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1. Impact of repetitive transcranial magnetic stimulation on cortical activity: a systematic review and meta-analysis utilizing functional near-infrared spectroscopy evaluation

Author

Shao-Yu Chen, Meng-Hsuan Tsou, Kuan-Yu Chen, Yan-Ci Liu, and Meng-Ting Lin

Subjects
Repeated transcranial magnetic stimulation (rTMS), Functional near-infrared spectroscopy (fNIRS), Primary motor cortex, Cortical hemodynamics, Cortical excitability, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Background Repeated transcranial magnetic stimulation (rTMS) could induce alterations in cortical excitability and promote neuroplasticity. To precisely quantify these effects, functional near-infrared spectroscopy (fNIRS), an optical neuroimaging modality adept at detecting changes in cortical hemodynamic responses, has been employed concurrently alongside rTMS to measure and tailor the impact of diverse rTMS protocols on the brain cortex. Objective This systematic review and meta-analysis aimed to elucidate the effects of rTMS on cortical hemodynamic responses over the primary motor cortex (M1) as detected by fNIRS. Methods Original articles that utilized rTMS to stimulate the M1 cortex in combination with fNIRS for the assessment of cortical activity were systematically searched across the PubMed, Embase, and Scopus databases. The search encompassed records from the inception of these databases up until April, 2024. The assessment for risk of bias was also conducted. A meta-analysis was also conducted in studies with extractable raw data. Results Among 312 studies, 14 articles were eligible for qualitative review. 7 studies were eligible for meta-analysis. A variety of rTMS protocols was employed on M1 cortex. In inhibitory rTMS, multiple studies observed a reduction in the concentration of oxygenated hemoglobin [HbO] at the ipsilateral M1, contrasted by an elevation at the contralateral M1. Meta-analysis also corroborated this consistent trend. Nevertheless, certain investigations unveiled diminished [HbO] in bilateral M1. Several studies also depicted intricate inhibitory or excitatory interplay among distinct cortical regions. Conclusion Diverse rTMS protocols led to varied patterns of cortical activity detected by fNIRS. Meta-analysis revealed a trend of increasing [HbO] in the contralateral cortices and decreasing [HbO] in the ipsilateral cortices following low frequency inhibitory rTMS. However, due to the heterogeneity between studies, further research is necessary to comprehensively understand rTMS-induced alterations in brain activity.

Published
2024
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2. Rest-Activity Rhythm Differences in Acute Rehabilitation Between Poststroke Patients and Non–Brain Disease Controls: Comparative Study

Author

Huey-Wen Liang, Chueh-Hung Wu, Chen Lin, Hsiang-Chih Chang, Yu-Hsuan Lin, Shao-Yu Chen, and Wei-Chen Hsu

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundCircadian rhythm disruptions are a common concern for poststroke patients undergoing rehabilitation and might negatively impact their functional outcomes. ObjectiveOur research aimed to uncover unique patterns and disruptions specific to poststroke rehabilitation patients and identify potential differences in specific rest-activity rhythm indicators when compared to inpatient controls with non–brain-related lesions, such as patients with spinal cord injuries. MethodsWe obtained a 7-day recording with a wearable actigraphy device from 25 poststroke patients (n=9, 36% women; median age 56, IQR 46-71) and 25 age- and gender-matched inpatient control participants (n=15, 60% women; median age 57, IQR 46.5-68.5). To assess circadian rhythm, we used a nonparametric method to calculate key rest-activity rhythm indicators—relative amplitude, interdaily stability, and intradaily variability. Relative amplitude, quantifying rest-activity rhythm amplitude while considering daily variations and unbalanced amplitudes, was calculated as the ratio of the difference between the most active 10 continuous hours and the least active 5 continuous hours to the sum of these 10 and 5 continuous hours. We also examined the clinical correlations between rest-activity rhythm indicators and delirium screening tools, such as the 4 A’s Test and the Barthel Index, which assess delirium and activities of daily living. ResultsPatients who had a stroke had higher least active 5-hour values compared to the control group (median 4.29, IQR 2.88-6.49 vs median 1.84, IQR 0.67-4.34; P=.008). The most active 10-hour values showed no significant differences between the groups (stroke group: median 38.92, IQR 14.60-40.87; control group: median 31.18, IQR 18.02-46.84; P=.93). The stroke group presented a lower relative amplitude compared to the control group (median 0.74, IQR 0.57-0.85 vs median 0.88, IQR 0.71-0.96; P=.009). Further analysis revealed no significant differences in other rest-activity rhythm metrics between the two groups. Among the patients who had a stroke, a negative correlation was observed between the 4 A’s Test scores and relative amplitude (ρ=–0.41; P=.045). Across all participants, positive correlations emerged between the Barthel Index scores and both interdaily stability (ρ=0.34; P=.02) and the most active 10-hour value (ρ=0.42; P=.002). ConclusionsThis study highlights the relevance of circadian rhythm disruptions in poststroke rehabilitation and provides insights into potential diagnostic and prognostic implications for rest-activity rhythm indicators as digital biomarkers.

Published
2024
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3. Monolayer indium selenide: an indirect bandgap material exhibits efficient brightening of dark excitons

Author

Naomi Tabudlong Paylaga, Chang-Ti Chou, Chia-Chun Lin, Takashi Taniguchi, Kenji Watanabe, Raman Sankar, Yang-hao Chan, Shao-Yu Chen, and Wei-Hua Wang

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492, Chemistry, QD1-999
Abstract

Abstract Atomically thin indium selenide (InSe) exhibits a sombrero-like valence band, leading to distinctive excitonic behaviors. It is known that the indirect band gap of atomically thin InSe leads to a weak emission from the lowest-energy excitonic state (A peak). However, the A peak emission of monolayer (ML) InSe was observed to be either absent or very weak, rendering the nature of its excitonic states largely unknown. Intriguingly, we demonstrate that ML InSe exhibits pronounced PL emission because of the efficient brightening of the momentum-indirect dark excitons. The mechanism is attributed to acoustic phonon-assisted radiative recombination facilitated by strong exciton-acoustic phonon coupling and extended wavefunction in momentum space. Systematic analysis of layer-, power-, and temperature-dependent PL demonstrates that a carrier localization model can account for the asymmetric line shape of the lowest-energy excitonic emission for atomically thin InSe. Our work reveals that atomically thin InSe is a promising platform for manipulating the tightly bound dark excitons in two-dimensional semiconductor-based optoelectronic devices.

