Your search keyword '"Shuping Zhuang"' showing total 6 results

1. A genetic map of the chromatin regulators to drug response in cancer cells

Author

Bo Chen, Pengfei Li, Mingyue Liu, Kaidong Liu, Min Zou, Yiding Geng, Shuping Zhuang, Huanhuan Xu, Linzhu Wang, Tingting Chen, Yawei Li, Zhangxiang Zhao, Lishuang Qi, and Yunyan Gu

Subjects

DNA-Binding Proteins, Vorinostat, Colonic Neoplasms, Humans, General Medicine, Adenocarcinoma, General Biochemistry, Genetics and Molecular Biology, Biomarkers, Chromatin

Abstract

Background Diverse drug vulnerabilities owing to the Chromatin regulators (CRs) genetic interaction across various cancers, but the identification of CRs genetic interaction remains challenging. Methods In order to provide a global view of the CRs genetic interaction in cancer cells, we developed a method to identify potential drug response-related CRs genetic interactions for specific cancer types by integrating the screen of CRISPR-Cas9 and pharmacogenomic response datasets. Results Totally, 625 drug response-related CRs synthetic lethality (CSL) interactions and 288 CRs synthetic viability (CSV) interactions were detected. Systematically network analysis presented CRs genetic interactions have biological function relationship. Furthermore, we validated CRs genetic interactions induce multiple omics deregulation in The Cancer Genome Atlas. We revealed the colon adenocarcinoma patients (COAD) with mutations of a CRs set (EP300, MSH6, NSD2 and TRRAP) mediate a better survival with low expression of MAP2 and could benefit from taxnes. While the COAD patients carrying at least one of the CSV interactions in Vorinostat CSV module confer a poor prognosis and may be resistant to Vorinostat treatment. Conclusions The CRs genetic interaction map provides a rich resource to investigate cancer-associated CRs genetic interaction and proposes a powerful strategy of biomarker discovery to guide the rational use of agents in cancer therapy.

Published

2022

2. Revealing biomarkers associated with PARP inhibitors based on genetic interactions in cancer genome

Author

Chengyu Wang, Yuquan Wang, Zhangxiang Zhao, Qi Dong, Liqiang Ai, Haihai Liang, Tingting Chen, Bo Chen, Yawei Li, Lishuang Qi, Mingyue Liu, Yaoyao Liu, Yunyan Gu, and Shuping Zhuang

Subjects

Veliparib, Biophysics, Resistant biomarkers, Synthetic lethality, Biology, Biochemistry, Sensitive biomarkers, chemistry.chemical_compound, PARP1, Structural Biology, Genetics, medicine, PARP inhibitors, ComputingMethodologies_COMPUTERGRAPHICS, EGFR inhibitors, Genetic interactions, Cancer, medicine.disease, Computer Science Applications, chemistry, Pharmacogenomics, PARP inhibitor, Mutation, Cancer research, Erlotinib, TP248.13-248.65, Research Article, medicine.drug, Biotechnology

Abstract

Graphical abstract, Highlights • Candidate genomic biomarkers were revealed for PARPis from genetic interactions. • Gain-of-function mutation of EGFR induced resistance to PARP inhibitors. • Lung cancer may benefit from combination of PARP inhibitor and EGFR inhibitor. • Gene set of biomarkers for PARPis contributes to the prognosis of cancer patients., Poly (ADPribose) polymerase inhibitors (PARPis) are clinically approved drugs designed according to the concept of synthetic lethality (SL) interaction. It is crucial to expand the scale of patients who can benefit from PARPis, and overcome drug resistance associated with it. Genetic interactions (GIs) include SL and synthetic viability (SV) that participate in drug response in cancer cells. Based on the hypothesis that mutated genes with SL or SV interactions with PARP1/2/3 are potential sensitive or resistant PARPis biomarkers, respectively, we developed a novel computational method to identify them. We analyzed fitness variation of cell lines to identify PARP1/2/3-related GIs according to CRISPR/Cas9 and RNA interference functional screens. Potential resistant/sensitive mutated genes were identified using pharmacogenomic datasets. We identified 41 candidate resistant and 130 candidate sensitive PARPi-response related genes, and observed that EGFR with gain-of-function mutation induced PARPi resistance, and predicted a combination therapy with PARP inhibitor (veliparib) and EGFR inhibitor (erlotinib) for lung cancer. We also revealed that a resistant gene set (TNN, PLEC, and TRIP12) in lower grade glioma and a sensitive gene set (BRCA2, TOP3A, and ASCC3) in ovarian cancer, which were associated with prognosis. Thus, cancer genome-derived GIs provide new insights for identifying PARPi biomarkers and a new avenue for precision therapeutics.

