Your search keyword '"Zhongzhong Ji"' showing total 2 results

1. ADORA2A-driven proline synthesis triggers epigenetic reprogramming in neuroendocrine prostate and lung cancers.

Author

Na Jing, Kai Zhang, Xinyu Chen, Kaiyuan Liu, Jinming Wang, Lingling Xiao, Wentian Zhang, Pengfei Ma, Penghui Xu, Chaping Cheng, Deng Wang, Huifang Zhao, Yuman He, Zhongzhong Ji, Zhixiang Xin, Yujiao Sun, Yingchao Zhang, Wei Bao, Yiming Gong, and Liancheng Fan

Subjects

*LUNG cancer, *PROSTATE cancer, *PROLINE, *PHENOTYPIC plasticity, *PROLINE metabolism, *ANDROGEN receptors

Abstract

Cell lineage plasticity is one of the major causes for the failure of targeted therapies in various cancers. However, the driver and actionable drug targets in promoting cancer cell lineage plasticity are scarcely identified. Here, we found that a G proteincoupled receptor, ADORA2A, is specifically upregulated during neuroendocrine differentiation, a common form of lineage plasticity in prostate cancer and lung cancer following targeted therapies. Activation of the ADORA2A signaling rewires the proline metabolism via an ERK/MYC/PYCR cascade. Increased proline synthesis promotes deacetylases SIRT6/7-mediated deacetylation of histone H3 at lysine 27 (H3K27), and thereby biases a global transcriptional output toward a neuroendocrine lineage profile. Ablation of Adora2a in genetically engineered mouse models inhibits the development and progression of neuroendocrine prostate and lung cancers, and, intriguingly, prevents the adenocarcinoma-to-neuroendocrine phenotypic transition. Importantly, pharmacological blockade of ADORA2A profoundly represses neuroendocrine prostate and lung cancer growth in vivo. Therefore, we believe that ADORA2A can be used as a promising therapeutic target to govern the epigenetic reprogramming in neuroendocrine malignancies. [ABSTRACT FROM AUTHOR]

Published

2023

2. Shp2 and Pten have antagonistic roles in myeloproliferation but cooperate to promote erythropoiesis in mammals.

Author

Helen He Zhu, Xiaolin Luo, Kaiqing Zhang, Jian Cui, Huifang Zhao, Zhongzhong Ji, Zhicheng Zhou, Jufang Yao, Lifan Zeng, Wei-Qiang Gao, Zhong-Yin Zhang, Gen-Sheng Feng, and Kaihong Ji

Subjects

*PHOSPHATASES, *HOMOLOGY (Biochemistry), *ERYTHROPOIESIS, *PROTEIN-tyrosine phosphatase, *LEUKEMIA etiology

Abstract

Previous data suggested a negative role of phosphatase and tensin homolog (Pten) and a positive function of SH2-containing tyrosine phosphatase (Shp2)/Ptpn11 in myelopoiesis and leukemogenesis. Herein we demonstrate that ablating Shp2 indeed suppressed the myeloproliferative effect of Pten loss, indicating directly opposing functions between pathways regulated by these two enzymes. Surprisingly, the Shp2 and Pten double-knockout mice suffered lethal anemia, a phenotype that reveals previously unappreciated cooperative roles of Pten and Shp2 in erythropoiesis. The lethal anemia was caused collectively by skewed progenitor differentiation and shortened erythrocyte lifespan. Consistently, treatment of Pten-deficient mice with a specific Shp2 inhibitor suppressed myeloproliferative neoplasm while causing anemia. These results identify concerted actions of Pten and Shp2 in promoting erythropoiesis, while acting antagonistically in myeloproliferative neoplasm development. This study illustrates cell type-specific signal cross-talk in blood cell lineages, and will guide better design of pharmaceuticals for leukemia and other types of cancer in the era of precision medicine. [ABSTRACT FROM AUTHOR]

Published

2015