDB (CAF related Gene DataBase) is free for academic research at http://caf.zbiolab.cnand we anticipate CAFrgDB can be a useful resource for further study of CAFs.

Published

2023

9. DNA Aptamer Selected against Esophageal Squamous Cell Carcinoma for Tissue Imaging and Targeted Therapy with Integrin β1 as a Molecular Target

Author

Zhang, Yangyang, Chen, Xinhuan, Qiao, Yan, Yang, Shuang, Wang, Zhaoting, Ji, Mengmeng, Yin, Kai, Zhao, Jimin, Liu, Kangdong, and Yuan, Baoyin

Abstract

Esophageal cancer, especially esophageal squamous cell carcinoma (ESCC), poses a serious threat to human health. It is urgently needed to develop recognition tools and discover molecular targets for early diagnosis and targeted therapy of esophageal cancer. Here, we developed several DNA aptamers that can bind to ESCC KYSE410 cells with a nanomolar range of dissociation constants by using cell-based systematic evolution of ligands by exponential enrichment (cell-SELEX). The selected A2 aptamer is found to strongly bind with multiple cancer cells, including several ESCC cell lines. Tissue imaging displayed that the A2 aptamer can specifically recognize clinical ESCC tissues but not the adjacent tissues. Moreover, we identified integrin β1 as the binding target of A2 through pull-down and RNA interference assays. Meanwhile, molecular docking and mutation assays suggested that A2 probably binds to integrin β1 through the nucleotides of DA16-DG21, and competitive binding and structural alignment assays indicated that A2 shares the overlapped binding sites with laminin and arginine–glycine–aspartate ligands. Furthermore, we engineered A2-induced targeted therapy for ESCC. By constructing A2-tethered DNA nanoassemblies carrying multiple doxorubicin (Dox) molecules as antitumor agents, inhibition of tumor cell growth in vitro and in vivo was achieved. This work provides a useful targeting tool and a potential molecular target for cancer diagnosis and targeted therapy and is helpful for understanding the integrin mechanism and developing integrin inhibitors.

Published

2022

10. A novel lncRNA MTAR1 promotes cancer development through IGF2BPs mediated post-transcriptional regulation of c-MYC

Author

Gao, Yunfeng, Jiang, Ming, Guo, Fangqin, Liu, Xuejiao, Zhang, Qi, Yang, Sen, Yeung, Yiu To, Yang, Ran, Wang, Keke, Wu, Qiong, Zhang, Dandan, Zhang, Chengjuan, Laster, Kyle Vaughn, Ge, Mengmeng, Nie, Wenna, Liu, Kangdong, and Dong, Zigang

Abstract

Abnormal translation of the MYC proto-oncogene is a hallmark of the initiation and maintenance of tumorigenesis. However, the molecular mechanism underlying increased MYC protein levels in certain cancer types without a corresponding increase in MYC mRNA levels is unclear. Here, we identified a novel lncRNA, MTAR1, which is critical for post-transcriptional regulation of MYC-induced tumorigenesis. MTAR1 is essential for recruiting IGF2BPs into PABP1-mediated liquid–liquid phase separation (LLPS) complexes and facilitates IGF2BPs-mediated MYC mRNA translation. MTAR1 enhanced binding between IGF2BPs and PABP1, thereby promoting MYC mRNA stability and increased MYC mRNA translation. In summary, MTAR1 is a novel MYC-related lncRNA that contributes to tumor progression by enhancing MYC translation through mediating PABP1/IGF2BPs liquid–liquid phase separation.

Published

2022

11. Dronedarone hydrochloride inhibits gastric cancer proliferation in vitroand in vivoby targeting SRC

Author

Lu, Xuebo, Zhang, Weizhe, Yang, Xiaoxiao, Yan, Xiao, Hussain, Zubair, Wu, Qiong, Zhao, Jinmin, Yuan, Baoyin, Yao, Ke, Dong, Zigang, Liu, Kangdong, and Jiang, Yanan

Abstract

•The FDA-approved drug Dronedarone hydrochloride is an SRC inhibitor in gastric cancer.•Dronedarone hydrochloride inhibits gastric cancer growth in vitroand in vivoby the SRC/AKT1 signaling pathway.•Repurposed Dronedarone hydrochloride may be a promising chemo-preventive approach for GC patients with high expression of SRC.