Published

2021

3. Upregulation of CXCL1 and LY9 contributes to BRCAness in ovarian cancer and mediates response to PARPi and immune checkpoint blockade

Author

Tingting Chen, Tong Yu, Shuping Zhuang, Yiding Geng, Junwen Xue, Jiayi Wang, Liqiang Ai, Bo Chen, Zhangxiang Zhao, Yawei Li, Jinghao Wang, Haihai Liang, Yan Xu, and Yunyan Gu

Subjects

BRCA2 Protein, Ovarian Neoplasms, Cancer Research, BRCA1 Protein, Chemokine CXCL1, Carcinoma, Ovarian Epithelial, Poly(ADP-ribose) Polymerase Inhibitors, Article, Up-Regulation, Oncology, Signaling Lymphocytic Activation Molecule Family, Cell Line, Tumor, Humans, Female, Homologous Recombination, Immune Checkpoint Inhibitors

Abstract

BACKGROUND: Mutations in BRCA1 or BRCA2 (BRCA1/2) cause homologous recombination deficiency (HRD). Ovarian cancer (OvCa) patients harbouring HRD beyond BRCA1/2 mutation result in a state referred to as “BRCAness”. OvCa with BRCAness could benefit from PARP inhibitors. This study aims to identify a signature to detect the BRCAness population at the transcriptome level. METHODS: We used a rank-based algorithm to develop a qualitative BRCAness signature for OvCa. Upregulation of CXCL1 with downregulation of SV2A and upregulation of LY9 with downregulation of CHRNB3 were constructed as the BRCAness signature (2 gene pairs, 2-GPS) for OvCa. RESULTS: OvCa samples that were classified as BRCAness by 2-GPS showed improved overall survival, progression-free survival and exhibited increased multi-omics alterations in homologous recombination genes and enhanced sensitivity to immune checkpoint blockade. BRCAness cells were sensitive to PARP inhibitors. By biological experiments, we validated SKOV3 cells and patients with HRD exhibited higher expression of CXCL1 than SV2A and higher expression of LY9 than CHRNB3 at mRNA level. Both SKOV3 and A2780 with HRD were sensitive to mitomycin C, cisplatin and olaparib. CONCLUSIONS: In conclusion, 2-GPS could robustly predict BRCAness OvCa at the individual level and extend the population who may benefit from PARP inhibitors.

Published

2022

4. Pan-cancer multi-omics analyses reveal crosstalk between the Hippo and immune signaling pathways in the tumor microenvironment

Author

Yunyan Gu, Tingting Chen, Bo Chen, Yaoyao Liu, Zhangxiang Zhao, Qi Dong, Mingyue Liu, Min Yang, Haihai Liang, Shuping Zhuang, Tong Zhu, Fan Yang, and Chengyu Wang

Subjects

Proteomics, animal structures, Esophageal Neoplasms, Carcinogenesis, Biophysics, Receptors, Antigen, T-Cell, Receptors, Antigen, B-Cell, Biology, CD8-Positive T-Lymphocytes, medicine.disease_cause, Biochemistry, Immune system, Structural Biology, Cell Movement, Neoplasms, Terminology as Topic, Genetics, medicine, Tumor Microenvironment, Humans, Hippo Signaling Pathway, Neoplasm Invasiveness, Cyclic AMP Response Element-Binding Protein, Molecular Biology, Transcription factor, YAP1, Tumor microenvironment, Hippo signaling pathway, Gene Expression Profiling, YAP-Signaling Proteins, Cell Biology, biochemical phenomena, metabolism, and nutrition, Prognosis, Survival Analysis, Endometrial Neoplasms, body regions, Gene Expression Regulation, Neoplastic, Crosstalk (biology), Hippo signaling, Cancer research, bacteria, Female

Abstract

The Hippo signaling pathway is critical for carcinogenesis. However, the roles of the Hippo signaling pathway in the tumor immune microenvironment have been rarely investigated. This study systematically analyzed the relationship between the Hippo signaling pathway and immune cell infiltration across 32 cancer types. Both bioinformatics analyses and biological experiments revealed that the downstream effector of Hippo signaling YAP1 might inhibit CD8+ T cell infiltration by upregulating the expression of the transcription factor CREB1 in uterine corpus endometrial carcinoma. In addition, esophageal carcinoma (ESCA) patients were classified into three subtypes based on the Hippo-immune gene panel. The subtypes of ESCA had distinct characteristics in immune cell infiltration, immune pathways, and prognosis. Thus, this study also reveals a new classification of the immune subtypes with prognostic characteristics in ESCA.

