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18 results on '"Tian, Jinyong"'

1. LncRNA SOX21-AS1 Promotes Activation of BV2 Cells via Epigenetical Silencing of SOCS3 and Aggravates Parkinson's Disease.

Author

Feng, Dan, Liu, Yun, Zuo, Fangya, Liu, Fenfen, Liu, Yuqi, Wang, Yujie, Chen, Lanlan, Guo, Xiuhong, and Tian, Jinyong

Subjects
NEURONS, PARKINSON'S disease, EPIGENETICS, CELL survival, LINCRNA
Abstract

Background: LncRNAs perform a crucial impact on microglia's activation in Parkinson's disease (PD). Here, our purpose was to probe the function and involved mechanism of lncRNA SOX21-AS1 on microglial activation in PD. Methods: Mice were treated with MPTP, and BV2 cells were treated with LPS/ATP to build PD animal and cell models. Genes' expression was measured using RT-qPCR, immunoblotting, and IHC stain. ELISA was applied for testing inflammatory factors' levels. Cell viability and apoptosis were tested using kits. RIP and RNA pull-down assay were utilized for monitoring the bond of SOX21-AS1 to EZH2, and ChIP was applied for affirming the bond between EZH2 and SOCS3's promoter. Results: The expression of SOX21-AS1 and SOCS3 was abnormal in PD cell and animal models. Inhibition of SOX21-AS1 repressed LPS/ATP-induced activation in BV2 cells and nerve damage caused by activated BV2 cells, alleviating the pathological features of PD mice. Further studies found that SOX21-AS1 epigenetically inhibited SOCS3 by recruiting EZH2 to SOCS3 promoter. SOX21-AS1 overexpression partially offset the repressive impact of SOCS3 enhancement on BV2 cell activation and the protective effect on nerve cells. Conclusion: SOX21-AS1 enhances LPS/ATP-induced activation of BV2 cells and nerve damage caused by activated BV2 cells though recruiting EZH2 to SOCS3's promoter, thereby alleviating PD progression. Our research supplies new potential target for curing PD. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Recommendations for the diagnosis and treatment of paroxysmal kinesigenic dyskinesia: an expert consensus in China

Author

Cao, Li, Huang, Xiaojun, Wang, Ning, Wu, Zhiying, Zhang, Cheng, Gu, Weihong, Cong, Shuyan, Ma, Jianhua, Wei, Ling, Deng, Yanchun, Fang, Qi, Niu, Qi, Wang, Jin, Wang, Zhaoxia, Yin, You, Tian, Jinyong, Tian, Shufen, Bi, Hongyan, Jiang, Hong, Liu, Xiaorong, Lü, Yang, Sun, Meizhen, Wu, Jianjun, Xu, Erhe, Chen, Tao, Chen, Tao, Chen, Xu, Li, Wei, Li, Shujian, Li, Qinghua, Song, Xiaonan, Tang, Ying, Yang, Ping, Yang, Yun, Zhang, Min, Zhang, Xiong, Zhang, Yuhu, Zhang, Ruxu, Ouyang, Yi, Yu, Jintai, Hu, Quanzhong, Ke, Qing, Yao, Yuanrong, Zhao, Zhe, Zhao, Xiuhe, Zhao, Guohua, Liang, Furu, Cheng, Nan, Han, Jianhong, Peng, Rong, Chen, Shengdi, and Tang, Beisha

Published
2021
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4. Expression of concern to “Downregulation of lncRNA UCA1 ameliorates the damage of dopaminergic neurons, reduces oxidative stress and inflammation in Parkinson’s disease through the inhibition of the PI3K/Akt signaling pathway” [Int. Immunopharmacol. 75 (2019) 105734]

Author

Cai, Lijun, primary, Tu, Li, additional, Li, Tian, additional, Yang, Xiulin, additional, Ren, Yipin, additional, Gu, Ran, additional, Zhang, Qian, additional, Yao, Huan, additional, Qu, Xiang, additional, Wang, Qian, additional, and Tian, Jinyong, additional

Published
2023
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11. Downregulation of lncRNA UCA1 ameliorates the damage of dopaminergic neurons, reduces oxidative stress and inflammation in Parkinson's disease through the inhibition of the PI3K/Akt signaling pathway

Author

Cai, Lijun, primary, Tu, Li, additional, Li, Tian, additional, Yang, Xiulin, additional, Ren, Yipin, additional, Gu, Ran, additional, Zhang, Qian, additional, Yao, Huan, additional, Qu, Xiang, additional, Wang, Qian, additional, and Tian, Jinyong, additional

Published
2019
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12. SPG3A gene polymorphisms in hereditary spastic paraplegia

Author

Li, Tian, Tu, Li, Zhang, Qian, Gu, Ran, Wang, Qian, Wang, Bingjin, Yao, Huan, Qu, Xiang, Wang, Wenqin, and Tian, Jinyong

Subjects
Original Article
Abstract

Objective: This study aimed to analyze the hereditary spastic paraplegia (HSP)/spastic paraplegia 3A (SPG3A) genomic structure as well as the polymorphisms in SPG3G genomic structure by comparing with the normal subjects. Methods: A total of 66 sporadic cases with HSP were collected from April 2014 to September 2016. Genomic DNA extraction was performed, and all coding exons and junction region in the SPG3A gene were sequenced. Genetic mutations were identified and DNA sequence alignment was performed against 80 normal subjects without blood relationship. The polymorphism in SPG3A gene was analyzed. Results: The coding sequence of the SPG3A gene consisted of 14 exons and two polymorphisms were detected at exons 2 and 3 compared with the normal subjects; one polymorphism was detected at exons 3, 4 and 6, respectively. Conclusion: The two coding exons in the SPG3A gene in normal subjects were polymorphic and highly conservative. The intron consisted of 3 polymorphic coding sequences. Understanding the polymorphism and genetic mutations in the SPG3A gene will contribute to the diagnosis and treatment of HSP.

