Projects per year
Personal profile
Personal profile
Dr. Cao earned his Ph.D. in Pathology from the University of Michigan in 2008. He was a Research Investigator in the Department of Pathology at the University of Michigan before becoming a member of the Houston Methodist Research Institute in 2013. Dr. Cao is currently an affiliate member of the Houston Methodist Research Institute and is Associate Professor of Urology at Northwestern University.
Research interests
Dr. Cao has been dedicated to characterizing the role of EZH2 in cancer progression. Here is a sampling of his laboratory’s major discoveries:
1-EZH2 transcript and protein levels are consistently elevated in metastatic prostate cancer and aggressive breast carcinoma compared with normal epithelia. EZH2 expression is strongly associated with a metastases- and disease-free prognosis and overall survival.
2-EZH2 regulates several tumor suppressors, including ADRB2, CDH1, rap1GAP, and Slit2. EZH2 overexpression induced epithelial cell invasion and anchorage-independent growth. However, stable EZH2 knockdown inhibited tumor growth of DU145 prostate cancer cells following murine xenograft, indicating EZH2 as a potential therapeutic target for cancer. Companies (e.g., Novartis and GSK) are developing drugs against EZH2.
3-MicroRNA (miR)-101 represses EZH2. miR-101-deficiency yields EZH2 overexpression in cancer, including prostate cancer progression. CGH analysis and genomic DNA qPCR demonstrated that loss of miR-101-encoding genomic regions results in EZH2 overexpression and cancer progression. Dr. Cao was awarded the Department of Defense Prostate Cancer Research Program Fellowship for this work.
4-Dr. Cao discovered a coordinated regulation axis between PRC1 and PRC2, which are elevated in cancer. PRC2 epigenetically regulates miRNAs that repress the PRC1 proteins BMI1 and RING2. These miRNAs play critical roles in tumor growth and cancer stem cell self-renewal. In cancer, EZH2 correlates negatively with PRC2-repressed miRNAs but positively with BMI1, RING2, and their substrate ubiquityl-H2A levels. An epigenetic link between H3K27me3 and ubiquityl-H2A mediated by PRC2-regulated miRNAs was also identified.
5-Mass spectrometric analysis revealed that the PRC2 core protein EED directly interacts with BMI1 and RING1/2. EED-PRC1 interactions attenuate PRC2 histone methyltransferase activities, but enhance PRC1 E3 ubiquitin ligase activities. EED also directly recruits PRC1 to its target genomic loci, suggesting an integral role for EED as an epigenetic exchange factor coordinating PRC1 and PRC2 activities.
Education/Academic qualification
Postdoctoral Fellowship, Michigan Center for Translational Pathology, University of Michigan
Cell Biology, MS, Peking University
Pathology, PhD, University of Michigan
External positions
Associate Professor, Urology, Northwestern University
Jul 1 2018 → …
Research Area Keywords
- Cancer
Free-text keywords
- Cancer
- Epigenetics
- Prostate cancer
- Breast cancer
- microRNA
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Collaborations and top research areas from the last five years
Projects
- 7 Finished
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Computational epigenetics modeling of cell identity genes
Cao, Q. (Project Director), Cooke, J. P. (Key Personnel) & Fang, L. (Key Personnel)
7/1/18 → 11/1/20
Project: Federal Funding Agencies
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Role of S-nitrosylation in Transdifferentiation
Cooke, J. P. (PI) & Cao, Q. (Key Personnel)
4/1/18 → 11/30/22
Project: Federal Funding Agencies
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Combinational Targeting EZH2 and PARP1 in Prostate Cancer
Cao, Q. (PI) & Hu, T. (Key Personnel)
9/1/17 → 6/30/18
Project: Federal Funding Agencies
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The inhibitory network between EZH2 and PARP1 in triple-negative breast cancer
Cao, Q. (PI), Chang, J. C. (Key Personnel) & Hu, T. (Key Personnel)
3/15/17 → 6/30/18
Project: Federal Funding Agencies
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The EZH2 and Chromosomal Passenger Complex Network in Prostate cancer
Cao, Q. (PI)
1/1/16 → 6/30/18
Project: Non Profit
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2′-O-methylation at internal sites on mRNA promotes mRNA stability
Li, Y., Yi, Y., Gao, X., Wang, X., Zhao, D., Wang, R., Zhang, L. S., Gao, B., Zhang, Y., Zhang, L., Cao, Q. & Chen, K., Jun 20 2024, In: Molecular Cell. 84, 12, p. 2320-2336.e6Research output: Contribution to journal › Article › peer-review
2 Scopus citations -
The Human Soluble NKG2D Ligand Differentially Impacts Tumorigenicity and Progression in Temporal and Model-Dependent Modes
Serritella, A. V., Saenz-Lopez Larrocha, P., Dhar, P., Liu, S., Medd, M. M., Jia, S., Cao, Q. & Wu, J. D., Jan 2024, In: Biomedicines. 12, 1, 196.Research output: Contribution to journal › Article › peer-review
Open Access -
The therapeutic potential of targeting the CHD protein family in cancer
Zhang, M., Wu, K., Zhang, W., Lin, X., Cao, Q., Zhang, L. & Chen, K., Apr 2024, In: Pharmacology and Therapeutics. 256, 108610.Research output: Contribution to journal › Review article › peer-review
1 Scopus citations -
Epigenetic landscape reveals MECOM as an endothelial lineage regulator
Lv, J., Meng, S., Gu, Q., Zheng, R., Gao, X., Kim, J. D., Chen, M., Xia, B., Zuo, Y., Zhu, S., Zhao, D., Li, Y., Wang, G., Wang, X., Meng, Q., Cao, Q., Cooke, J. P., Fang, L., Chen, K. & Zhang, L., Apr 25 2023, In: Nature Communications. 14, 1, p. 2390 2390.Research output: Contribution to journal › Article › peer-review
Open Access8 Scopus citations -
Low RNA stability signifies increased post-transcriptional regulation of cell identity genes
Li, Y., Yi, Y., Lv, J., Gao, X., Yu, Y., Babu, S. S., Bruno, I., Zhao, D., Xia, B., Peng, W., Zhu, J., Chen, H., Zhang, L., Cao, Q. & Chen, K., Jul 7 2023, In: Nucleic Acids Research. 51, 12, p. 6020-6038 19 p.Research output: Contribution to journal › Article › peer-review
Open Access13 Scopus citations