Published

2024

12. MiRNA-363-3p/DUSP10/JNK axis mediates chemoresistance by enhancing DNA damage repair in diffuse large B-cell lymphoma

Author

Zhou, Wenping, Xu, Yuanlin, Zhang, Jiuyang, Zhang, Peipei, Yao, Zhihua, Yan, Zheng, Wang, Haiying, Chu, Junfeng, Yao, Shuna, Zhao, Shuang, Yang, Shujun, Guo, Yongjun, Miao, Jinxin, Liu, Kangdong, Chan, Wing C., Xia, Qingxin, and Liu, Yanyan

Abstract

Anthracycline-based chemotherapy resistance represents a major challenge in diffuse large B-cell lymphoma (DLBCL). MiRNA and gene expression profiles (n= 47) were determined to uncover potential chemoresistance mechanisms and therapeutic approaches. An independent correlation between high expression of miRNA-363-3p and chemoresistance was observed and validated in a larger cohort (n= 106). MiRNA-363-3p was shown to reduce doxorubicin-induced apoptosis and tumor shrinkage in in vitro and in vivo experiments by ectopic expression and CRISPR/Cas9-mediated knockout in DLBCL cell lines. DNA methylation was found to participate in transcriptional regulation of miRNA-363-3p. Further investigation revealed that dual specificity phosphatase 10 (DUSP10) is a target of miRNA-363-3p and its suppression promotes the phosphorylation of c-Jun N-terminal kinase (JNK). The miRNA-363-3p/DUSP10/JNK axis was predominantly associated with negative regulation of homologous recombination (HR) and DNA repair pathways. Ectopic expression of miRNA-363-3p more effectively repaired doxorubicin-induced double-strand break (DSB) while enhancing non-homologous end joining repair and reducing HR repair. Targeting JNK and poly (ADP-ribose) polymerase 1 significantly inhibited doxorubicin-induced DSB repair, increased doxorubicin-induced cell apoptosis and tumor shrinkage, and improved the survival of tumor-bearing mice. In conclusion, the miRNA-363-3p/DUSP10/JNK axis is a novel chemoresistance mechanism in DLBCL that may be reversed by targeted therapy.

Published

2022

13. CDK15 promotes colorectal cancer progression via phosphorylating PAK4 and regulating β-catenin/ MEK-ERK signaling pathway

Author

Huang, Chuntian, Du, Ruijuan, Jia, Xuechao, Liu, Kangdong, Qiao, Yan, Wu, Qiong, Yao, Ning, Yang, Lu, Zhou, Liting, Liu, Xuejiao, Xiang, Pu, Xin, Mingxia, Wang, Yan, Chen, Xiaojie, Kim, Dong Joon, Dong, Zigang, and Li, Xiang

Abstract

Colorectal cancer (CRC) is the third most diagnosed cancer and the second leading cause of cancer-related deaths. However, there are few effective therapeutic targets for CRC patients. Here, we found that CDK15 was highly expressed in human CRC and negatively correlated with patient prognosis and overall survival in tissue microarray. Knockdown of CDK15 suppressed cell proliferation and anchorage-independent growth of CRC cells and inhibited tumor growth in cell line-derived xenograft (CDX) model. Importantly, knockout of CDK15 in mice retarded AOM/DSS-induced tumorigenesis and CDK15 silencing by lentivirus significantly suppressed tumor progression in patient-derived xenograft (PDX) model. Mechanistically, CDK15 could bind PAK4 and phosphorylate PAK4 at S291 site. Phosphorylation of PAK4 at the S291 residue promoted cell proliferation and anchorage-independent growth through β-catenin/c-Myc, MEK/ERK signaling pathway in CRC. Moreover, inhibition of PAK4 reversed the tumorigenic function of CDK15 in CRC cells and pharmacological targeting PAK4 suppressed tumor growth in PDX models. Thus, our data reveal the pivotal role of CDK15 in CRC progression and demonstrate CDK15 promotes CRC tumorigenesis by phosphorylating PAK4. Hence, the CDK15-PAK4 axis may serve as a novel therapeutic target for CRC.

