Your search keyword '"Situ Xue"' showing total 7 results

1. SCARB2 drives hepatocellular carcinoma tumor initiating cells via enhanced MYC transcriptional activity

Author

Feng Wang, Yang Gao, Situ Xue, Luyao Zhao, Huimin Jiang, Tingting Zhang, Yunxuan Li, Chenxi Zhao, Fan Wu, Tana Siqin, Ying Liu, Jie Wu, Yechao Yan, Jian Yuan, Jian-dong Jiang, and Ke Li

Subjects

Science

Abstract

Abstract CSCs (Cancer stem cells) with distinct metabolic features are considered to cause HCC (hepatocellular carcinoma) initiation, metastasis and therapeutic resistance. Here, we perform a metabolic gene CRISPR/Cas9 knockout library screen in tumorspheres derived from HCC cells and find that deletion of SCARB2 suppresses the cancer stem cell-like properties of HCC cells. Knockout of Scarb2 in hepatocytes attenuates HCC initiation and progression in both MYC-driven and DEN (diethylnitrosamine)-induced HCC mouse models. Mechanistically, binding of SCARB2 with MYC promotes MYC acetylation by interfering with HDCA3-mediated MYC deacetylation on lysine 148 and subsequently enhances MYC transcriptional activity. Screening of a database of FDA (Food and Drug Administration)-approved drugs shows Polymyxin B displays high binding affinity for SCARB2 protein, disrupts the SCARB2-MYC interaction, decreases MYC activity, and reduces the tumor burden. Our study identifies SCARB2 as a functional driver of HCC and suggests Polymyxin B-based treatment as a targeted therapeutic option for HCC.

Published

2023

2. Structure-Based Virtual Screening towards the Discovery of Novel ULK1 Inhibitors with Anti-HCC Activities

Author

Yang Gao, Ziying Zhou, Tingting Zhang, Situ Xue, Ke Li, and Jiandong Jiang

Subjects

autophagy, hepatocellular carcinoma, ULK1, virtual screening, Organic chemistry, QD241-441

Abstract

There is an urgent need to develop new effective therapies for HCC. Our previous study identified ULK1 as the potential target for HCC therapy and screened the compound XST-14 as a specific inhibitor of ULK1 to suppress HCC progression. However, the poor manufacturability of XST-14 impeded the process of its clinical translation. In this study, we first generated pharmacophore models of ULK1 based on the X-ray structure of UKL1 in complex with ligands. We then screened the Specs chemical library for potential UKL1 inhibitors. By molecular docking, we screened out the 19 compounds through structure-based virtual screening. Through CCK8 activity screening on HCC cells, we found that ZZY-19 displayed obvious cell killing effects on HCC cells. SPR assay indicated that ZZY-19 had a higher binding affinity for ULK1 than XST-14. Moreover, ZZY-19 induced the effects of anti-proliferation, anti-invasion and anti-migration in HCC cells. Mechanistically, ZZY-19 induces autophagy inhibition by reducing the expression of ULK1 on HCC cells. Especially, the combination of ZZY-19 with sorafenib synergistically suppresses the progression of HCC in vivo. Taken together, ZZY-19 was a potential candidate compound that targeted ULK1 and possessed promising anti-HCC activities by inhibiting autophagy.

Published

2022

3. 7-Pyrrolidinethoxy-4′-Methoxyisoflavone Prevents Amyloid β–Induced Injury by Regulating Histamine H3 Receptor-Mediated cAMP/CREB and AKT/GSK3β Pathways

Author

Linlin Wang, Jiansong Fang, Hailun Jiang, Qian Wang, Situ Xue, Zhuorong Li, and Rui Liu

Subjects

acetylcholine, Alzheimer’s disease, amyloid beta-peptide, cyclic AMP response element binding protein, histamine H3 receptor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In studies on the treatment of Alzheimer’s disease (AD), in which cognition is enhanced even modestly or selectively, it has been considered that the histamine H3 receptor (H3R) may be a potential target. In this study, we aimed at evaluating the ability of 7-pyrrolidinethoxy-4′-methoxyisoflavone (indicated as LC1405), a novel potential H3R antagonist identified from our H3R antagonist screening system, to ameliorate amyloid β (Aβ)-induced cognitive deficits, and to explore the underlying mechanisms that are related to H3R-modulated signaling. Our results demonstrated that LC1405 effectively reduced the progression of Aβ-associated disorders, such as improved learning and memory capabilities, preserved tissues from suffering neurodegeneration and ultrastructural abnormalities, and ameliorated cholinergic dysfunction in an APP/PS1 double transgenic mouse model of AD. In an in vitro model, LC1405 protected neuronal cells against copper-induced Aβ toxicity, as demonstrated by the improvement in cell viability and decrease in neuronal apoptotic ratio. In addition, treatment with LC1405 resulted in the up-regulation of acetylcholine (ACh) or histamine release and provided neuroprotection through cellular signaling cascades involving H3R-mediated cAMP/CREB and AKT/GSK3β pathways. Furthermore, the beneficial effects of LC1405 on Aβ-mediated toxicity and H3R-mediated cAMP/CREB and AKT/GSK3β axes were reversed after pharmacological activation of H3R. In conclusion, our results demonstrated that LC1405 blocked Aβ-induced toxicity through H3R-modulated signaling transduction both in vitro and in vivo. The results also suggested that LC1405 might have translational potential as a complementary therapy to control disease progression in AD patients who developed cognitive deficits with H3R-related ACh neurotransmission abnormality.

