Your search keyword '"Wang, Ruo‑li"' showing total 5 results

1. A correlation study between prostate necrosis rate calculated by 3D Slicer software and clinical efficacy of prostatic artery embolization, along with an analysis of predictors of clinical success after prostatic artery embolization

Author

Wang, Ruo‑li, Lin, Fang-fang, Ruan, Dan‑dan, Li, Shi-jie, Zhou, Yan‑feng, Luo, Jie‑wei, Fang, Zhu‑ting, and Tang, Yi

Published

2024

2. Clinical phenotype and genetic function analysis of a family with hypomyelinating leukodystrophy-7 caused by POLR3A mutation.

Author

Ruan, Dan-dan, Ruan, Xing-lin, Wang, Ruo‑li, Lin, Xin-fu, Zhang, Yan-ping, Lin, Bin, Li, Shi-jie, Wu, Min, Chen, Qian, Zhang, Jian-hui, Cheng, Qiong, Zhang, Yi-wu, Lin, Fan, Luo, Jie-wei, Zheng, Zheng, and Li, Yun-fei

Subjects

PROTEIN overexpression, CENTRAL nervous system, PHENOTYPES, CEREBRAL atrophy, MUTANT proteins

Abstract

Hypomyelinating leukodystrophy (HLD) is a rare genetic heterogeneous disease that can affect myelin development in the central nervous system. This study aims to analyze the clinical phenotype and genetic function of a family with HLD-7 caused by POLR3A mutation. The proband (IV6) in this family mainly showed progressive cognitive decline, dentin dysplasia, and hypogonadotropic hypogonadism. Her three old brothers (IV1, IV2, and IV4) also had different degrees of ataxia, dystonia, or dysarthria besides the aforementioned manifestations. Their brain magnetic resonance imaging showed bilateral periventricular white matter atrophy, brain atrophy, and corpus callosum atrophy and thinning. The proband and her two living brothers (IV2 and IV4) were detected to carry a homozygous mutation of the POLR3A (NM_007055.4) gene c. 2300G > T (p.Cys767Phe), and her consanguineous married parents (III1 and III2) were p.Cys767Phe heterozygous carriers. In the constructed POLR3A wild-type and p.Cys767Phe mutant cells, it was seen that overexpression of wild-type POLR3A protein significantly enhanced Pol III transcription of 5S rRNA and tRNA Leu-CAA. However, although the mutant POLR3A protein overexpression was increased compared to the wild-type protein overexpression, it did not show the expected further enhancement of Pol III function. On the contrary, Pol III transcription function was frustrated (POLR3A, BC200, and tRNA Leu-CAA expression decreased), and MBP and 18S rRNA expressions were decreased. This study indicates that the POLR3A p.Cys767Phe variant caused increased expression of mutated POLR3A protein and abnormal expression of Pol III transcripts, and the mutant POLR3A protein function was abnormal. [ABSTRACT FROM AUTHOR]

Published

2024

3. Clinical and imaging features of six Han patients with SAPHO syndrome.

Author

Ruan, Dan-dan, Wang, Ruo-li, Hu, Ya-nan, Lin, Xing, Luo, Jie-wei, Yu, Qing-hua, and Wu, Jia-bin

Subjects

*DIAGNOSTIC imaging, *STERNOCLAVICULAR joint, *SACROILIAC joint, *CERVICAL vertebrae, *THORACIC vertebrae, *HAND-foot syndrome

Abstract

Background: Synovitis, acne, pustulosis, hyperostosis, and osteitis (SAPHO) syndrome is a rare autoimmune disease characterized by skin or osteoarticular damage. SAPHO syndrome is often misdiagnosed or missed diagnosis due to lack of overall understanding of the disease by clinicians. Purpose: To analyze the clinical symptoms and imaging features of six Han patients with SAPHO syndrome in order to provide reference for doctors to diagnose SAPHO syndrome. Material and Methods: This study retrospectively analyzed the clinical data of six Han patients with SAPHO syndrome. Results: All six Han patients with SAPHO syndrome had severe acne or pustulosis of the hands and feet, and all of them had osteoarticular damage, including five cases involving the sternoclavicular joint. Some patients showed a specific and typical "bull's head" sign on 99mTc-labeled methylene diphosphonate bone imaging. Among the six patients recruited, there was one thoracic vertebra, one cervical vertebra, one sacroiliac joint, and one peripheral joint involvement. Two patients had limited activity due to severe osteoarticular damage. Conclusion: Due to the atypical clinical symptoms of SAPHO syndrome, most patients will experience a tortuous and long diagnostic process, while a correct understanding and timely intervention of SAPHO syndrome are essential to improve the prognosis of patients. [ABSTRACT FROM AUTHOR]

Published

2024

4. Author Correction: Clinical phenotype and genetic function analysis of a family with hypomyelinating leukodystrophy-7 caused by POLR3A mutation.