Published

2022

14. Diagnostic value of bronchoalveolar lavage fluid and serum tumor markers for lung cancer

Author

Wang, Hongmin, Zhang, Xiaohong, Liu, Xinkui, Liu, Kangdong, Li, Yuexia, and Xu, Haijiang

Subjects

Diagnosis, Usage, Genetic aspects, Properties, Lung cancer -- Genetic aspects -- Diagnosis, Tumor markers -- Properties, Bronchoalveolar lavage -- Usage

Published

2016

15. Periplogenin suppresses the growth of esophageal squamous cell carcinoma in vitro and in vivo by targeting STAT3

Author

Hu, Yamei, Liu, Fangfang, Jia, Xuechao, Wang, Penglei, Gu, Tingxuan, Liu, Hui, Liu, Tingting, Wei, Huifang, Chen, Hanyong, Zhao, Jiuzhou, Yang, Ran, Chen, Yingying, Dong, Zigang, and Liu, Kangdong

Abstract

The mortality rate of esophageal squamous cell carcinoma (ESCC) is higher than that of other cancers worldwide owing to a lack of therapeutic targets and related drugs. This study aimed to find new drugs by targeting an efficacious therapeutic target in ESCC patients. Signal transducer and activator of transcription 3 (STAT3) is hyperactive in ESCC. Herein, we identified a novel STAT3 inhibitor, periplogenin, which strongly inhibited phosphorylation of STAT3 at Tyr705. Docking models and pull-down assays revealed that periplogenin bound directly and specifically to STAT3, leading to significant suppression of subsequent dimerization, nuclear import, and transcription activities. In addition, STAT3 knockdown cell lines were insensitive to periplogenin, whereas in contrast, STAT3-overexpressing cells were more sensitive to periplogenin, indicating that STAT3 was a target of periplogenin. Intraperitoneally administered periplogenin exhibited efficacious therapeutic effects in ESCC patient-derived xenograft models and dramatically impaired the phosphorylation of STAT3 and expression levels of STAT3-mediated downstream genes. Thus, our study demonstrated that periplogenin acted as a new STAT3 inhibitor, suppressing the growth of ESCC in vitro and in vivo, providing a basis for its potential application in ESCC treatment and prevention.

Published

2021

16. BRD4 drives esophageal squamous cell carcinoma growth by promoting RCC2 expression

Author

Wu, Qiong, Liu, Fangfang, Ge, Mengmeng, Laster, Kyle Vaughn, Wei, Lixiao, Du, Ruijuan, Jiang, Ming, Zhang, Jing, Zhi, Yafei, Jin, Guoguo, Zhao, Simin, Kim, Dong Joon, Dong, Zigang, and Liu, Kangdong

Abstract

The low survival rate of esophageal squamous cell carcinoma patients is primarily attributed to technical limitations and a lack of insight regarding the molecular mechanisms contributing to its progression. Alterations in epigenetic modulators are critical to cancer development and prognosis. BRD4, a chromatin reader protein, plays an essential role in regulating oncogene expression. Here, we investigated the contributing role of BRD4 and its related mechanisms in the context of ESCC tumor progression. Our observations showed that BRD4 transcript and protein expression levels are significantly increased in ESCC patient tissues. Genetic or pharmacological inhibition of BRD4 suppressed ESCC cell proliferation in vitro and in vivo. Proteomic and transcriptomic analyses were subsequently used to deduce the potential targets of BRD4. Mechanistic studies showed that RCC2 is a downstream target of BRD4. Inhibition of either BRD4 or RCC2 resulted in decreased ESCC cell proliferation. The BRD4-TP73 interaction facilitated the binding of BRD4 complex to the promoter region of RCC2, and subsequently modulated RCC2 transcription. Furthermore, targeting BRD4 with inhibitors significantly decreased tumor volume in ESCC PDX models, indicating that BRD4 expression may contribute to tumor progression. Collectively, these findings suggest that BRD4 inhibition could be a promising strategy to treat ESCC by downregulating RCC2.

