Your search keyword '"Yang, Shi‐Qin"' showing total 4 results

1. UPK3A+ umbrella cell damage mediated by TLR3–NR2F6 triggers programmed destruction of urothelium in Hunner‐type interstitial cystitis/painful bladder syndrome

Author

Peng, Liao, primary, Chen, Jia‐Wei, additional, Chen, Yuan‐Zhuo, additional, Zhang, Chi, additional, Shen, Si‐Hong, additional, Liu, Meng‐Zhu, additional, Fan, Yang, additional, Yang, Shi‐Qin, additional, Zhang, Xiu‐Zhen, additional, Wang, Wei, additional, Gao, Xiao‐Shuai, additional, Di, Xing‐Peng, additional, Ma, Yu‐Cheng, additional, Zeng, Xiao, additional, Shen, Hong, additional, Jin, Xi, additional, and Luo, De‐Yi, additional

Published

2024

2. UPK3A+ umbrella cell damage mediated by TLR3–NR2F6 triggers programmed destruction of urothelium in Hunner‐type interstitial cystitis/painful bladder syndrome.

Author

Peng, Liao, Chen, Jia‐Wei, Chen, Yuan‐Zhuo, Zhang, Chi, Shen, Si‐Hong, Liu, Meng‐Zhu, Fan, Yang, Yang, Shi‐Qin, Zhang, Xiu‐Zhen, Wang, Wei, Gao, Xiao‐Shuai, Di, Xing‐Peng, Ma, Yu‐Cheng, Zeng, Xiao, Shen, Hong, Jin, Xi, and Luo, De‐Yi

Subjects

INTERSTITIAL cystitis, UROTHELIUM, URINARY organs, RNA sequencing, UMBRELLAS, DRUG target

Abstract

Urothelial damage and barrier dysfunction emerge as the foremost mechanisms in Hunner‐type interstitial cystitis/bladder pain syndrome (HIC). Although treatments aimed at urothelial regeneration and repair have been employed, their therapeutic effectiveness remains limited due to the inadequate understanding of specific cell types involved in damage and the lack of specific molecular targets within these mechanisms. Therefore, we harnessed single‐cell RNA sequencing to elucidate the heterogeneity and developmental trajectory of urothelial cells within HIC bladders. Through reclustering, we identified eight distinct clusters of urothelial cells. There was a significant reduction in UPK3A+ umbrella cells and a simultaneous increase in progenitor‐like pluripotent cells (PPCs) within the HIC bladder. Pseudotime analysis of the urothelial cells in the HIC bladder revealed that cells faced challenges in differentiating into UPK3A+ umbrella cells, while PPCs exhibited substantial proliferation to compensate for the loss of UPK3A+ umbrella cells. The urothelium in HIC remains unrepaired, despite the substantial proliferation of PPCs. Thus, we propose that inhibiting the pivotal signaling pathways responsible for the injury to UPK3A+ umbrella cells is paramount for restoring the urothelial barrier and alleviating lower urinary tract symptoms in HIC patients. Subsequently, we identified key molecular pathways (TLR3 and NR2F6) associated with the injury of UPK3A+ umbrella cells in HIC urothelium. Finally, we conducted in vitro and in vivo experiments to confirm the potential of the TLR3–NR2F6 axis as a promising therapeutic target for HIC. These findings hold the potential to inhibit urothelial injury, providing promising clues for early diagnosis and functional bladder self‐repair strategies for HIC patients. © 2024 The Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2024

3. The design and evaluation of a quick checklist for urodynamic quality control: A prospective single‐center small sample study.

