Your search keyword '"Zhuang, Lisha"' showing total 5 results

1. CSTF2 mediated mRNA N6-methyladenosine modification drives pancreatic ductal adenocarcinoma m6A subtypes.

Author

Zheng, Yanfen, Li, Xingyang, Deng, Shuang, Zhao, Hongzhe, Ye, Ying, Zhang, Shaoping, Huang, Xudong, Bai, Ruihong, Zhuang, Lisha, Zhou, Quanbo, Li, Mei, Su, Jiachun, Li, Rui, Bao, Xiaoqiong, Zeng, Lingxing, Chen, Rufu, Zheng, Jian, Lin, Dongxin, He, Chuan, and Zhang, Jialiang

Subjects

PANCREATIC duct, ADENOCARCINOMA, INDIVIDUALIZED medicine, ADENOSINES, TRANSCRIPTOMES, OCHRATOXINS

Abstract

N6-methyladenosine (m6A) modification of gene transcripts plays critical roles in cancer. Here we report transcriptomic m6A profiling in 98 tissue samples from 65 individuals with pancreatic ductal adenocarcinoma (PDAC). We identify 17,996 m6A peaks with 195 hyper-methylated and 93 hypo-methylated in PDAC compared with adjacent normal tissues. The differential m6A modifications distinguish two PDAC subtypes with different prognosis outcomes. The formation of the two subtypes is driven by a newly identified m6A regulator CSTF2 that co-transcriptionally regulates m6A installation through slowing the RNA Pol II elongation rate during gene transcription. We find that most of the CSTF2-regulated m6As have positive effects on the RNA level of host genes, and CSTF2-regulated m6As are mainly recognized by IGF2BP2, an m6A reader that stabilizes mRNAs. These results provide a promising PDAC subtyping strategy and potential therapeutic targets for precision medicine of PDAC. N6-methyladenosine (m6A) modification has important implications in different cancer subtypes. Here, the authors perform transcriptomic m6A profiling to identify two subtypes of pancreatic ductal adenocarcinoma with differential m6A modifications and different clinical outcomes, which is driven by m6A regulator CSTF2. [ABSTRACT FROM AUTHOR]

Published

2023

2. Detection of piRNA‐54265 in human serum: evidence and significance.

Author

Mai, Dongmei, Ye, Ying, Zhuang, Lisha, Zheng, Jian, and Lin, Dongxin

Published

2023

3. Genome-wide identification and characterization of circular RNA m6A modification in pancreatic cancer.

Author

Ye, Ying, Feng, Weiyi, Zhang, Jialiang, Zhu, Kaiyu, Huang, Xudong, Pan, Ling, Su, Jiachun, Zheng, Yanfen, Li, Rui, Deng, Shuang, Bai, Ruihong, Zhuang, Lisha, Wei, Lusheng, Deng, Junge, Li, Mei, Chen, Rufu, Lin, Dongxin, Zuo, Zhixiang, and Zheng, Jian

Subjects

CIRCULAR RNA, RNA modification & restriction, PANCREATIC cancer, PANCREATIC duct, EUKARYOTIC cells

Abstract

Background: N6-methyladenosine (m6A) is the most abundant modification of RNA in eukaryotic cells and play critical roles in cancer. While most related studies focus on m6A modifications in linear RNA, transcriptome-wide profiling and exploration of m6A modification in circular RNAs in cancer is still lacking. Methods: For the detection of m6A modification in circRNAs, we developed a new bioinformatics tools called Circm6A and applied it to the m6A-seq data of 77 tissue samples from 58 individuals with pancreatic ductal adenocarcinoma (PDAC). Results: Circm6A performs better than the existing circRNA identification tools, which achieved highest F1 score among these tools in the detection of circRNAs with m6A modifications. By using Circm6A, we identified a total of 8807 m6A-circRNAs from our m6A-seq data. The m6A-circRNAs tend to be hypermethylated in PDAC tumor tissues compared with normal tissues. The hypermethylated m6A-circRNAs were associated with a significant gain of circRNA-mRNA coexpression network, leading to the dysregulation of many important cancer-related pathways. Moreover, we found the cues that hypermethylated m6A-circRNAs may promote the circularization and translation of circRNAs. Conclusions: These comprehensive findings further bridged the knowledge gaps between m6A modification and circRNAs fields by depicting the m6A-circRNAs genomic landscape of PDAC patients and revealed the emerging roles played by m6A-circRNAs in pancreatic cancer. Circm6A is available at https://github.com/canceromics/circm6a. [ABSTRACT FROM AUTHOR]

Published

2021

4. LINC00842 inactivates transcription co-regulator PGC-1α to promote pancreatic cancer malignancy through metabolic remodelling.

Author

Huang, Xudong, Pan, Ling, Zuo, Zhixiang, Li, Mei, Zeng, Lingxing, Li, Rui, Ye, Ying, Zhang, Jialiang, Wu, Guandi, Bai, Ruihong, Zhuang, Lisha, Wei, Lusheng, Zheng, Yanfen, Su, Jiachun, Deng, Junge, Deng, Shuang, Zhang, Shaoping, Zhu, Shihao, Che, Xu, and Wang, Chengfeng

Subjects

PANCREATIC cancer, LINCRNA, SIRTUINS, TRANSCRIPTION factors, FATTY acids

Abstract

The molecular mechanism underlying pancreatic ductal adenocarcinoma (PDAC) malignancy remains unclear. Here, we characterize a long intergenic non-coding RNA LINC00842 that plays a role in PDAC progression. LINC00842 expression is upregulated in PDAC and induced by high concentration of glucose via transcription factor YY1. LINC00842 binds to and prevents acetylated PGC-1α from deacetylation by deacetylase SIRT1 to form PGC-1α, an important transcription co-factor in regulating cellular metabolism. LINC00842 overexpression causes metabolic switch from mitochondrial oxidative catabolic process to fatty acid synthesis, enhancing the malignant phenotypes of PDAC cells. High LINC00842 levels are correlated with elevated acetylated- PGC-1α levels in PDAC and poor patient survival. Decreasing LINC00842 level and inhibiting fatty acid synthase activity significantly repress PDAC growth and invasiveness in mouse pancreatic xenograft or patient-derived xenograft models. These results demonstrate that LINC00842 plays a role in promoting PDAC malignancy and thus might serve as a druggable target. The implications of long intergenic non-coding RNAs (lincRNAs) on cancer metabolism is unclear. Here, the authors identify that LINC00842 binds to PGC-1α and prevents PGC-1α from deacetylation by SIRT1, resulting in a metabolic reprogramming in pancreatic cancer cells. [ABSTRACT FROM AUTHOR]

Published

2021

5. Phosphorylation of PLIN3 by AMPK promotes dispersion of lipid droplets during starvation.

Author

Zhu, Jianxi, Xu, Mingyang, Liu, Yi, Zhuang, Lisha, Ying, Kejun, Liu, Feng, Liu, Dan, Ma, Wenbin, and Songyang, Zhou

Published

2019