Published

2021

17. Discovery of a novel dual-target inhibitor against RSK1 and MSK2 to suppress growth of human colon cancer

Author

Jin, Guoguo, Yan, Mingyang, Liu, Kangdong, Yao, Ke, Chen, Hanyong, Zhang, Chengjuan, Yi, Yang, Reddy, Kanamata, Gorja, Dhilli Rao, Laster, Kyle Vaughn, Guo, Zhiping, and Dong, Zigang

Abstract

Colon cancer is the most aggressive tumor in both men and women globally. As many the chemotherapeutic regimens have adverse side effects and contribute to the resistance and recurrence, therefore, finding novel therapeutic targets and developing effective agents are urgent. Based on the TCGA and GTEx database analysis, RSK1 and MSK2 were found abnormal expressed in colon cancer. RSK1 and MSK2 were overexpressed in colon cancer tissues confirmed by western blot and IHC. After knocking down RSK1 or MSK2, cell proliferation and anchorage-independent cell growth were markedly inhibited. Using a computer docking model, we identified a novel dual-target inhibitor, APIO-EE-07, that could block both RSK1 and MSK2 kinase activity in a dose-dependent manner. APIO-EE-07 inhibited cell growth and induced apoptosis and also increased expression of Bax as well as cleaved caspase-3 and -PARP in colon cancer cells by downregulating RSK1 and MSK2 downstream targets, including CREB and ATF1. Furthermore, APIO-EE-07 decreased tumor volume and weight in human patient-derived xenografts tumors implanted in SCID mice. In summary, our results demonstrate that RSK1 and MSK2 are the potential targets for the treatment of colon cancer. APIO-EE-07, a novel dual-target inhibitor of RSK1 and MSK2, can suppress the growth of colon cancer by attenuating RSK1 and MSK2 signaling.

Published

2020

18. SDCBP/MDA-9/syntenin phosphorylation by AURKA promotes esophageal squamous cell carcinoma progression through the EGFR-PI3K-Akt signaling pathway

Author

Du, Ruijuan, Huang, Chuntian, Chen, Hanyong, Liu, Kangdong, Xiang, Pu, Yao, Ning, Yang, Lu, Zhou, Liting, Wu, Qiong, Zheng, Yaqiu, Xin, Mingxia, Dong, Zigang, and Li, Xiang

Abstract

SDCBP is an adapter protein containing two tandem PDZ domains mediating cell adhesion. The role and underlying molecular mechanism of SDCBP in ESCC remain obscure. Here, we report that SDCBP is frequently overexpressed in ESCC tissues and cells compared to normal controls and that its overexpression is correlated with late clinical stage and predicts poor prognosis in ESCC patients. Functionally, high expression of SDCBP is positively related to ESCC progression both in vitro and in vivo. Furthermore, mechanistic studies show that SDCBP activates the EGFR-PI3K-Akt signaling pathway by binding to EGFR and preventing EGFR internalization. Moreover, we provide evidence that AURKA binds to SDCBP and phosphorylates it at the Ser131 and Thr200 sites to inhibit ubiquitination-mediated SDCBP degradation. More importantly, the sites at which AURKA phosphorylates SDCBP are crucial for the EGFR signaling-mediated oncogenic function of SDCBP. Taken together, we propose that SDCBP phosphorylation by AURKA prevents SDCBP degradation and promotes ESCC tumor growth through the EGFR-PI3K-Akt signaling pathway. Our findings unveil a new AURKA–SDCBP–EGFR axis that is involved in ESCC progression and provide a promising therapeutic target for ESCC treatment in the clinic.