Published
2024
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4. Comparative Analysis of the Chloroplast Genomes of Eight Species of the Genus Lirianthe Spach with Its Generic Delimitation Implications

Author

Tao Wu, Yong-Kang Sima, Shao-Yu Chen, Yu-Pin Fu, Hui-Fen Ma, Jia-Bo Hao, and Yun-Feng Zhu

Subjects
Magnoliaceae, Lirianthe Spach, chloroplast genome, phylogeny, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Based on Sima and Lu’s system of the family Magnoliaceae, the genus Lirianthe Spach s. l. includes approximately 25 species, each with exceptional landscaping and horticultural or medical worth. Many of these plants are considered rare and are protected due to their endangered status. The limited knowledge of species within this genus and the absence of research on its chloroplast genome have greatly impeded studies on the relationship between its evolution and systematics. In this study, the chloroplast genomes of eight species from the genus Lirianthe were sequenced and analyzed, and their phylogenetic relationships with other genera of the family Magnoliaceae were also elucidated. The results showed that the chloroplast genome sizes of the eight Lirianthe species ranged from 159,548 to 159,833 bp. The genomes consisted of a large single-copy region, a small single-copy region, and a pair of inverted repeat sequences. The GC content was very similar across species. Gene annotation revealed that the chloroplast genomes contained 85 protein-coding genes, 37 tRNA genes, and 8 rRNA genes, totaling 130 genes. Codon usage analysis indicated that codon usage was highly conserved among the eight Lirianthe species. Repeat sequence analysis identified 42–49 microsatellite sequences, 16–18 tandem repeats, and 50 dispersed repeats, with microsatellite sequences being predominantly single-nucleotide repeats. DNA polymorphism analysis revealed 10 highly variable regions located in the large single-copy and small single-copy regions, among which rpl32-trnL, petA-psbJ, and trnH-psbA were the recommended candidate DNA barcodes for the genus Lirianthe species. The inverted repeat boundary regions show little variation between species and are generally conserved. The result of phylogenetic analysis confirmed that the genus Lirianthe s. l. is a monophyletic taxon and the most affinal to the genera, Talauma and Dugandiodendron, in Sima and Lu’s system and revealed that the genus Lirianthe s. s. is paraphyletic and the genus Talauma s. l. polyphyletic in Xia’s system, while Magnolia subsection Gwillimia is paraphyletic and subsection Blumiana polyphyletic in Figlar and Nooteboom’s system. Morphological studies found noticeable differences between Lirianthe species in aspects including leaf indumentum, stipule scars, floral orientation, tepal number, tepal texture, and fruit dehiscence. In summary, this study elucidated the chloroplast genome evolution within Lirianthe and laid a foundation for further systematic and taxonomic research on this genus.

Published
2024
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5. Update of contrast-enhanced ultrasound in musculoskeletal medicine: Clinical perspectives – A review

Author

Shao-Yu Chen, Yao-Wei Wang, Wen-Shiang Chen, and Ming-Yen Hsiao

Subjects
bone, contrast agent, contrast-enhanced ultrasound, joint, muscle, musculoskeletal medicine, nerve, sonography, tendon, tumor, Medical technology, R855-855.5
Abstract

Contrast-enhanced ultrasound (CEUS) uses an intravascular contrast agent to enhance blood flow signals and assess microcirculation in different parts of the human body. Over the past decade, CEUS has become more widely applied in musculoskeletal (MSK) medicine, and the current review aims to systematically summarize current research on the application of CEUS in the MSK field, focusing on 67 articles published between January 2001 and June 2021 in online databases including PubMed, Scopus, and Embase. CEUS has been widely used for the clinical assessment of muscle microcirculation, tendinopathy, fracture nonunions, sports-related injuries, arthritis, peripheral nerves, and tumors, and can serve as an objective and quantitative evaluation tool for prognosis and outcome prediction. Optimal CEUS parameters and diagnostic cut off values for each disease category remain to be confirmed.

Published
2023
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6. Neural crest cells and fetal alcohol spectrum disorders: Mechanisms and potential targets for prevention

Author

Shao-yu Chen and Maharajan Kannan

Subjects
Neural crest cells, Fetal alcohol spectrum disorders, Prenatal ethanol exposure, Embryos, Epigenetics, Therapeutics. Pharmacology, RM1-950
Abstract

Fetal alcohol spectrum disorders (FASD) are a group of preventable and nongenetic birth defects caused by prenatal alcohol exposure that can result in a range of cognitive, behavioral, emotional, and functioning deficits, as well as craniofacial dysmorphology and other congenital defects. During embryonic development, neural crest cells (NCCs) play a critical role in giving rise to many cell types in the developing embryos, including those in the peripheral nervous system and craniofacial structures. Ethanol exposure during this critical period can have detrimental effects on NCC induction, migration, differentiation, and survival, leading to a broad range of structural and functional abnormalities observed in individuals with FASD. This review article provides an overview of the current knowledge on the detrimental effects of ethanol on NCC induction, migration, differentiation, and survival. The article also examines the molecular mechanisms involved in ethanol-induced NCC dysfunction, such as oxidative stress, altered gene expression, apoptosis, epigenetic modifications, and other signaling pathways. Furthermore, the review highlights potential therapeutic strategies for preventing or mitigating the detrimental effects of ethanol on NCCs and reducing the risk of FASD. Overall, this article offers a comprehensive overview of the current understanding of the impact of ethanol on NCCs and its role in FASD, shedding light on potential avenues for future research and intervention.

Published
2023
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7. Case report: ALK-rearranged spindle and epithelioid cell neoplasms with S100 and CD34 co-expression: Additional evidence of kinase fusion–positive soft tissue tumors

Author

Shao-Jie Sheng, Ju-Ming Li, Qin-He Fan, Yang Liu, Shao-Yu Chen, Ming Zhao, and Qi-Xing Gong

Subjects
ALK, PLEKHH2, EML4, S100 and CD34 co-expression, soft tissue tumor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

ALK rearrangements have rarely been reported in S100- and CD34-co-expressing soft tissue neoplasms with lipofibromatosis-like neural tumor (LPFNT) pattern or stromal and perivascular hyalinization, mimicking NTRK-rearranged spindle cell tumors. Here, we reported ALK fusions involving related partner genes in two adult soft tissue tumors with S100 and CD34 co-expression, and conducted a literature review of mesenchymal tumors harboring ALK or other kinase fusions. Case 1 was a 25-year-old female who underwent excision of a soft tissue mass in the anterior thigh region. Morphologically, the tumor was composed of spindle cells adjacent to epithelioid cells embedded in myxedematous and hyalinized stroma, with infiltrative boundary. Spindle cells mixed with inflammatory infiltration resembling inflammatory myofibroblastic tumor (IMT) were seen sporadically. However, brisk mitosis and focal necrosis was also observed, indicating an intermediate-grade sarcoma. In case 2, the left side of the neck of a 34-year-old man was affected. The tumor was composed of monomorphic spindle cells arranged in fascicular growth or patternless pattern, with stromal and perivascular hyalinization. Sparse inflammatory cell infiltration was also observed. Both tumors showed CD34, S100, and ALK-D5F3 immunoreactivity. Next generation sequencing (NGS) test identified a PLEKHH2::ALK fusion in case 1, which was confirmed by RT-PCR and Sanger sequencing, whereas the RT-PCR (ARMS method) test detected an EML4::ALK fusion in case 2. In conclusion, this study expands the morphological and genetic landscape of tumors with S100 and CD34 co-expression harboring kinase fusions, and suggests that kinase fusion–positive mesenchymal neoplasms are becoming an enlarging entity with a variety of morphological patterns.