Author

Zeng, Xiao, Liu, Meng‐zhu, Shen, Si‐hong, Yang, Shi‐qin, Zhang, Jie, Shen, Hong, Luo, De‐yi, and Jin, Tao

Subjects

QUALITY control, COUGH, SAMPLE size (Statistics), CONTROL groups

Abstract

Purpose: To design a quick checklist for urodynamic study (UDS), aiming to reduce the occurrence of errors in the process, which may help to increase the quality of UDS. And further to analyze the effectiveness of this quick checklist for UDS quality control. Methods: First, a quick checklist for uroflow study and pressure‐flow study was developed, based on the International Continence Society‐Good Urodynamic Practice standards, our previous studies, and recent literature, as well as expert suggestions. Then, patients who underwent UDS between January 2023 to February 2023 were randomly assigned to a study group or a control group. For the study group, the quick checklist was used throughout the UDS process, while the control group did not. The main artefacts were chosen to verify the effectiveness of the quick checklist for improving the UDS quality. Results: The quick checklist comprised three subtypes: checklist for patients, checklist for environment and device, and checklist for UDS test process. 38 UDS traces per group were included. The incidence of missing the standard cough test decreased significantly from 18.4% to 0 (p = 0.012), with the checklist implementation. The baseline drift frequency rate also declined significantly from 39.5% to 5.3% (p < 0.05). Volume < 150 mL on uroflow study occurred in 68.4% of cases and its frequency rate decreased significantly with checklist implementation (p < 0.05). Conclusion: A quick checklist for quality control of UDS was developed. The quick checklist as a convenient, quick, and easy used urodynamic quality control method, may help to reduce the technical artefacts and improve fundamental urodynamic quality control. Future research with a larger sample size is needed to confirm the effectiveness of the checklist. [ABSTRACT FROM AUTHOR]

Published

2024

4. UPK3A + umbrella cell damage mediated by TLR3-NR2F6 triggers programmed destruction of urothelium in Hunner-type interstitial cystitis/painful bladder syndrome.

Author

Peng L, Chen JW, Chen YZ, Zhang C, Shen SH, Liu MZ, Fan Y, Yang SQ, Zhang XZ, Wang W, Gao XS, Di XP, Ma YC, Zeng X, Shen H, Jin X, and Luo DY

Subjects

Animals, Female, Humans, Mice, Cell Differentiation, Cell Proliferation, Mice, Inbred C57BL, Signal Transduction, Single-Cell Analysis, Urinary Bladder pathology, Urinary Bladder metabolism, Cystitis, Interstitial pathology, Cystitis, Interstitial metabolism, Cystitis, Interstitial genetics, Toll-Like Receptor 3 metabolism, Toll-Like Receptor 3 genetics, Urothelium pathology, Urothelium metabolism

Abstract

Urothelial damage and barrier dysfunction emerge as the foremost mechanisms in Hunner-type interstitial cystitis/bladder pain syndrome (HIC). Although treatments aimed at urothelial regeneration and repair have been employed, their therapeutic effectiveness remains limited due to the inadequate understanding of specific cell types involved in damage and the lack of specific molecular targets within these mechanisms. Therefore, we harnessed single-cell RNA sequencing to elucidate the heterogeneity and developmental trajectory of urothelial cells within HIC bladders. Through reclustering, we identified eight distinct clusters of urothelial cells. There was a significant reduction in UPK3A + umbrella cells and a simultaneous increase in progenitor-like pluripotent cells (PPCs) within the HIC bladder. Pseudotime analysis of the urothelial cells in the HIC bladder revealed that cells faced challenges in differentiating into UPK3A + umbrella cells, while PPCs exhibited substantial proliferation to compensate for the loss of UPK3A + umbrella cells. The urothelium in HIC remains unrepaired, despite the substantial proliferation of PPCs. Thus, we propose that inhibiting the pivotal signaling pathways responsible for the injury to UPK3A + umbrella cells is paramount for restoring the urothelial barrier and alleviating lower urinary tract symptoms in HIC patients. Subsequently, we identified key molecular pathways (TLR3 and NR2F6) associated with the injury of UPK3A + umbrella cells in HIC urothelium. Finally, we conducted in vitro and in vivo experiments to confirm the potential of the TLR3-NR2F6 axis as a promising therapeutic target for HIC. These findings hold the potential to inhibit urothelial injury, providing promising clues for early diagnosis and functional bladder self-repair strategies for HIC patients. © 2024 The Pathological Society of Great Britain and Ireland., (© 2024 The Pathological Society of Great Britain and Ireland.)

Published

2024