Published

2020

19. Licochalcone C induces cell cycle G1 arrest and apoptosis in human esophageal squamous carcinoma cells by activation of the ROS/MAPK signaling pathway

Author

Kwak, Ah-Won, Choi, Joon-Seok, Liu, Kangdong, Lee, Mee-Hyun, Jeon, Young-Joo, Cho, Seung-Sik, Yoon, Goo, Oh, Ha-Na, Chae, Jung-Il, and Shim, Jung-Hyun

Abstract

Along with changes in dietary habits and lifestyle, the incidence of esophageal cancer is increasing around the world. Since chemotherapy for esophageal cancer has significant side effects, phytochemicals have attracted attention as an alternative medicine. Licochalcone C (LCC) is a flavonoid compound extracted from Licorice, with a variety of clinical uses including anti-cancer, anti-inflammatory and anti-oxidant effects. Treatment with LCC for 48 h significantly decreased cell viability of esophageal squamous cell carcinoma (ESCC) cells in a dose- and time-dependent manner with IC50values of 28 µM (KYSE 30), 36 µM (KYSE 70), 19 µM (KYSE 410), 28 µM (KYSE 450) and 26 µM (KYSE 510). LCC induced G1 arrest accompanied by decreased cyclin D1 expression and an increase in the levels of p21 and p27. LCC increased the levels of intracellular ROS, cytochrome C release, and multi-caspase activity, and decreased mitochondrial membrane potential. LCC induced the protein expression of ER stress markers (GRP78 and CHOP) and phosphorylation JNK, c-Jun and p38. We investigated the expression of pro-apoptotic and anti-apoptotic proteins to elucidate the mechanism of apoptosis. Our findings contribute to the understanding of apoptosis mechanism underlying LCC in ESCC cells and provide new insights into the potential clinical opportunities of LCC for ESCC treatment.

Published

2020

20. SHAFTS: A Hybrid Approach for 3D Molecular Similarity Calculation. 2. Prospective Case Study in the Discovery of Diverse p90 Ribosomal S6 Protein Kinase 2 Inhibitors To Suppress Cell Migration

Author

Lu, Weiqiang, Liu, Xiaofeng, Cao, Xianwen, Xue, Mengzhu, Liu, Kangdong, Zhao, Zhenjiang, Shen, Xu, Jiang, Hualiang, Xu, Yufang, Huang, Jin, and Li, Honglin

Abstract

We described a prospective application of ligand-based virtual screening program SHAFTS to discover novel inhibitors for p90 ribosomal S6 protein kinase 2 (RSK2). Taking the putative 3D conformations of two weakly binding RSK2 NTKD inhibitors as query templates, SHAFTS was used to perform 3D similarity based virtual screening because of a lack of crystal structure of RSK2 protein, thus leading to the identification of several novel scaffolds that would have been missed by conventional 2D fingerprint methods. The most potent hit compounds show low micromolar inhibitory activities against RSK2. In particular, one of the hit compounds exhibits potent antimigration activity against the MDA-MB-231 tumor cell. The results exemplified SHAFTS’ application in active enrichment and scaffold hopping, which is of general interest for lead identification in drug discovery endeavors and also provides novel scaffolds that lay the foundation for uncovering new RSK2 regulatory mechanisms.

Published

2024

21. A novel Fc-enhanced humanized monoclonal antibody targeting B7-H3 suppresses the growth of ESCC

Author

Wu, Huiting, Liu, Chang, Yuan, Qiang, Qiao, Yan, Ding, Yongwei, Duan, Lina, Li, Wenjing, Zhang, Mengjia, Zhang, Xuhua, Jiang, Yanan, Lu, Jing, Dong, Ziming, Wang, Tao, Liu, Kangdong, and Zhao, Jimin