Published
2022
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8. Exosome‐Like Nanoparticles From Lactobacillus rhamnosus GG Protect Against Alcohol‐Associated Liver Disease Through Intestinal Aryl Hydrocarbon Receptor in Mice

Author

Zelin Gu, Fengyuan Li, Yunhuan Liu, Mengwei Jiang, Lihua Zhang, Liqing He, Daniel W. Wilkey, Michael Merchant, Xiang Zhang, Zhong‐Bin Deng, Shao‐Yu Chen, Shirish Barve, Craig J. McClain, and Wenke Feng

Subjects
Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Alcohol‐associated liver disease (ALD) is a major cause of mortality. Gut barrier dysfunction–induced bacterial translocation and endotoxin release contribute to the pathogenesis of ALD. Probiotic Lactobacillus rhamnosus GG (LGG) is known to be beneficial on experimental ALD by reinforcing the intestinal barrier function. In this study, we aim to investigate whether the protective effects of LGG on intestinal barrier function is mediated by exosome‐like nanoparticles (ELNPs) released by LGG. Intestinal epithelial cells and macrophages were treated with LGG‐derived ELNPs (LDNPs) isolated from LGG culture. LDNPs increased tight junction protein expression in epithelial cells and protected from the lipopolysaccharide‐induced inflammatory response in macrophages. Three‐day oral application of LDNPs protected the intestine from alcohol‐induced barrier dysfunction and the liver from steatosis and injury in an animal model of ALD. Co‐administration of an aryl hydrocarbon receptor (AhR) inhibitor abolished the protective effects of LDNPs, indicating that the effects are mediated, at least in part, by intestinal AhR signaling. We further demonstrated that LDNP administration increased intestinal interleukin‐22‐Reg3 and nuclear factor erythroid 2‐related factor 2 (Nrf2)–tight junction signaling pathways, leading to the inhibition of bacterial translocation and endotoxin release in ALD mice. This protective effect was associated with LDNP enrichment of bacterial tryptophan metabolites that are AhR agonists. Conclusions: Our results suggest that the beneficial effects of LGG and their supernatant in ALD are likely mediated by bacterial AhR ligand–enriched LDNPs that increase Reg3 and Nrf2 expression, leading to the improved barrier function. These findings provide a strategy for the treatment of ALD and other gut barrier dysfunction–associated diseases.

Published
2021
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9. The Key Role of Non-Local Screening in the Environment-Insensitive Exciton Fine Structures of Transition-Metal Dichalcogenide Monolayers

Author

Wei-Hua Li, Jhen-Dong Lin, Ping-Yuan Lo, Guan-Hao Peng, Ching-Yu Hei, Shao-Yu Chen, and Shun-Jen Cheng

Subjects
transition-metal dichalcogenide monolayer, dark-exciton, non-local Coulomb screening, exciton fine structure, WSe2, Chemistry, QD1-999
Abstract

In this work, we present a comprehensive theoretical and computational investigation of exciton fine structures of WSe2-monolayers, one of the best-known two-dimensional (2D) transition-metal dichalcogenides (TMDs), in various dielectric-layered environments by solving the first-principles-based Bethe–Salpeter equation. While the physical and electronic properties of atomically thin nanomaterials are normally sensitive to the variation of the surrounding environment, our studies reveal that the influence of the dielectric environment on the exciton fine structures of TMD-MLs is surprisingly limited. We point out that the non-locality of Coulomb screening plays a key role in suppressing the dielectric environment factor and drastically shrinking the fine structure splittings between bright exciton (BX) states and various dark-exciton (DX) states of TMD-MLs. The intriguing non-locality of screening in 2D materials can be manifested by the measurable non-linear correlation between the BX-DX splittings and exciton-binding energies by varying the surrounding dielectric environments. The revealed environment-insensitive exciton fine structures of TMD-ML suggest the robustness of prospective dark-exciton-based optoelectronics against the inevitable variation of the inhomogeneous dielectric environment.

Published
2023
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10. The complete chloroplast genome sequence of Michelia balansae var. balansae (Aug. Candolle) Dandy, a timber and spices species in Magnoliaceae

Author

Yong-Kang Sima, Tao Wu, Shao-Yu Chen, Hui-Fen Ma, Jia-Bo Hao, Yu-Pin Fu, and Yun-Feng Zhu

Subjects
magnoliaceae, michelia balansae var. balansae (aug. candolle) dandy, complete chloroplast genome, phylogenetic analysis, Genetics, QH426-470
Abstract

Michelia balansae var. balansae (Aug. Candolle) Dandy is a timber and spices species in Magnoliaceae, native to China and Vietnam. In this paper, the complete chloroplast genome (cpDNA) and basic annotated information were reported and its phylogenetic relationship with other species in Magnoliaceae was analyzed. The size of chloroplast genome of M. balansae var. balansae is 160,134 bp, which exhibited a typical quadripartite structure comprising a large single-copy (LSC) region of 88,161 bp and a small single-copy (SSC) region of 18,845 bp separated by a pair identical inverted repeat regions (IRs) of 26,564 bp each. The chloroplast genome contains 131 genes, including 86 protein-coding genes (PCGs), 37 transfer RNA (tRNA) genes and 8 ribosomal RNA (rRNA) genes. The phylogenetic analysis indicated that M. balansae var. balansae is most affinal to M. montana and they form a nomophyletic group with other 14 Michelia species. This Michelia clade is sister to the Aromadendron clade with high support. All genera mentioned in this analysis are nomophyletic under the system of Magnoliaceae by Sima and Lu.

Published
2021
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11. Lemon exosome-like nanoparticles enhance stress survival of gut bacteria by RNase P-mediated specific tRNA decay

Author

Chao Lei, Yun Teng, Liqing He, Mohammed Sayed, Jingyao Mu, Fangyi Xu, Xiangcheng Zhang, Anil Kumar, Kumaran Sundaram, Mukesh K. Sriwastva, Lifeng Zhang, Shao-yu Chen, Wenke Feng, Shuangqin Zhang, Jun Yan, Juw Won Park, Michael L. Merchant, Xiang Zhang, and Huang-Ge Zhang

Subjects
Nanoparticles, Molecular biology, Microbiology, Science
Abstract

Summary: Diet and bile play critical roles in shaping gut microbiota, but the molecular mechanism underlying interplay with intestinal microbiota is unclear. Here, we showed that lemon-derived exosome-like nanoparticles (LELNs) enhance lactobacilli toleration to bile. To decipher the mechanism, we used Lactobacillus rhamnosus GG (LGG) as proof of concept to show that LELNs enhance LGG bile resistance via limiting production of Msp1 and Msp3, resulting in decrease of bile accessibility to cell membrane. Furthermore, we found that decline of Msps protein levels was regulated through specific tRNAserUCC and tRNAserUCG decay. We identified RNase P, an essential housekeeping endonuclease, being responsible for LELNs-induced tRNAserUCC and tRNAserUCG decay. We further identified galacturonic acid-enriched pectin-type polysaccharide as the active factor in LELNs to increase bile resistance and downregulate tRNAserUCC and tRNAserUCG level in the LGG. Our study demonstrates a tRNA-based gene expression regulation mechanism among lactobacilli to increase bile resistance.

