Your search keyword '"Lin, Chunhua"' showing total 6 results

1. HOXD8 suppresses renal cell carcinoma growth by upregulating SHMT1 expression.

Author

Yang, Yang, Zhang, Minghui, Zhao, Yaxuan, Deng, Tingzhi, Zhou, Xiang, Qian, Hanxu, Wang, Mengxuan, Zhang, Chuanchuan, Huo, Zhengjin, Mao, Zijun, Shao, Zhufeng, Liu, Mengxue, Yang, Chunhua, Lin, Chunhua, Xu, Fuyi, Tian, Geng, and Zhang, Yin

Abstract

Amplification of amino acids synthesis is reported to promote tumorigenesis. The serine/glycine biosynthesis pathway is a reversible conversion of serine and glycine catalyzed by cytoplasmic serine hydroxymethyltransferase (SHMT)1 and mitochondrial SHMT2; however, the role of SHTM1 in renal cell carcinoma (RCC) is still unclear. We found that low SHMT1 expression is correlated with poor survival of RCC patients. The in vitro study showed that overexpression of SHMT1 suppressed RCC proliferation and migration. In the mouse tumor model, SHMT1 significantly retarded RCC tumor growth. Furthermore, by gene network analysis, we found several SHMT1‐related genes, among which homeobox D8 (HOXD8) was identified as the SHMT1 regulator. Knockdown of HOXD8 decreased SHMT1 expression, resulting in faster RCC growth, and rescued the SHMT1 overexpression‐induced cell migration defects. Additionally, ChIP assay found the binding site of HOXD8 to SHMT1 promoter was at the −456~−254 bp region. Taken together, SHMT1 functions as a tumor suppressor in RCC. The transcription factor HOXD8 can promote SHMT1 expression and suppress RCC cell proliferation and migration, which provides new mechanisms of SHMT1 in RCC tumor growth and might be used as a potential therapeutic target candidate for clinical treatment. [ABSTRACT FROM AUTHOR]

Published

2023

2. Joint analysis of WES and RNA‐Seq identify signature genes related to metastasis in prostate cancer.

Author

Xiang, Chongjun, Li, Yue, Wang, Wenting, Tao, Huiying, Liang, Ning, Wu, Shuang, Yu, Tianxi, Cui, Xin, Xie, Yaqi, Zuo, Hongwei, Lin, Chunhua, and Xu, Fuyi

Subjects

PROSTATE cancer, METASTASIS, RNA sequencing, GENES, CANCER invasiveness, ARACHIDONIC acid, GENE ontology

Abstract

Prostate cancer (PCa) has a certain degree of heritability, and metastasis occurs as cancer progresses. However, its underlying mechanism remains largely unknown. We sequenced four cases of cancer without metastasis, four metastatic cancer, and four benign hyperplasia tissues as controls. A total of 1839 damaging mutations were identified. Pathway analysis, gene clustering, and weighted gene co‐expression network analysis were employed to find characteristics associated with metastasis. Chr19 had the most mutation density and 1p36 had the highest mutation frequency across the genome. These mutations occurred in 1630 genes, including the most frequently mutated genes TTN and PLEC, and dozens of metastasis‐related genes, such as FOXA1, NCOA1, CD34, and BRCA2. Ras signalling and arachidonic acid metabolism were uniquely enriched in metastatic cancer. Gene programmes 10 and 11 showed the signatures indicating the occurrence of metastasis better. A module (135 genes) was specifically associated with metastasis. Of them, 67.41% reoccurred in program 10, with 26 genes further retained as the signature genes related to PCa metastasis, including AGR3, RAPH1, SOX14, DPEP1, and UBL4A. Our study provides new molecular perspectives on PCa metastasis. The signature genes and pathways could be served as potential therapeutic targets for metastasis or cancer progression. [ABSTRACT FROM AUTHOR]

Published

2023

3. Importance of PNO1 for growth and survival of urinary bladder carcinoma: Role in core‐regulatory circuitry.

Author

Lin, Chunhua, Yuan, Hejia, Wang, Wenting, Zhu, Zhe, Lu, Youyi, Wang, Jiahui, Feng, Fan, and Wu, Jitao

Subjects

BLADDER, ORGANELLE formation, CHEMOTAXIS, RIBOSOMES, CELL cycle regulation, CELL migration, RNA-binding proteins

Abstract

PNO1 (partner of Nob1) was known as a RNA‐binding protein in humans, and its ortholog PNO1 was reported to participate ribosome and proteasome biogenesis in yeasts. Yet there have been few studies about its functions in mammalian cells, and so far its role in human cells has never been reported, especially in urinary bladder cancer (UBC).We interrogated the cellular functions and clinical significance of PNO1 in, and its molecular mechanism through microarrays and bioinformatics analysis. Our findings support that PNO1 participates in promoting proliferation and colonogenesis, while reducing apoptosis of UBC cells, and is also predicted to be associated with the migration and metastasis of UBC PNO1 knockdown (KD) attenuated the tumorigenesis ability of UBC in mouse. PNO1 KD led to the altered expression of 1543 genes that are involved in a number of signalling pathways, biological functions and regulation networks. CD44, PTGS2, cyclin D1, CDK1, IL‐8, FRA1, as well as mTOR, p70 S6 kinase, p38 and Caspase‐3 proteins were all down‐regulated in PNO1 KD cells, suggesting the involvement of PNO1 in inflammatory responses, cell cycle regulation, chemotaxis, cell growth and proliferation, apoptosis, cell migration and invasiveness. This study will enhance our understanding of the molecular mechanism of UBC and may eventually provide novel targets for individualized cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2020