Abstract

ABSTRACTEsophageal squamous cell carcinoma (ESCC) is a prevalent malignant tumor of the digestive tract with a low 5-year survival rate due to the lack of effective treatment methods. Although therapeutic monoclonal antibodies (mAbs) now play an important role in cancer therapy, effective targeted mAbs are still lacking for ESCC. B7-H3 is highly expressed in a variety of tumors and has emerged as a promising therapeutic target. Several mAbs against B7-H3 have advanced to clinical trials, but their development has not yet been pursued for ESCC. Here, we developed a humanized and Fc-engineered anti-B7H3 mAb 24F-Hu-mut2 and systematically evaluated its anti-tumor activity in vitroand in vivo. The 24F-Hu-mut2 was humanized and modified in Fc fragment to obtain stronger antibody-dependent cell-mediated cytotoxicity(ADCC) activity and nanomolar affinity. Furthermore, both of ESCC cell-derived xenograft (CDX) and patient-derived xenograft (PDX) mice models indicated that 24F-Hu-mut2 displayed potent in vivoanti-tumor activity. In addition, a computational docking model showed that the mAb bound to IgC1 and IgC2 domain of B7-H3, which is closer to the cell membrane. Consistently, our ELISA results verified the binding of 24F-Hu-WT and IgC1 and IgC2. Our results indicate that 24F-Hu-mut2 has significant anti-ESCC activity both in vitroand in vivo, and this monoclonal antibody may be a promising antibody against ESCC and other B7-H3 overexpressing tumors.

Published

2023

22. DUSP4 promotes esophageal squamous cell carcinoma progression by dephosphorylating HSP90β

Author

Zhou, Liting, Yao, Ning, Yang, Lu, Liu, Kangdong, Qiao, Yan, Huang, Chuntian, Du, Ruijuan, Yeung, Yiu To, Liu, Wenting, Cheng, Dan, Dong, Zigang, and Li, Xiang

Abstract

The molecular and pathogenic mechanisms of esophageal squamous cell carcinoma (ESCC) development are still unclear, which hinders the development of effective treatments. In this study, we report that DUSP4 is highly expressed in human ESCC and is negatively correlated with patient prognosis. Knockdown of DUSP4 suppresses cell proliferation and patient-derived xenograft (PDX)-derived organoid (PDXO) growth and inhibits cell-derived xenograft (CDX) development. Mechanistically, DUSP4 directly binds to heat shock protein isoform β (HSP90β) and promotes the ATPase activity of HSP90β by dephosphorylating HSP90β on T214 and Y216. These dephosphorylation sites are critical for the stability of JAK1/2-STAT3 signaling and p-STAT3 (Y705) nucleus translocation. In vivo, Dusp4knockout in mice significantly inhibits 4-nitrochinoline-oxide-induced esophageal tumorigenesis. Moreover, DUSP4 lentivirus or treatment with HSP90β inhibitor (NVP-BEP800) significantly impedes PDX tumor growth and inactivates the JAK1/2-STAT3 signaling pathway. These data provide insight into the role of the DUSP4-HSP90β-JAK1/2-STAT3 axis in ESCC progression and describe a strategy for ESCC treatment.

Published

2023

23. A low temperature bonding of quartz microfluidic chip for serum lipoproteins analysis

Author

Zhuang, Guisheng, Jin, Qinghui, Liu, Jing, Cong, Hui, Liu, Kangdong, Zhao, Jianlong, Yang, Mengsu, and Wang, Huimin

Abstract

A low-temperature bonding method for microfabrication of quartz microfluidic chips has been developed. The bonding process involved two steps: pre-bonding and post-annealing at low temperature. The bonding quality was evaluated by measuring the shear force at bonding interface and the electrical properties of the chips. Shear force of 5.66 MPa (566 N/cm2) was obtained in a bonded chip after a post-annealing at 200∘C for 6 h. We owe the strong bonding strength to the formation of Si–O–Si bonds at the bonding interface during the post-annealing stage. The bonding procedures were not sensitive to surrounding and could be performed in a routine laboratory without clean room conditions. The performance of the fabricated microfluidic chips was tested by capillary zone electrophoresis (CZE) of serum lipoproteins with laser-induced fluorescence (LIF). The low-density (LDL) and high-density (HDL) lipoproteins in the serum was separated completely by using tricine buffer with methylglucamine.A low-temperature bonding method for microfabrication of quartz microfluidic chips has been developed. The bonding process involved two steps: pre-bonding and post-annealing at low temperature. The bonding quality was evaluated by measuring the shear force at bonding interface and the electrical properties of the chips. Shear force of 5.66 MPa (566 N/cm2) was obtained in a bonded chip after a post-annealing at 200∘C for 6 h. We owe the strong bonding strength to the formation of Si–O–Si bonds at the bonding interface during the post-annealing stage. The bonding procedures were not sensitive to surrounding and could be performed in a routine laboratory without clean room conditions. The performance of the fabricated microfluidic chips was tested by capillary zone electrophoresis (CZE) of serum lipoproteins with laser-induced fluorescence (LIF). The low-density (LDL) and high-density (HDL) lipoproteins in the serum was separated completely by using tricine buffer with methylglucamine.