Published
2021
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12. The complete chloroplast genome sequence of Lirianthe hodgsonii, a tree species of Magnoliaceae as least concern

Author

Shao-Yu Chen, Tao Wu, Hui-Fen Ma, Yu-Pin Fu, Yun-Feng Zhu, Jia-Bo Hao, Hong Jiang, and Yong-Kang Sima

Subjects
magnoliaceae, lirianthe hodgsonii (j. d. hooker & thomson) sima & s. g. lu, complete chloroplast genome, phylogenetic analysis, Genetics, QH426-470
Abstract

Lirianthe hodgsonii is a tree species of Magnoliaceae as least concern. In the present paper, the complete chloroplast genome (cpDNA) and basic annotated information of L. hodgsonii were reported and its phylogenetic relationship with other species in Magnoliaceae was analyzed. The size of its complete cpDNA is 159,693 bp, with a typical quadripartite structure comprising a pair of inverted repeat (IR) regions of 26,546 bp, a large single-copy (LSC) region of 87,848 bp and a small single-copy (SSC) region of 18,753 bp. The genome contains 131 unique genes, including 86 protein-coding genes, 37 tRNA genes, and 8 rRNA genes. The phylogenetic analysis showed that L. hodgsonii is affinal to Lirianthe bidoupensis and they form a monophyletic group with other seven Lirianthe species. This Lirianthe clade is sister to the Dugandiodendron and Talauma clade with high support. All genera mentioned in this analysis are monophyletic under the system of Magnoliaceae by Sima and Lu.

Published
2020
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13. Sulforaphane Protects Against Ethanol-Induced Apoptosis in Human Neural Crest Cells Through Diminishing Ethanol-Induced Hypermethylation at the Promoters of the Genes Encoding the Inhibitor of Apoptosis Proteins

Author

Yihong Li, Huadong Fan, Fuqiang Yuan, Lanhai Lu, Jie Liu, Wenke Feng, Huang-Ge Zhang, and Shao-Yu Chen

Subjects
sulforaphane, ethanol, apoptosis, DNA methylation, IAP proteins, neural crest cells, Biology (General), QH301-705.5
Abstract

The neural crest cell (NCC) is a multipotent progenitor cell population that is sensitive to ethanol and is implicated in the Fetal Alcohol Spectrum Disorders (FASD). Studies have shown that sulforaphane (SFN) can prevent ethanol-induced apoptosis in NCCs. This study aims to investigate whether ethanol exposure can induce apoptosis in human NCCs (hNCCs) through epigenetically suppressing the expression of anti-apoptotic genes and whether SFN can restore the expression of anti-apoptotic genes and prevent apoptosis in ethanol-exposed hNCCs. We found that ethanol exposure resulted in a significant increase in the expression of DNMT3a and the activity of DNMTs. SFN treatment diminished the ethanol-induced upregulation of DNMT3a and dramatically reduced the activity of DNMTs in ethanol-exposed hNCCs. We also found that ethanol exposure induced hypermethylation at the promoter regions of two inhibitor of apoptosis proteins (IAP), NAIP and XIAP, in hNCCs, which were prevented by co-treatment with SFN. SFN treatment also significantly diminished ethanol-induced downregulation of NAIP and XIAP in hNCCs. The knockdown of DNMT3a significantly enhanced the effects of SFN on preventing the ethanol-induced repression of NAIP and XIAP and apoptosis in hNCCs. These results demonstrate that SFN can prevent ethanol-induced apoptosis in hNCCs by preventing ethanol-induced hypermethylation at the promoter regions of the genes encoding the IAP proteins and diminishing ethanol-induced repression of NAIP and XIAP through modulating DNMT3a expression and DNMT activity.

Published
2021
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14. MicroRNA-135a Protects Against Ethanol-Induced Apoptosis in Neural Crest Cells and Craniofacial Defects in Zebrafish by Modulating the Siah1/p38/p53 Pathway

Author

Fuqiang Yuan, Yang Yun, Huadong Fan, Yihong Li, Lanhai Lu, Jie Liu, Wenke Feng, and Shao-yu Chen

Subjects
miRNA-135a, ethanol, apoptosis, neural crest cells, Siah1, craniofacial defects, Biology (General), QH301-705.5
Abstract

MicroRNAs (miRNAs) are small non-coding RNAs that are involved in various biological processes, including apoptosis, by regulating gene expression. This study was designed to test the hypothesis that ethanol-induced downregulation of miR-135a contributes to ethanol-induced apoptosis in neural crest cells (NCCs) by upregulating Siah1 and activating the p38 mitogen-activated protein kinase (MAPK)/p53 pathway. We found that treatment with ethanol resulted in a significant decrease in miR-135a expression in both NCCs and zebrafish embryos. Ethanol-induced downregulation of miR-135a resulted in the upregulation of Siah1 and the activation of the p38 MAPK/p53 pathway and increased apoptosis in NCCs and zebrafish embryos. Ethanol exposure also resulted in growth retardation and developmental defects that are characteristic of fetal alcohol spectrum disorders (FASD) in zebrafish. Overexpression of miRNA-135a significantly reduced ethanol-induced upregulation of Siah1 and the activation of the p38 MAPK/p53 pathway and decreased ethanol-induced apoptosis in NCCs and zebrafish embryos. In addition, ethanol-induced growth retardation and craniofacial defects in zebrafish larvae were dramatically diminished by the microinjection of miRNA-135a mimics. These results demonstrated that ethanol-induced downregulation of miR-135a contributes to ethanol-induced apoptosis in NCCs by upregulating Siah1 and activating the p38 MAPK/p53 pathway and that the overexpression of miRNA-135a can protect against ethanol-induced apoptosis in NCCs and craniofacial defects in a zebrafish model of FASD.

Published
2020
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15. Coulomb-bound four- and five-particle intervalley states in an atomically-thin semiconductor

Author

Shao-Yu Chen, Thomas Goldstein, Takashi Taniguchi, Kenji Watanabe, and Jun Yan

Subjects
Science
Abstract

Valleytronic devices of atomically thin transition metal dichalcogenides may benefit from high-order exciton complexes. Here, the authors present experimental evidence for four-particle biexcitons and five-particle exciton-trions in high-quality monolayer WSe2.

Published
2018
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16. Deficiency of Cathelicidin Attenuates High-Fat Diet Plus Alcohol-Induced Liver Injury through FGF21/Adiponectin Regulation

Author

Fengyuan Li, Jenny Chen, Yunhuan Liu, Zelin Gu, Mengwei Jiang, Lihua Zhang, Shao-Yu Chen, Zhongbin Deng, Craig J. McClain, and Wenke Feng

Subjects
cathelicidin, HFD plus alcohol, neutrophil, FGF21/adiponectin, adipose lipolysis, Cytology, QH573-671
Abstract

Alcohol consumption and obesity are known risk factors of steatohepatitis. Here, we report that the deficiency of CRAMP (cathelicidin-related antimicrobial peptide—gene name: Camp) is protective against a high-fat diet (HFD) plus acute alcohol (HFDE)-induced liver injury. HFDE markedly induced liver injury and steatosis in WT mice, which were attenuated in Camp–/– mice. Neutrophil infiltration was lessened in the liver of Camp–/– mice. HFDE feeding dramatically increased epididymal white adipose tissue (eWAT) mass and induced adipocyte hypertrophy in WT mice, whereas these effects were attenuated by the deletion of Camp. Furthermore, Camp–/– mice had significantly increased eWAT lipolysis, evidenced by up-regulated expression of lipolytic enzymes, adipose triglyceride lipase (ATGL) and hormone-sensitive lipase (HSL). The depletion of Camp also increased uncoupling protein 1 (UCP1)-dependent thermogenesis in the brown adipose tissue (BAT) of mice. HFDE fed Camp–/– mice had elevated protein levels of fibroblast growth factor 21 (FGF21) in the eWAT, with an increased adiponectin production, which had been shown to alleviate hepatic fat deposition and inflammation. Collectively, we have demonstrated that Camp–/– mice are protected against HFD plus alcohol-induced liver injury and steatosis through FGF21/adiponectin regulation. Targeting CRAMP could be an effective approach for prevention/treatment of high-fat diet plus alcohol consumption-induced steatohepatitis.