Published
2017

15. LncRNA MALAT1 facilitates Parkinson's disease progression by increasing SOCS3 promoter methylation.

Author

Liu Y, Feng D, Liu F, Liu Y, Zuo F, Wang Y, Chen L, Guo X, and Tian J

Abstract

Background: Long non-coding RNA metastasis-associated lung adenocarcinoma transcript 1 (MALAT1) has been shown to be involved in Parkinson's disease (PD) progression, but its mechanism needs to be further explored., Methods: Mice were injected with 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to induce PD mice models, and BV2 cells were treated with lipopolysaccharides (LPS) to mimic PD cell models. MALAT1 expression and suppressor of cytokine signaling 3 (SOCS3) protein level were examined using quantitative real-time PCR and western blot, respectively. Cell functions were tested by cell counting kit 8 assay and flow cytometry. The interaction between MALAT1 and SOCS3 was confirmed using RNA pull-down and RIP assays., Results: MALAT1 was upregulated in MPTP-induced PD mice and LPS-induced BV2 cells. Silencing of MALAT1 increased viability, while inhibited apoptosis and inflammation in LPS-induced BV2 cells. Besides, MALAT1 enhanced the SOCS3 promoter methylation to decrease its expression by recruiting DNMT1, DNMT3A and DNMT3B. Furthermore, SOCS3 knockdown eliminated sh-MALAT1-mediated the inhibition effect on LPS-induced BV2 cell injury. In vivo, MALAT1 silencing ameliorated neurological impairment and neuroinflammation in MPTP-induced PD mice., Conclusion: Our data revealed that MALAT1 worsened PD processes via inhibiting SOCS3 expression by increasing its promoter methylation., (S. Karger AG, Basel.)

Published
2024
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17. HOTAIR Accelerates Dyskinesia in a MPTP-Lesioned Mouse Model of PD via SSTR1 Methylation-Mediated ERK1/2 Axis.

Author

Cai L, Tu L, Yang X, Zhang Q, Tian T, Gu R, Qu X, Wang Q, and Tian J

Abstract

Homeobox transcript antisense RNA (HOTAIR), has been associated with neuroprotective effects in Parkinson's disease (PD). However, the underlying mechanisms still remain unclear. Hence, this present study attempted to clarify the functional relevance of HOTAIR in PD. We established an in vivo mouse model of PD using 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and an in vitro cell model of PD by treating dopaminergic neuron MN9D cells with 1-methyl-4-phenylpyridinium species (MPP + ). The expressions of somatostatin receptor 1 (SSTR1) and HOTAIR were altered to examine their effects on MN9D cell viability and apoptosis, as well as on movement impairments in MPTP-induced PD mouse model. The results indicated that HOTAIR expression was upregulated and SSTR1 was downregulated in in vivo and in vitro PD models. HOTAIR could bind to the promoter region of SSTR1, resulting in an increase of SSTR1 methylation through the recruitment of DNA methyltransferases in PD cell models. Notably, overexpression of HOTAIR and silencing of SSTR1 enhanced dopaminergic neuron apoptosis in MN9D cells and exacerbated dyskinesia in MPTP-induced PD mouse model. Collectively, overexpressed HOTAIR stimulates DNA methylation of SSTR1 to reduce SSTR1 expression, thereby accelerating dyskinesia and facilitating dopaminergic neuron apoptosis in a MPTP-lesioned PD mouse model via activation of the ERK1/2 axis., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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18. SPG3A gene polymorphisms in hereditary spastic paraplegia.

Author

Li T, Tu L, Zhang Q, Gu R, Wang Q, Wang B, Yao H, Qu X, Wang W, and Tian J

Abstract

Objective: This study aimed to analyze the hereditary spastic paraplegia (HSP)/spastic paraplegia 3A ( SPG3A ) genomic structure as well as the polymorphisms in SPG3G genomic structure by comparing with the normal subjects., Methods: A total of 66 sporadic cases with HSP were collected from April 2014 to September 2016. Genomic DNA extraction was performed, and all coding exons and junction region in the SPG3A gene were sequenced. Genetic mutations were identified and DNA sequence alignment was performed against 80 normal subjects without blood relationship. The polymorphism in SPG3A gene was analyzed., Results: The coding sequence of the SPG3A gene consisted of 14 exons and two polymorphisms were detected at exons 2 and 3 compared with the normal subjects; one polymorphism was detected at exons 3, 4 and 6, respectively., Conclusion: The two coding exons in the SPG3A gene in normal subjects were polymorphic and highly conservative. The intron consisted of 3 polymorphic coding sequences. Understanding the polymorphism and genetic mutations in the SPG3A gene will contribute to the diagnosis and treatment of HSP., Competing Interests: None., (IJCEP Copyright © 2017.)

Published
2017

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