Ping Qi scite author profile

Ping Qi

5Publications

194Citation Statements Received

147Citation Statements Given

How they've been cited

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Affiliations

Shandong University, Zhengzhou University, Tianjin First Center Hospital

Publications

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Sox2 Communicates with Tregs Through CCL1 to Promote the Stemness Property of Breast Cancer Cells

Dong

et al. 2017

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As an important component of tumor microenvrionment, CD4+CD25+ Tregs reduce antitumor immunity, promote angiogenesis and metastasis in breast cancer. However, their function in regulating the “sternness” of tumor cells and the communication between Tregs and cancer stem cells (CSCs) remain elusive. Here, we disclose that the primarily cultured Tregs isolated from breast-tumor-bearing Foxp3-EGFP mouse upregulate the stemness property of breast cancer cells. Tregs increased the side-population and the Aldehyde dehydrogenase-bright population of mouse breast cancer cells, promoted their sphere formation in a paracrine manner, and enhanced the expression of stemness genes, such as Sox2 and so forth. In addition, Tregs increased tumorigenesis, metastasis and chemoresistance of breast cancer cells. Furthermore, Sox2-overexpression tumor cells acitivated NF-κB-CCL1 signaling to recruit Tregs through reducing the binding of H3K27Me3 on promoter regions of p65 and Ccl1. These findings reveal the functional interaction between Tregs and CSCs and indicate that targeting on the communication between them is a promising strategy in breast cancer therapy.

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Discovery of orally active anticancer candidate CFI-400945 derived from biologically promising spirooxindoles: Success and challenges

et al. 2015

European Journal of Medicinal Chemistry

160

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Ti3C2-MXene composite films functionalized with polypyrrole and ionic liquid-based microemulsion particles for supercapacitor applications

Fan

Zhao

et al. 2022

Chemical Engineering Journal

105

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Design, synthesis and biological evaluation of novel steroidal spiro-oxindoles as potent antiproliferative agents

Shi

et al. 2014

The Journal of Steroid Biochemistry and Molecular Biology

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Natural Product-Derived Spirooxindole Fragments Serve as Privileged Substructures for Discovery of New Anticancer Agents

Zheng¹,

Shi²,

Qi³

et al. 2016

ACAMC

117

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The utility of natural products for identifying anticancer agents has been highly pursued in the last decades and over 100 drug molecules in clinic are natural products or natural product-derived compounds. Natural products are believed to be able to cover unexplored chemical space that is normally not occupied by commercially available molecule libraries. However, the low abundance and synthetic intractability of natural products have limited their applications in drug discovery. Recently, the identification of biologically relevant fragments derived from biologically validated natural products has been recognized as a powerful strategy in searching new biological probes and drugs. The spirocyclic oxindoles, as privileged structural scaffolds, have shown their potential in designing new drugs. Several anticancer drug candidates such as SAR405838, RO8994, CFI-400945 and their bioisosteres are undergoing clinical trials or preclinical studies. To highlight the significant progress, we focus on illustrating the discovery of SAR405838, RO8994, CFI-400945 and their bioisosteres for cancer therapy using substructure-based strategies and discussing modes of action, binding models and preclinical data.

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Ping Qi

Sox2 Communicates with Tregs Through CCL1 to Promote the Stemness Property of Breast Cancer Cells

Discovery of orally active anticancer candidate CFI-400945 derived from biologically promising spirooxindoles: Success and challenges

Ti3C2-MXene composite films functionalized with polypyrrole and ionic liquid-based microemulsion particles for supercapacitor applications

Design, synthesis and biological evaluation of novel steroidal spiro-oxindoles as potent antiproliferative agents

Natural Product-Derived Spirooxindole Fragments Serve as Privileged Substructures for Discovery of New Anticancer Agents

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