Published
2021
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17. ACF7 regulates inflammatory colitis and intestinal wound response by orchestrating tight junction dynamics

Author

Yanlei Ma, Jiping Yue, Yao Zhang, Chenzhang Shi, Matt Odenwald, Wenguang G. Liang, Qing Wei, Ajay Goel, Xuewen Gou, Jamie Zhang, Shao-Yu Chen, Wei-Jen Tang, Jerrold R. Turner, Feng Yang, Hong Liang, Huanlong Qin, and Xiaoyang Wu

Subjects
Science
Abstract

The cytoskeleton plays a key role in cell/cell junction formation, but how the coordinated behaviour of the cytoskeleton contributes is not known. Here the authors show that actin-microtubule crosslinker ACF7 plays a key role in tight junction stabilization and wound healing in intestinal epithelium.

Published
2017
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18. In vivo epidermal migration requires focal adhesion targeting of ACF7

Author

Jiping Yue, Yao Zhang, Wenguang G. Liang, Xuewen Gou, Philbert Lee, Han Liu, Wanqing Lyu, Wei-Jen Tang, Shao-Yu Chen, Feng Yang, Hong Liang, and Xiaoyang Wu

Subjects
Science
Abstract

The spectraplakin protein ACF7 binds to actin at focal adhesions and targets microtubule plus ends to focal adhesions, promoting their disassembly. Here the authors reveal that ACF7 is phosphorylated by Src/FAK, and this regulates actin binding and focal adhesion dynamics in vitro and in vivo.

Published
2016
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19. Development of an Image Processing Module for Autonomous Underwater Vehicles through Integration of Visual Recognition with Stereoscopic Image Reconstruction

Author

Yu-Hsien Lin, Shao-Yu Chen, and Chia-Hung Tsou

Subjects
autonomous underwater vehicle (AUV), edge detection, fuzzy control, Hough transform, stereo matching, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

This study investigated the development of visual recognition and stereoscopic imaging technology, applying them to the construction of an image processing system for autonomous underwater vehicles (AUVs). For the proposed visual recognition technology, a Hough transform was combined with an optical flow algorithm to detect the linear features and movement speeds of dynamic images; the proposed stereoscopic imaging technique employed a Harris corner detector to estimate the distance of the target. A physical AUV was constructed with a wide-angle lens camera and a binocular vision device mounted on the bow to provide image input. Subsequently, a simulation environment was established in Simscape Multibody and used to control the post-driver system of the stern, which contained horizontal and vertical rudder planes as well as the propeller. In static testing at National Cheng Kung University, physical targets were placed in a stability water tank; the study compared the analysis results obtained from various brightness and turbidity conditions in out-of-water and underwater environments. Finally, the dynamic testing results were combined with a fuzzy controller to output the real-time responses of the vehicle regarding the angles, rates of the rudder planes, and the propeller revolution speeds at various distances.

Published
2019
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20. Differentiation of Embryonic Stem Cells into Cardiomyocytes Used to Investigate the Cardioprotective Effect of Salvianolic Acid B through BNIP3 Involved Pathway

Author

Chih-Yang Huang, Shao-Yu Chen, Ru-Huei Fu, Yu-Chuen Huang, Shih-Yin Chen, Woei-Cherng Shyu, Shinn-Zong Lin, and Shih-Ping Liu Ph.D.

Subjects
Medicine
Abstract

Cardiovascular diseases are related to many risk factors, such as diabetes, high blood pressure, smoking, and obesity. Myocardial infarction (MI), a cardiovascular disease, is the most common cause of cardiomyocyte death. In MI, hypoxia induces cardiomyocyte apoptosis; in particular, diabetes combined with MI has a synergistic effect that exacerbates cardiomyocyte death. The hypoxia-inducible factor-1α (HIF1α) transcriptional factor and a BH-3 only protein, Bcl-2 adenovirus E1B 19-kDa interacting protein 3 (BNIP3), are known to play fundamental roles in both adaptive and cell death processes in response to hypoxia. In addition, most cardioprotective studies used H9c2 cells that were not beating, so H9c2 cells may not be the best model for testing cardioprotective effects. Embryonic stem cells (ESCs) are pluripotent stem cells that are able to differentiate into several types of cells, including cardiomyocytes. In this study, we reveal a simple method to differentiate ESCs into cardiomyocytes by using poly-d-lysine-coated plates combined with ITS and N2-containing medium and characterized the ESC-derived cardiomyocytes by cardiomyocyte marker staining. The ESC-derived cardiomyocytes were used to investigate the protective effect of salvianolic acid B (Sal-B) in high glucose combined with hypoxic conditions to mimic diabetes patients with ischemia. The results of MTT and TUNEL assays indicate that Sal-B suppresses the apoptotic effect of treatment with high glucose combined with hypoxia in ESC-derived cardiomyocytes. In particular, Sal-B inhibited HIF1α, BNIP3, and cleavage caspase 3 expression levels, thereby suppressing apoptosis. This is the first study to mention the correlation between BNIP3 and Sal-B for cardioprotective effects. In conclusion, we suggest that Sal-B may be suitable for use as a future cardioprotective medicine.

Published
2015
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22. Erratum: ACF7 regulates inflammatory colitis and intestinal wound response by orchestrating tight junction dynamics

Author

Yanlei Ma, Jiping Yue, Yao Zhang, Chenzhang Shi, Matt Odenwald, Wenguang G. Liang, Qing Wei, Ajay Goel, Xuewen Gou, Jamie Zhang, Shao-Yu Chen, Wei-Jen Tang, Jerrold R. Turner, Feng Yang, Hong Liang, Huanlong Qin, and Xiaoyang Wu

Subjects
Science
Abstract

Nature Communications 8: Article number: 15375 (2017); Published: 25 May 2017; Updated: 11 July 2017 The affiliation details for Yanlei Ma and Yao Zhang are incorrect in this Article. The correct affiliation details for these authors are given below: Yanlei Ma: Department of GI surgery, Shanghai Tenth People's Hospital Affiliated with Tongji University, 301 Yanchang Road, Shanghai 200072, China.