4. The <italic>Colletotrichum gloeosporioides</italic> perilipin homologue CAP 20 regulates functional appressorial formation and fungal virulence.

Author

Lin, Chunhua, Liu, Xianbao, Shi, Tao, Li, Chaoping, and Huang, Guixiu

Subjects

*COLLETOTRICHUM gloeosporioides, *PERILIPIN, *MICROBIAL virulence, *AVOCADO diseases & pests, *TOMATO diseases & pests

Abstract

Abstract: Previous studies of the CAP20 gene in Colletotrichum gloeosporioides show that the CAP20 gene may affect virulence in avocados and tomatoes. In this study, we characterized the function of CAP20 from C. gloeosporioides, the causal agent of Colletotrichum leaf fall disease of Hevea brasilience. CAP20 encodes a perilipin homologue protein. Further investigations showed that the Cap20‐GFP fusion protein localized in lipid droplets in hypha and conidia. A C. gloeosporioides mutant, lacking CAP20, had thinner spores and smaller appressoria, and its turgor pressure generation was dramatically reduced and pore size was enlarged. Furthermore, we tested the pathogenicity of conidia from the wild type, gene‐deleted mutant and complemented transformant C.gloeosporioides on the leaves of rubber trees in sterile water and 0.19 M PEG2000. Conidia from the wild type and complemented transformant C. gloeosporioides in 0.19 M PEG2000 caused necrotic lesions and did not produce any lesion with the CAP20 null mutant. But all of them had developed normal disease lesions when they were inoculated in water. These results suggest that CAP20 is a perilipin homologue protein and is involved in functional appressoria development in C. gloeosporioides. CAP20 gene only affects fungal virulence to some extent by reducing the penetration of the immature appressoria into host cuticle in C. gloeosporioides. [ABSTRACT FROM AUTHOR]

Published

2018

5. Endoplasmic reticulum membrane-bound MoSec62 is involved in the suppression of rice immunity and is essential for the pathogenicity of Magnaporthe oryzae.

Author

Zhou, Zhuangzhi, Pang, Zhiqian, Li, Guihua, Lin, Chunhua, Wang, Jing, Lv, Qiming, He, Chaozu, and Zhu, Lihuang

Subjects

RICE diseases & pests, ENDOPLASMIC reticulum, PLANT immunology, PYRICULARIA oryzae, PLANT colonization, MEMBRANE transport proteins, PREVENTION

Abstract

Pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) constitutes the first line of plant inducible immunity. As an important step of plant colonization, phytopathogens have to suppress PTI, and secreted effectors are therefore co-evolved and deployed. In this study, we characterized the function of MoSec62 of Magnaporthe oryzae, the causal agent of the destructive rice blast. MoSec62 encodes a homologue of Sec62p, a yeast endoplasmic reticulum (ER) membrane transporter for precursors of secretory proteins. We showed that a T-DNA insertion into the promoter region of MoSec62, causing a disturbance to the up-regulation of MoSec62 expression during blast invasion, resulted in a complete loss of blast virulence of the mutant, M1575. Both 3,3′-diaminobenzidine (DAB) staining of the infected rice leaves and expression analysis revealed that the infectious attempt by the mutant led to strong defence responses of rice. Consistently, in transcriptomic analysis of rice leaves subject to blast inoculation, a battery of defence responses was found to be induced exclusively on M1575 challenge. For further exploration, we tested the pathogenicity on a highly susceptible rice variety and detected the accumulation of Slp1, a known PTI suppressor. Both results suggested that the mutant most likely failed to overcome rice PTI. In addition, we showed that MoSec62 was able to rescue the thermosensitivity of a yeast Δsec62, and the MoSec62-GFP fusion was co-localized to the ER membrane, both suggesting the conservation of Sec62 homologues. In conclusion, our data indicate that MoSec62, probably as an ER membrane transporter, plays an essential role in antagonizing rice defence at the early stages of blast invasion. [ABSTRACT FROM AUTHOR]

Published

2016

6. ChemInform Abstract: 1-Methylimidazolium Trifluoroacetate Efficiently Catalyzed Three Component Synthesis of Diazaspiro[5.5]undecane-1,5,9-trione Derivatives under Solvent-Free Conditions.

Author

Xu, Zhaohui, Zhang, Houfu, Lin, Chunhua, and Liu, Deyong

Published

2016