Published

2021

5. Discovering a qualitative transcriptional signature of homologous recombination defectiveness for prostate cancer

Author

Liqiang Ai, Kaidong Liu, Zhangxiang Zhao, Yunyan Gu, Yuquan Wang, Shuping Zhuang, Tingting Chen, Bo Chen, Xia Li, Min Zou, Huanhuan Xu, and Yawei Li

Subjects

Multidisciplinary, Science, Cancer, Genomics, Computational biology, Biology, medicine.disease, Article, Transcriptome, Prostate cancer, medicine, Homologous Recombination Deficiency, Homologous recombination, Transcriptomics, Gene, Function (biology)

Abstract

Summary The discovery of homologous recombination deficiency (HRD) biomarkers in prostate cancer is important for patients who will benefit from poly ADP-ribose polymerase inhibitor (PARPi). Here, we developed a transcriptional homologous recombination defectiveness (HRDness) signature, comprising 16 gene pairs (16-GPS), for prostate cancer by a relative expression ordering (REO)-based discovery procedure. Subsequently, two newly subtypes classified by 16-GPS showed a higher significance level in various clinicopathological and HRD features than subtypes obtained by other methods, such as HRDetect. HRDness subtype also displayed more aggressive features and higher genomics scores than non-HRDness in three independent datasets. HRDness prostate cancer cells were more sensitive to PARPi than non-HRDness. Moreover, the HRDness samples showed distinct multi-omics characteristics related to homologous recombination repair function loss. Overall, the newly proposed qualitative signature can robustly determine the HRD status for prostate cancer at the personalized level, and especially be an auxiliary tool for PARPi treatment strategy., Graphical abstract, Highlights • 16 gene pairs (16-GPS) could predict HRDness for prostate cancer at individual level • HRDness samples classified by 16-GPS showed HRD molecular and clinical features • HRDness cells classified by 16-GPS tend to be sensitive to PARPi, Cancer; Genomics; Transcriptomics

Published

2021

6. A transcriptional signature detects homologous recombination deficiency in pancreatic cancer at the individual level

Author

Yuquan Wang, Yawei Li, Linzhu Wang, Kaidong Liu, Zhangxiang Zhao, Tingting Chen, Liqiang Ai, Yunyan Gu, Zhiqiang Chang, Min Zou, Huanhuan Xu, Yiding Geng, and Shuping Zhuang

Subjects

transcriptional signature, pancreatic cancer, RM1-950, Biology, medicine.disease, Olaparib, chemistry.chemical_compound, Immune system, PARP inhibitor, chemistry, Cell culture, homologous recombination deficiency, Pancreatic cancer, Drug Discovery, medicine, Cancer research, Molecular Medicine, Original Article, Therapeutics. Pharmacology, Gene, CD8, Epigenomics

Abstract

Pancreatic cancer (PC) with homologous recombination deficiency (HRD) has been reported to benefit from poly ADP-ribose polymerase (PARP) inhibitors. However, accurate identification of HRD status for PC patients from the transcriptional level is still a great challenge. Here, based on a relative expression ordering (REO)-based algorithm, we developed an HRD signature including 24 gene pairs (24-GPS) using PC transcriptional profiles from The Cancer Genome Atlas (TCGA). HRD samples classified by 24-GPS showed worse overall survival (p = 4.4E-3 for TCGA; p = 1.2E-3 for International Cancer Genome Consortium-Australia cohort; p = 6.4E-2 for GSE17891; p = 7.5E-2 for GSE57495) and higher HRD scores than non-HRD samples (p = 1.4E-4). HRD samples showed highly unstable genomic characteristics and also displayed HRD-related alterations at the epigenomic and proteomic levels. Moreover, HRD cell lines identified by 24-GPS tended to be sensitive to PARP inhibitors (p = 6.6E-2 for olaparib; p = 2.6E-3 for niraparib). Compared with the non-HRD group, the HRD group presented lower immune scores and CD4/CD8 T cell infiltration proportion. Interestingly, PC tumor cells with co-inhibition of PARP-related genes and ATR showed reduced survival ability. In conclusion, 24-GPS can robustly identify PC patients with HRD status at the individualized level., Graphical abstract, Gu et al. developed a qualitative transcriptional signature (24 gene pairs, 24-GPS) that could efficiently identify homologous recombination deficiency for pancreatic cancer at the individual level. 24-GPS has potential implications for selecting pancreatic cancer patients who may benefit from PARP inhibitors in the clinic.

Published

2021