Published
2017
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23. Residue-free fabrication of high-performance graphene devices by patterned PMMA stencil mask

Author

Fu-Yu Shih, Shao-Yu Chen, Cheng-Hua Liu, Po-Hsun Ho, Tsuei-Shin Wu, Chun-Wei Chen, Yang-Fang Chen, and Wei-Hua Wang

Subjects
Physics, QC1-999
Abstract

Two-dimensional (2D) atomic crystals and their hybrid structures have recently attracted much attention due to their potential applications. The fabrication of metallic contacts or nanostructures on 2D materials is very common and generally achieved by performing electron-beam (e-beam) lithography. However, e-beam lithography is not applicable in certain situations, e.g., cases in which the e-beam resist does not adhere to the substrates or the intrinsic properties of the 2D materials are greatly altered and degraded. Here, we present a residue-free approach for fabricating high-performance graphene devices by patterning a thin film of e-beam resist as a stencil mask. This technique can be generally applied to substrates with varying surface conditions, while causing negligible residues on graphene. The technique also preserves the design flexibility offered by e-beam lithography and therefore allows us to fabricate multi-probe metallic contacts. The graphene field-effect transistors fabricated by this method exhibit smooth surfaces, high mobility, and distinct magnetotransport properties, confirming the advantages and versatility of the presented residue-free technique for the fabrication of devices composed of 2D materials.

Published
2014
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24. Extremely low genetic diversity indicating the endangered status of Ranodon sibiricus (Amphibia: Caudata) and implications for phylogeography.

Author

Shao-Yu Chen, Yi-Jun Zhang, Xiu-Ling Wang, Jian-Yun Sun, Yan Xue, Peng Zhang, Hui Zhou, and Liang-Hu Qu

Subjects
Medicine, Science
Abstract

The Siberian salamander (Ranodon sibiricus), distributed in geographically isolated areas of Central Asia, is an ideal alpine species for studies of conservation and phylogeography. However, there are few data regarding the genetic diversity in R. sibiricus populations.We used two genetic markers (mtDNA and microsatellites) to survey all six populations of R. sibiricus in China. Both of the markers revealed extreme genetic uniformity among these populations. There were only three haplotypes in the mtDNA, and the overall nucleotide diversity in the mtDNA was 0.00064, ranging from 0.00000 to 0.00091 for the six populations. Although we recovered 70 sequences containing microsatellite repeats, there were only two loci that displayed polymorphism. We used the approximate Bayesian computation (ABC) method to study the demographic history of the populations. This analysis suggested that the extant populations diverged from the ancestral population approximately 120 years ago and that the historical population size was much larger than the present population size; i.e., R. sibiricus has experienced dramatic population declines.Our findings suggest that the genetic diversity in the R. sibiricus populations is the lowest among all investigated amphibians. We conclude that the isolation of R. sibiricus populations occurred recently and was a result of recent human activity and/or climatic changes. The Pleistocene glaciation oscillations may have facilitated intraspecies genetic homogeneity rather than enhanced divergence. A low genomic evolutionary rate and elevated inbreeding frequency may have also contributed to the low genetic variation observed in this species. Our findings indicate the urgency of implementing a protection plan for this endangered species.

Published
2012
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25. Stabilization of Nrf2 protein by D3T provides protection against ethanol-induced apoptosis in PC12 cells.

Author

Jian Dong, Dong Yan, and Shao-Yu Chen

Subjects
Medicine, Science
Abstract

Previous studies have demonstrated that maternal ethanol exposure induces a moderate increase in Nrf2 protein expression in mouse embryos. Pretreatment with the Nrf2 inducer, 3H-1, 2-dithiole-3-thione (D3T), significantly increases the Nrf2 protein levels and prevents apoptosis in ethanol-exposed embryos. The present study, using PC12 cells, was designed to determine whether increased Nrf2 stability is a mechanism by which D3T enhances Nrf2 activation and subsequent antioxidant protection. Ethanol and D3T treatment resulted in a significant accumulation of Nrf2 protein in PC 12 cells. CHX chase analysis has shown that ethanol treatment delayed the degradation of Nrf2 protein in PC12 cells. A significantly greater decrease in Nrf2 protein degradation was observed in the cells treated with D3T alone or with both ethanol and D3T. In addition, D3T treatment significantly reduced ethanol-induced apoptosis. These results demonstrate that the stabilization of Nrf2 protein by D3T confers protection against ethanol-induced apoptosis.

Published
2011
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30. Defects, band bending and ionization rings in MoS2

Author

Iolanda Di Bernardo, James Blyth, Liam Watson, Kaijian Xing, Yi-Hsun Chen, Shao-Yu Chen, Mark T Edmonds, and Michael S Fuhrer

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, General Materials Science, Condensed Matter Physics, Other Condensed Matter (cond-mat.other)
Abstract

Chalcogen vacancies in transition metal dichalcogenides are widely acknowledged as both donor dopants and as a source of disorder. The electronic structure of sulphur vacancies in MoS2 however is still controversial, with discrepancies in the literature pertaining to the origin of the in-gap features observed via scanning tunneling spectroscopy (STS) on single sulphur vacancies. Here we use a combination of scanning tunnelling microscopy (STM) and STS to study embedded sulphur vacancies in bulk MoS2 crystals. We observe spectroscopic features dispersing in real space and in energy, which we interpret as tip position- and bias-dependent ionization of the sulphur vacancy donor due to tip induced band bending (TIBB). The observations indicate that care must be taken in interpreting defect spectra as reflecting in-gap density of states, and may explain discrepancies in the literature., 7 pages, 5 figures

Published
2023

32. Probiotic‐derived nanoparticles inhibit ALD through intestinal miR194 suppression and subsequent FXR activation

Author

Mengwei, Jiang, Fengyuan, Li, Yunhuan, Liu, Zelin, Gu, Lihua, Zhang, Jiyeon, Lee, Liqing, He, Vatsalya, Vatsalya, Huang-Ge, Zhang, Zhongbin, Deng, Xiang, Zhang, Shao-Yu, Chen, Grace L, Guo, Shirish, Barve, Craig J, McClain, and Wenke, Feng

Subjects
Hepatology
Abstract

Intestinal farnesoid X receptor (FXR) plays a critical role in alcohol-associated liver disease (ALD). We aimed to investigate whether alcohol-induced dysbiosis increased intestinal microRNA194 (miR194) that suppressed Fxr transcription and whether Lactobacillus rhamnosus GG-derived exosome-like nanoparticles (LDNPs) protected against ALD through regulation of intestinal miR194-FXR signaling in mice.Binge-on-chronic alcohol exposure mouse model was utilized. In addition to the decreased ligand-mediated FXR activation, alcohol feeding repressed intestinal Fxr transcription and increased miR194 expression. This transcriptional suppression of Fxr by miR194 was confirmed in intestinal epithelial Caco-2 cells and mouse enteriods. The alcohol feeding-reduced intestinal FXR activation was further demonstrated by the reduced FXR reporter activity in fecal samples and by the decreased fibroblast growth factor 15 (Fgf15) messenger RNA (mRNA) in intestine and protein levels in the serum, which caused an increased hepatic bile acid synthesis and lipogeneses. We further demonstrated that alcohol feeding increased-miR194 expression was mediated by taurine-upregulated gene 1 (Tug1) through gut microbiota regulation of taurine metabolism. Importantly, 3-day oral administration of LDNPs increased bile salt hydrolase (BSH)-harboring bacteria that decreased conjugated bile acids and increased gut taurine concentration, which upregulated Tug1, leading to a suppression of intestinal miR194 expression and recovery of FXR activation. Activated FXR upregulated FGF15 signaling and subsequently reduced hepatic bile acid synthesis and lipogenesis and attenuated ALD. These protective effects of LDNPs were eliminated in intestinal FxrOur results demonstrated that gut microbiota-mediated miR194 regulation contributes to ALD pathogenesis and to the protective effects of LDNPs through modulating intestinal FXR signaling.