Published

2006

24. 20 (S)-ginsenoside Rh2 inhibits colorectal cancer cell growth by suppressing the Axl signaling pathway in vitro and in vivo

Author

Zhang, Haibo, Yi, Jun-Koo, Huang, Hai, Park, Sijun, Kwon, Wookbong, Kim, Eungyung, Jang, Soyoung, Kim, Si-Yong, Choi, Seong-kyoon, Yoon, Duhak, Kim, Sung-Hyun, Liu, Kangdong, Dong, Zigang, Ryoo, Zae Young, and Kim, Myoung Ok

Abstract

Colorectal cancer (CRC) has a high morbidity and mortality worldwide. 20(S)-ginsenoside Rh2 (G-Rh2) is a natural compound extracted from ginseng, which exhibits anticancer effects in many cancer types. In this study, we demonstrated the effect and underlying molecular mechanism of G-Rh2 in CRC cells in vitro and in vivo.

Published

2021

25. Targeting CD276 by CAR-T cells induces regression of esophagus squamous cell carcinoma in xenograft mouse models

Author

Xuan, Yujing, Sheng, Yuqiao, Zhang, Daiqun, Zhang, Kai, Zhang, Zhen, Ping, Yu, Wang, Shumin, Shi, Xiaojuan, Lian, Jingyao, Liu, Kangdong, Zhang, Yi, and Li, Feng

Abstract

•CD276 is homogeneously overexpressed in ESCC and EAC.•CD276-directed CAR-T cells demonstrate remarkable anti-tumor effects in ESCC PDX model.•CD276-targeting CAR-T cells are successfully generated with patients T cells and show potent cytotoxicity against autologous tumor cells.

Published

2021

26. Bestatin Cream Impairs Solar Simulated Light‒Driven Skin Inflammation and Skin Carcinogenesis in Mice

Author

Zhao, Simin, Yao, Ke, Liu, Kangdong, Huang, Limeng, Jiang, Yanan, Li, Jian, Dong, Ziming, and Dong, Zigang

Abstract

Leukotriene A4 hydrolase (LTA4H) is an enzyme that catalyzes the production of the inflammatory mediator leukotriene B4, which is involved in inflammatory responses mediated through the leukotriene B4/leukotriene B4 receptor type 1 (BLT1) signaling pathway. In this study, we investigated whether bestatin, an LTA4H inhibitor, could suppress skin acute inflammation and carcinogenesis. In the clinic, BLT1 was significantly induced in human skin tissues after acute solar simulated light (SSL) exposure. BLT1 and NF-κB p65 expressions were also increased in acute SSL‒induced mouse skin tissue. Furthermore, LTA4H and BLT1 were highly expressed in skin chronic inflammation and squamous cell carcinomas. More importantly, topical administration of bestatin cream dramatically inhibited BLT1 expression in acute SSL‒induced human skin tissues. BLT1 and NF-κB p65 expressions were also suppressed in acute SSL‒induced Lta4h-knockout and bestatin-treated mice skin tissues. Moreover, we conducted long-term prevention and therapeutic studies, which showed that bestatin significantly attenuated SSL-induced skin carcinogenesis. Mechanistic studies showed that bestatin inhibited skin carcinogenesis by suppressing cell proliferation and inducing cell apoptosis through LTA4H‒BLT1‒protein kinase B‒NF-κB p65 pathway. Overall, our results suggest that topical application of novel cream containing bestatin might open a helpful avenue for SSL-induced skin carcinogenesis.

Published

2021