Published

2019

4. Synthesis and antiviral activity of some novel indole-2-carboxylate derivatives

Author

Situ Xue, Linlin Ma, Rongmei Gao, Yuhuan Li, and Zhuorong Li

Subjects

Indole-2-carboxylate, Broad-spectrum antiviral activity, DNA and RNA virus, SAR, Therapeutics. Pharmacology, RM1-950

Abstract

A series of novel indole-2-carboxylate derivatives were synthesized and assayed to determine their in vitro broad-spectrum antiviral activities. The biological results showed that some of the synthesized compounds exhibited potent broad-spectrum antiviral activity. Notably, compound 8f showed the highest SI value (17.1) to Cox B3 virus. Compound 14f showed both potent inhibitory activity against influenza A (IC50=7.53 μmol/L) and the highest SI value (12.1). SAR results showed that the alkyloxy at the 4-position of indole ring was not crucial to the antiviral activities. Incorporation of an acetyl substituent at the amino group disfavored antiviral activity towards RNA viruses.

Published

2014

5. A Review of Research on the Impact Path of Western Urban and Community Environments on the Risk of Diabete

Author

Yuting HAN, Mingjie SHENG, and Situ XUE

Abstract

The number of people with diabetes in China reached 116 million in 2019, ranking first in the world. Diabetes is a great threat to national health and socio-economic development, which requires multidisciplinary collaborative research and intervention. Based on this, this paper systematically reviews the empirical studies on the impact of urban and community environments on diabetes in western academic fields in recent years. This paper summarizes the impact path driven by influencing factors such as urbanization level, urban form, ethnic culture and residential isolation, as well as commuting mode at the city level, and that driven by influencing factors such as community food environment, community physical activity space, community and surrounding green space, community social environment, as well as noise at the community level. It is pointed out that the above-mentioned environmental factors have an indirect influence on the risk of diabetes mainly through influencing individual lifestyle, physical activity, dietary behavior, psychological stress, sleep and other behavioral and psychological factors. This paper is aimed at providing theoretical reference for the emerging empirical research on the impact of urban built environment on diabetes in China, and providing research support for Health China 2030 strategies.

Published

2023

6. Synthesis and antineoplastic activity of ethylene glycol phenyl aminoethyl ether derivatives as FOXM1 inhibitors

Author

Yan Gao, Jing Geng, Zhuosong Xie, Ziying Zhou, Hexian Yang, Hong Yi, Xiaoyang Han, Situ Xue, and Zhuorong Li

Subjects

Pharmacology, Ovarian Neoplasms, Organic Chemistry, Forkhead Box Protein M1, Antineoplastic Agents, General Medicine, Molecular Docking Simulation, Cell Line, Tumor, Drug Discovery, Humans, Female, Ethylene Glycols, Cell Proliferation, Ethers

Abstract

FOXM1 signalling pathways are highly expressed in multiple human cancers. Based on the crystal structure of the FOXM1 DNA binding domain, our preliminary research found ethylene glycol (4-benzyloxyphenyl) cyclopentylaminoethyl ether XST20, which could inhibit ovarian cancer cell proliferation and showed a medium affinity for the truncated protein FOXM1. This study intended to develop a FOXM1 inhibitor with stronger affinity and higher efficiency to be utilized as a molecular tool and drug candidate. We evaluated the optimization direction through molecular docking and systematically modified the structure of XST20. A novel class of ethylene glycol phenyl aminoethyl ether derivatives were synthesized, their anticancer activity and mechanism were evaluated, and the structure-activity relationship was summarized. Compound S2 showed a stronger affinity for FOXM1 and improved its activity with a broad-spectrum anticancer effect. S2 displayed selective antiproliferative activity against cancer cells with high expression levels of FOXM1 proteins. S2 should be a good chemobiological tool and a potential leading compound for future studies of anticancer drugs targeting FOXM1.

Published

2022

7. SCARB2 Drives Hepatic Carcinoma Initiation by Supporting Cancer Stem Cell Traits and Enhancing MYC Transcriptional Activity

Author

Feng Wang, Yang Gao, Situ Xue, Luyao Zhao, Tingting Zhang, Yun-Xuan Li, Chenxi Zhao, Fan Wu, Ying Liu, Jie Wu, Yechao Yan, JIAN-DONG JIANG, and Ke Li

Subjects

digestive system diseases

Abstract

Cancer stem cells (CSCs) with distinct metabolic features are considered to cause hepatocellular carcinoma (HCC) initiation, metastasis and therapeutic resistance. Here, we performed a metabolic gene CRISPR/Cas9 knockout screen in tumorspheres derived from HCC cells and found that deletion of the scavenger receptor SCARB2 suppressed the CSC traits of HCC cells. Using lineage tracing of the Scarb2 locus in mice, we demonstrated that Scarb2 positive HCC cells showed tumor-initiating activity. Specifically, Cre-mediated recombination with oncogenic MYC expression in Scarb2 positive cells drove HCC tumor formation, as determined by lineage tracing in Scarb2 mice. Knockout of Scarb2 in hepatocytes attenuated HCC initiation and progression by inhibiting CSC self-renewal. Mechanistically, binding of SCARB2 with MYC promoted MYC acetylation by interfering with HDCA3-mediated MYC deacetylation and subsequently enhanced MYC activity. Screening of a database of FDA-approved drugs showed Polymyxin B displayed high binding affinity for SCARB2 protein, disrupted the SCARB2-MYC interaction, decreased MYC activity, and reduced the tumor burden. Our study identifies SCARB2 as a marker and functional driver of HCC CSCs and suggests a targeted therapeutic option for HCC.

Published

2022