Published
2022

38. Ground and excited state exciton polarons in monolayer MoSe2.

Author

Goldstein, Thomas, Yueh-Chun Wu, Shao-Yu Chen, Takashi Taniguchi, Kenji Watanabe, Varga, Kalman, and Jun Yan

Subjects
EXCITED states, POLARONS, EXCITON theory, RYDBERG states, MONOMOLECULAR films, BORON nitride
Abstract

Monolayer transition metal dichalcogenide semiconductors, with versatile experimentally accessible exciton species, offer an interesting platform for investigating the interaction between excitons and a Fermi sea of charges. Using hexagonal boron nitride encapsulated monolayer MoSe2, we study the impact of charge density tuning on the A and B series of exciton Rydberg states, including A:1s, A:2s, B:1s, and B:2s. The doping dependence of the A:2s state provides an opportunity to examine such interactions with greatly reduced exciton binding energy and more spatially diffuse structures, and we found that the impact of the Fermi sea becomes much more dramatic compared to the A:1s state. Using photoluminescence upconversion, we verify that the B:2s exciton state displays similar behavior when interacting with the Fermi sea despite being well above the bare bandgap in energy. Photoluminescence and reflection spectra of the A:1s state show clear evidence that the interaction of the exciton with a Fermi sea is best described by the exciton–polaron model, rather than a trion model. Our experimental results demonstrate that overall features of charge interaction are quite generic and highly robust, offering key insights into the dressed many body states in a Fermi sea. [ABSTRACT FROM AUTHOR]

Published
2020
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40. Plant-derived exosomal microRNAs inhibit lung inflammation induced by exosomes SARS-CoV-2 Nsp12

Author

Jun Yan, Shuangqin Zhang, Anup Kumar, Jennifer K. Wolfe, Yun Teng, Xin Hu, Xiang Zhang, Robert S. Adcock, Huang-Ge Zhang, Craig J. McClain, Xiangcheng Zhang, Donghoon Chung, Chao Lei, Mukesh K. Sriwastva, Kenneth E. Palmer, Juw Won Park, Jingyao Mu, Mohammed Sayed, Michael L. Merchant, Fangyi Xu, Shao-Yu Chen, Lifeng Zhang, and Kumaran Sundaram

Subjects
Male, ACE2, Nsp12, Exosomes, NF-κB, Mice, 0302 clinical medicine, Chlorocebus aethiops, Drug Discovery, Macrophage, 0303 health sciences, microRNA, biology, NF-kappa B, Interleukin, U937 Cells, Plants, respiratory system, lung epithelial cells, macrophages, medicine.anatomical_structure, IL-1β, 030220 oncology & carcinogenesis, Cytokines, Molecular Medicine, Original Article, Tumor necrosis factor alpha, medicine.symptom, Inflammation, Cell Line, Proinflammatory cytokine, 03 medical and health sciences, Cell Line, Tumor, Macrophages, Alveolar, Genetics, medicine, ginger exosome-like nanoparticle, Animals, Humans, Interleukin 6, Vero Cells, Molecular Biology, 030304 developmental biology, Pharmacology, IL-6, Lung, Interleukin-6, SARS-CoV-2, Tumor Necrosis Factor-alpha, business.industry, lung inflammation, COVID-19, Epithelial Cells, spike, Pneumonia, Microvesicles, respiratory tract diseases, Mice, Inbred C57BL, MicroRNAs, A549 Cells, TNF-α, Cancer research, biology.protein, business
Abstract

Lung inflammation is a hallmark of coronavirus disease 2019 (COVID-19). In this study, we show that mice develop inflamed lung tissue after being administered exosomes released from the lung epithelial cells exposed to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Nsp12 and Nsp13 (exosomesNsp12Nsp13). Mechanistically, we show that exosomesNsp12Nsp13 are taken up by lung macrophages, leading to activation of nuclear factor κB (NF-κB) and the subsequent induction of an array of inflammatory cytokines. Induction of tumor necrosis factor (TNF)-α, interleukin (IL)-6, and IL-1β from exosomesNsp12Nsp13-activated lung macrophages contributes to inducing apoptosis in lung epithelial cells. Induction of exosomesNsp12Nsp13-mediated lung inflammation was abolished with ginger exosome-like nanoparticle (GELN) microRNA (miRNA aly-miR396a-5p. The role of GELNs in inhibition of the SARS-CoV-2-induced cytopathic effect (CPE) was further demonstrated via GELN aly-miR396a-5p- and rlcv-miR-rL1-28-3p-mediated inhibition of expression of Nsp12 and spike genes, respectively. Taken together, our results reveal exosomesNsp12Nsp13 as potentially important contributors to the development of lung inflammation, and GELNs are a potential therapeutic agent to treat COVID-19., Graphical Abstract, COVID-19 is a disease affecting the pulmonary system with devastating inflammation. Teng et al. have shown that exosomes released from SARS-CoV-2-infected lung epithelia cells are preferentially taken up by lung macrophages that subsequently induce lung inflammation. Ginger exosome-like nanoparticle miRNA inhibits SARS-CoV-2-induced lung inflammation and viral replication.

Published
2021

41. Encoding Supramolecular Chiral Self‐Assembly with Photo‐Controlled Circularly Polarized Luminescence by Overcrowded Alkene‐Based Bis‐PBI Modulators

Author

Zhao‐Tao Shi, Qian Wang, Jinhao Yi, Chengxi Zhao, Shao‐Yu Chen, He Tian, and Da‐Hui Qu

Subjects
Luminescence, General Medicine, General Chemistry, Alkenes, Catalysis
Abstract

Developing photoresponsive circularly polarized luminescence (CPL) materials is an essential step for biosensing and biomedical applications. However, fabricating CPL assemblies rooted in the chirality amplification and transmission of the molecular building blocks, which simultaneously show photo-controllable CPL signals, remains challenging. Herein, a molecular building block containing an overcrowded-alkene core and bis-PBI (MPBI) was designed. Importantly, the enantiopure MPBI can self-assemble into well-organized nanofibers via π-π stacking interactions and enable the transmission of the intrinsic chirality, providing opposite CPL signals. The photoisomerization of MPBI induced a transformation from nanofibers to discrete nanospheres, accompanied by a gradually decreased CPL signal. The results demonstrated the development of photo-controllable CPL materials from the assembly of chiral MPBI, which provides an alternatively facile strategy to fabricate CPL-active materials and would offer opportunities for future biosensing and biomedical applications.

