Your search keyword '"Xinsheng Huang"' showing total 3 results

1. Identification of common stria vascularis cellular alteration in sensorineural hearing loss based on ScRNA-seq

Author

Xi Gu, Kanglun Jiang, Ruru Chen, Zhifeng Chen, Xianmin Wu, Haijie Xiang, Xinsheng Huang, and Benyu Nan

Subjects

Sensorineural hearing loss (SNHL), Stria vascularis, ScRNA-seq, Transcription factors (TF), Cell‒cell communication, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The stria vascularis (SV), located in the lateral wall of the cochlea, maintains cochlear fluid homeostasis and mechanoelectrical transduction (MET) activity required for sound wave conduction. The pathogenesis of a number of human inheritable deafness syndromes, age related hearing loss, drug-induced ototoxicity and noise-induced hearing loss results from the morphological changes and functional impairments in the development of the SV. In this study, we investigate the implications of intercellular communication within the SV in the pathogenesis of sensorineural hearing loss (SNHL). We aim to identify commonly regulated signaling pathways using publicly available single-cell transcriptomic sequencing (scRNA-seq) datasets. Methods We analyzed scRNA-seq data, which was derived from studying the cochlear SV in mice with SNHL compared to normal adult mice. After quality control and filtering, we obtained the major cellular components of the mouse cochlear SV and integrated the data. Using Seurat's FindAllMarkers and FindMarkers packages, we searched for novel conservative genes and differential genes. We employed KEGG and GSEA to identify molecular pathways that are commonly altered among different types of SNHL. We utilized pySCENIC to discover new specific regulatory factors in SV subpopulation cells. With the help of CellChat, we identified changes in subpopulation cells showing similar trends across different SNHL types and their alterations in intercellular communication pathways. Results Through the analysis of the integrated data, we discovered new conserved genes to SV specific cells and identified common downregulated pathways in three types of SNHL. The enriched genes for these pathways showing similar trends are primarily associated with the Electron Transport Chain, related to mitochondrial energy metabolism. Using the CellChat package, we further found that there are shared pathways in the incoming signaling of specific intermediate cells in SNHL, and these pathways have common upstream regulatory transcription factor of Nfe2l2. Combining the results from pySCENIC and CellChat, we predicted the transcription factor Nfe2l2 as an upstream regulatory factor for multiple shared cellular pathways in IC. Additionally, it serves as an upstream factor for several genes within the Electron Transport Chain. Conclusion Our bioinformatics analysis has revealed that downregulation of the mitochondrial electron transport chain have been observed in various conditions of SNHL. E2f1, Esrrb, Runx1, Yy1, and Gata2 could serve as novel important common TFs regulating the electron transport chain. Adm has emerged as a potential new marker gene for intermediate cells, while Itgb5 and Tesc show promise as potential new marker genes for marginal cells in the SV. These findings offer a new perspective on SV lesions in SNHL and provide additional theoretical evidence for the same drug treatment and prevention of different pathologies of SNHL.

Published

2024

2. Influence of Planar Anisotropy on Stress Corrosion Cracking of Extruded AZ31 Magnesium Alloy Plate.

Author

Xinsheng Huang, Isao Nakatsugawa, and Yasumasa Chino

Subjects

STRESS corrosion cracking, ALLOY plating, HYDROGEN embrittlement of metals, YIELD stress, CORROSION resistance

Abstract

The stress corrosion cracking (SCC) behavior of an extruded AZ31 alloy plate with a large planar anisotropy was investigated using constant load test in 0.01 mol/l NaCl solution at 35°C. Due to the texture with a large spread of (0001) orientation in the transverse direction (TD), the extruded AZ31 alloy plate exhibited a much higher yield strength (169 vs. 70 MPa) along the extrusion direction (ED) compared with the TD. The threshold stress for SCC was slightly higher for the ED specimen compared with the TD specimen (90 vs. 70 MPa) due to the much higher yield strength. However, the ratio between threshold stress and yield strength was much larger for the TD specimen (100% vs. 53%), indicating its low susceptibility to SCC. Corrosion grooves formed perpendicular to the tensile direction and along the interstices of Mg(OH)2 corrosion product film. Corrosion grooves acting as fracture initiation sites tended to propagate along non-basal planes, particularly, prismatic plane, due to lower corrosion resistance compared with basal plane. The higher resistance to SCC for the TD specimen may be attributed to the higher probability of basal plane on the exposed surfaces of corrosion grooves. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of Process Parameters on Room-Temperature Deep Drawability of AZ31B Magnesium Alloy Sheets with Suppressed Basal Texture.

Author

Yasumasa Chino, Xinsheng Huang, Naobumi Saito, Takeshi Nishiwaki, Takeshi Mohri, and Mikio Matsuda

Subjects

MAGNESIUM alloys, MOLYBDENUM disulfide, WRINKLE patterns

Abstract

The effects of process parameters on room-temperature (RT) deep drawability were investigated for AZ31B magnesium alloy sheets, in which the formation of basal texture was suppressed by high-temperature rolling. When the blank holder force was set to the minimum value to prevent wrinkling, high RT drawability was obtained. In particular, a significantly high limiting draw ratio (LDR) of 1.83 was obtained by the optimization of the process parameters of the servo-press machine. At higher punch speeds, the drawability tended to be deteriorated; however, a high LDR of 1.72 was obtained even at a high punch speed of 50mm/s by the optimization of the process parameters of the servo-press machine. Furthermore, when the punch speed in the initial stage of deep drawing was reduced, it was possible to perform deep drawing without fracture even if the punch speed in the later stages was increased. The results of the study of the effect of lubricants indicated that relatively high RT drawability was obtained when molybdenum disulfide was utilized. It was also suggested to be important to select a lubricant that reduces punch load and does not delaminate during deep drawing. [ABSTRACT FROM AUTHOR]

Published

2024