Zeng-jie Yang, MD, PhD

Zeng-jie Yang, MD, PhD
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This Fox Chase professor participates in the Undergraduate Summer Research Fellowship
Learn more about Research Volunteering.

Associate Professor

Research Program

NeuroD1, a helix-loop-helix transcription factor, dictates the terminal differentiation of medulloblastoma cells. Inhibition of the histone lysine methyltransferase EZH2 prevents H3K27 trimethylation, resulting in increased NeuroD1 expression and enhanced differentiation in MB cells, which consequently reduces tumor growth.
NeuroD1, a helix-loop-helix transcription factor, dictates the terminal differentiation of medulloblastoma cells. Inhibition of the histone lysine methyltransferase EZH2 prevents H3K27 trimethylation, resulting in increased NeuroD1 expression and enhanced differentiation in MB cells, which consequently reduces tumor growth.

 

Educational Background

  • Post Doc, Cancer Biology, Duke University Medical Center, 2005-2010
  • PhD, Neurogenetics, University of Nottingham, 2005
  • MS, Genetics, Fudan University Medical Center, 2000

People

Research Interests

  • Molecular mechanisms regulating the proliferation and differentiation of neuronal progenitors during cerebellar development
  • Epigenetic/genetic events facilitating the progression of medulloblastoma and neuroblastoma
  • Interactions between tumor cells and stromal cells in brain tumor growth

Lab Overview

Medulloblastoma and neuroblastoma are the two most common pediatric tumors arising in the nervous system. Despite significant progress in development of treatments for these tumors, the mortality rate is still high. Moreover, patients often suffer from severe long-term side effects from the aggressive treatment. Our research seeks to elucidate cellular and molecular mechanisms underlying the initiation and progression of medulloblastoma and neuroblastoma, with the aim of translating the findings into improved strategies for the treatment of these devastating diseases.

Lab Description

Advances in tumor genetics have increasingly linked pediatric neoplasms with disrupted mechanisms of normal development. Medulloblastoma, the most common malignant brain tumor in children, is predominately originated from granule neuron precursors (GNPs) in developing cerebella. Proliferation of cerebellar GNPs is driven by the hedgehog signaling, and uncontrolled proliferation of cerebellar GNPs often results in medulloblastoma formation. Our research seeks to elucidate the cellular and molecular basis for the proliferation and differentiation of cerebellar GNPs during normal development, and investigate how the hedgehog signaling goes awry in cerebellar GNPs, leading to medulloblastoma initiation. 

Tumor development is a multistep process in which tumor cells accumulate genetic and epigenetic mutations/alterations to facilitate tumor progression. These epigenetic/genetic events influence the growth, metastasis and drug responses of tumor cells. We are currently investigating the epigenetic/genetic alterations during the progression of brain tumors including medulloblastoma and neuroblastoma, by NGS and bioinformatic analyses. We hope to define the epigenetic/genetic events critical for brain tumor growth, which may represent novel therapeutic targets for tumor treatment.

Tumor microenvironment including the surrounding blood vessels, immune cells, signaling molecules and the extracellular matrix, plays important role in tumor initiation, progression and metastasis. By using mouse models (genetically engineered mouse models and patient-derived xenograft mouse models), we are examining the cellular composition of tumor microenvironment in medulloblastoma and glioma, and studying the interaction between tumor cells and those supporting cells during brain tumor progression. We hope to find a more effective way to control brain tumor growth, through interfering the communication between tumor cells and their supporting stroma.

Selected Publications

Zhang J, Yang YJ, Li XH, Li G, Mizukami T, Liu Y, Wang Y, Xu GQ, Roder H, Zhang L, Yang ZJ. PDLIM3 supports hedgehog signaling in medulloblastoma by facilitating ciliary formation. Cell Death & Differentiation 30, 1198–1210 (2023). PubMed

Wang QL, Wu H, Hu J, Fu H, Qu YH, Yang YJ, Cai K, Efimov A, Wu MH, Yen T, Wang Y, Yang ZJ. Nestin is required for spindle assembly and cell cycle progression in glioblastoma cells. Molecular Cancer Research 19(10):1651-1665 (2021). PubMed

Guo DC, Wang Y, Cheng Y, Liao S, Hu J, Du F, Xu G, Liu Y, Cai K, Cheung M, Wainwright BJ, Lu Q, Zhao Y, Yang ZJ. Tumor cells generate astrocyte-like cells that contribute to SHH-driven medulloblastoma relapse. Journal of Experimental Medicine 218(9): e20202350 (2021). PubMed

Cheng Y, Liao S, Xu G, Hu J, Guo D, Du F, Contreras A, Cai KQ, Peri S, Wang Y, Corney DC, Noronha AM, Chau LQ, Zhou G, Wiest DL, Bellacosa A, Wechsler-Reya RJ, Yang ZJ. NeuroD1 dictates tumor cell differentiation in medulloblastoma. Cell Reports. 2020; 31(12), 107782. PubMed

Du F, Yuelling L, Lee EH, Wang Y, Zhang L, Zheng CN, Peri S, Cai KQ, Ng JMY, Curran T, Li P, Yang ZJ. Leukotriene synthesis is critical for medulloblastoma tumorigenesis. Clinical Cancer Research. 2019; 25 (21):6475-6486. PubMed

Gordon RE, Zhang L, Peri S, Kuo YM, Du F, Egleston BL, Ng JMY, Andrews AJ, Astsaturov I, Curran T, Yang ZJ. Statins Synergize with Hedgehog Pathway Inhibitors for Treatment of Medulloblastoma. Clinical Cancer Research. 2018; 24(6):1375-1388. PubMed

Liu Y, Yuelling LW, Wang Y, Du F, Gordon RE, O'Brien JA, Ng JMY, Robins S, Lee EH, Liu H, Curran T, Yang ZJ. Astrocytes Promote Medulloblastoma Progression through Hedgehog Secretion. Cancer Research. 2017; 77(23):6692-6703. PubMed

Li P, Lee EH, Du F, Gordon RE, Yuelling LW, Liu Y, Ng JM, Zhang H, Wu J, Korshunov A, Pfister SM, Curran T, Yang ZJ. Nestin Mediates Hedgehog Pathway Tumorigenesis. Cancer Research. 2016; 76 (18): 5573-83. PubMed

Li P, Du F, Yuelling LW, Lin T, Muradimova RE, Tricarica R, Wang J, Enikolopov G, Bellacosa A, Wechsler-Reya RJ, Yang ZJ. A population of Nestin-expressing progenitors in the cerebellum exhibits increased tumorigenicity. Nature Neuroscience. 2013 Dec, 16: 1737-1744. PubMed

Additional Publications

Open Positions

We are recruiting postdoctoral researchers, technicians and graduate students. If you are interested in brain tumor research, and have the passion to explore improved therapeutic strategies to help patients with brain tumors, you are very welcome to join us. Please send your C.V. and a cover letter to Zeng-jie Yang at [email protected].

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This Fox Chase professor participates in the Undergraduate Summer Research Fellowship
Learn more about Research Volunteering.