Author

Ruan, Dan-dan, Ruan, Xing-lin, Wang, Ruo‑li, Lin, Xin-fu, Zhang, Yan-ping, Lin, Bin, Li, Shi-jie, Wu, Min, Chen, Qian, Zhang, Jian-hui, Cheng, Qiong, Zhang, Yi-wu, Lin, Fan, Luo, Jie-wei, Zheng, Zheng, and Li, Yun-fei

Subjects

CHINESE medicine, MEDICAL schools, INTERNET publishing, PHENOTYPES, PROVINCES

Abstract

This document is a correction notice for an article titled "Clinical phenotype and genetic function analysis of a family with hypomyelinating leukodystrophy-7 caused by POLR3A mutation" published in Scientific Reports. The correction addresses an error in the affiliation of the authors. The correct affiliation is listed as the Department of Traditional Chinese Medicine, Shengli Clinical Medical College of Fujian Medical University, Fujian Provincial Hospital, Fuzhou, China. The original article has been corrected. [Extracted from the article]

Published

2024

5. In vitro study of ATP1A3 p.Ala275Pro mutant causing alternating hemiplegia of childhood and rapid-onset dystonia-parkinsonism.

Author

Ruan DD, Zou J, Liao LS, Ji MD, Wang RL, Zhang JH, Zhang L, Gao MZ, Chen Q, Yu HP, Wei W, Li YF, Li H, Lin F, Luo JW, and Lin XF

Abstract

Introduction: We previously reported that ATP1A3 c.823G>C (p.Ala275Pro) mutant causes varying phenotypes of alternative hemiplegia of childhood and rapid-onset dystonia-parkinsonism in the same family. This study aims to investigate the function of ATP1A3 c.823G>C (p.Ala275Pro) mutant at the cellular and zebrafish models., Methods: ATP1A3 wild-type and mutant Hela cell lines were constructed, and ATP1A3 mRNA expression, ATP1A3 protein expression and localization, and Na + -K + -ATPase activity in each group of cells were detected. Additionally, we also constructed zebrafish models with ATP1A3 wild-type overexpression (WT) and p.Ala275Pro mutant overexpression (MUT). Subsequently, we detected the mRNA expression of dopamine signaling pathway-associated genes, Parkinson's disease-associated genes, and apoptosisassociated genes in each group of zebrafish, and observed the growth, development, and movement behavior of zebrafish., Results: Cells carrying the p.Ala275Pro mutation exhibited lower levels of ATP1A3 mRNA, reduced ATP1A3 protein expression, and decreased Na + -K + -ATPase activity compared to wild-type cells. Immunofluorescence analysis revealed that ATP1A3 was primarily localized in the cytoplasm, but there was no significant difference in ATP1A3 protein localization before and after the mutation. In the zebrafish model, both WT and MUT groups showed lower brain and body length, dopamine neuron fluorescence intensity, escape ability, swimming distance, and average swimming speed compared to the control group. Moreover, overexpression of both wild-type and mutant ATP1A3 led to abnormal mRNA expression of genes associated with the dopamine signaling pathway and Parkinson's disease in zebrafish, and significantly upregulated transcription levels of bad and caspase-3 in the apoptosis signaling pathway, while reducing the transcriptional level of bcl-2 and the bcl-2/bax ratio., Conclusion: This study reveals that the p.Ala275Pro mutant decreases ATP1A3 protein expression and Na + /K + -ATPase activity. Abnormal expression of either wild-type or mutant ATP1A3 genes impairs growth, development, and movement behavior in zebrafish., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Ruan, Zou, Liao, Ji, Wang, Zhang, Zhang, Gao, Chen, Yu, Wei, Li, Li, Lin, Luo and Lin.)

Published

2024