Published
2022

42. Exosome-shuttled miR-126 mediates ethanol-induced disruption of neural crest cell-placode cell interaction by targeting SDF1

Author

Yihong Li, Ting Cai, Huina Liu, Yun Lei, Shun Zhang, Fuyu Sun, Jie Liu, Shao-yu Chen, and Huadong Fan

Abstract

During embryonic development, two populations of multipotent stem cells, cranial neural crest cells (NCCs) and epibranchial placode cells (PCs), are anatomically adjacent to each other. The coordinated migration of NCCs and PCs plays a major role in the morphogenesis of craniofacial skeletons and cranial nerves. It’s known that ethanol-induced dysfunction of NCCs and PCs is a key contributor to the defects of craniofacial skeletons and cranial nerves implicated in Fetal Alcohol Spectrum Disorder (FASD). However, how ethanol disrupts the coordinated interaction between NCCs and PCs was not elucidated. To fill in this gap, we established a well-designed cell co-culture system to investigate the reciprocal interaction between human NCCs (hNCCs) and human PCs (hPCs), and also monitored the migration behavior of NCCs and PCs in zebrafish embryos. We found that ethanol exposure resulted in a disruption of coordinated hNCCs-hPCs interaction, as well as in zebrafish embryos. Treating hNCCs-hPCs with exosomes derived from ethanol-exposed hNCCs (Exo EtOH ) mimicked ethanol-induced impairment of hNCCs-hPCs interaction. We also observed that a chemoattractant, SDF1, was downregulated in ethanol-treated hPCs and zebrafish embryos. Meanwhile, miR-126 level in Exo EtOH was significantly higher than that in control exosomes (Exo Con ). We further validated that Exo EtOH -encapsulated miR-126 from hNCCs can be transferred to hPCs to suppress SDF1 expression in hPCs. Knockdown of SDF1 replicated ethanol-induced abnormalities either in vitro or in zebrafish embryos. On the contrary, overexpression of SDF1 or inhibiting miR-126 strongly rescued ethanol-induced impairment of hNCCs-hPCs interaction and developmental defects.

Published
2022

43. Exosome‐Like Nanoparticles From Lactobacillus rhamnosus GG Protect Against Alcohol‐Associated Liver Disease Through Intestinal Aryl Hydrocarbon Receptor in Mice

Author

Daniel W. Wilkey, Shao-Yu Chen, Michael L. Merchant, Yunhuan Liu, Shirish Barve, Lihua Zhang, Zhongbin Deng, Zelin Gu, Fengyuan Li, Xiang Zhang, Liqing He, Craig J. McClain, Wenke Feng, and Mengwei Jiang

Subjects
Hepatology, biology, Tight junction, Chemistry, Original Articles, RC799-869, Diseases of the digestive system. Gastroenterology, biology.organism_classification, Aryl hydrocarbon receptor, Exosome, law.invention, Microbiology, Pathogenesis, Probiotic, Lactobacillus rhamnosus, law, biology.protein, Original Article, Signal transduction, Barrier function
Abstract

Alcohol‐associated liver disease (ALD) is a major cause of mortality. Gut barrier dysfunction–induced bacterial translocation and endotoxin release contribute to the pathogenesis of ALD. Probiotic Lactobacillus rhamnosus GG (LGG) is known to be beneficial on experimental ALD by reinforcing the intestinal barrier function. In this study, we aim to investigate whether the protective effects of LGG on intestinal barrier function is mediated by exosome‐like nanoparticles (ELNPs) released by LGG. Intestinal epithelial cells and macrophages were treated with LGG‐derived ELNPs (LDNPs) isolated from LGG culture. LDNPs increased tight junction protein expression in epithelial cells and protected from the lipopolysaccharide‐induced inflammatory response in macrophages. Three‐day oral application of LDNPs protected the intestine from alcohol‐induced barrier dysfunction and the liver from steatosis and injury in an animal model of ALD. Co‐administration of an aryl hydrocarbon receptor (AhR) inhibitor abolished the protective effects of LDNPs, indicating that the effects are mediated, at least in part, by intestinal AhR signaling. We further demonstrated that LDNP administration increased intestinal interleukin‐22‐Reg3 and nuclear factor erythroid 2‐related factor 2 (Nrf2)–tight junction signaling pathways, leading to the inhibition of bacterial translocation and endotoxin release in ALD mice. This protective effect was associated with LDNP enrichment of bacterial tryptophan metabolites that are AhR agonists. Conclusions: Our results suggest that the beneficial effects of LGG and their supernatant in ALD are likely mediated by bacterial AhR ligand–enriched LDNPs that increase Reg3 and Nrf2 expression, leading to the improved barrier function. These findings provide a strategy for the treatment of ALD and other gut barrier dysfunction–associated diseases.

Published
2021

45. A General Level Design Editor for Co-Creative Level Design

Author

Matthew Guzdial, Jonathan Chen, Shao-Yu Chen, and Mark Riedl

Abstract

In this paper we describe a level design editor designed as an interface to allow different AI agents to creatively collaborate on level design problems with human designers. We intend to investigate the comparative impacts of different AI techniques on user experience in this context.

Published
2021

46. Cathelicidin‐related antimicrobial peptide alleviates alcoholic liver disease through inhibiting inflammasome activation

Author

Puneet Puri, Patrick M. Gillevet, Fengyuan Li, Shao-Yu Chen, Shirish Barve, Mengwei Jiang, Huimin Li, Zhongbin Deng, Craig J. McClain, Cuiqing Zhao, Wenke Feng, Leila Gobejishvili, Tuo Shao, Vatsalya Vatsalya, Lihua Zhang, Yunhuan Liu, and Zelin Gu

Subjects
Male, 0301 basic medicine, Alcoholic liver disease, Lipopolysaccharide, Inflammasomes, medicine.medical_treatment, Interleukin-1beta, Antimicrobial peptides, Alcoholic hepatitis, Pharmacology, Article, Pathology and Forensic Medicine, Cathelicidin, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cathelicidins, medicine, Animals, Humans, Liver Diseases, Alcoholic, Mice, Knockout, Chemistry, Interleukin, Inflammasome, medicine.disease, Uric Acid, Oxidative Stress, 030104 developmental biology, Liver, 030220 oncology & carcinogenesis, Dysbiosis, Biomarkers, Homeostasis, Antimicrobial Cationic Peptides, medicine.drug
Abstract

Alcoholic liver disease (ALD) is associated with gut dysbiosis and hepatic inflammasome activation. While it is known that antimicrobial peptides (AMPs) play a critical role in the regulation of bacterial homeostasis in ALD, the functional role of AMPs in the alcohol-induced inflammasome activation is unclear. The aim of this study was to determine the effects of cathelicidin-related antimicrobial peptide (CRAMP) on inflammasome activation in ALD. CRAMP knockout (Camp-/-) and wild-type (WT) mice were subjected to binge-on-chronic alcohol feeding and synthetic CRAMP peptide was administered. Serum/plasma and hepatic tissue samples from human subjects with alcohol use disorder and/or alcoholic hepatitis were analyzed. CRAMP deficiency exacerbated ALD with enhanced inflammasome activation as shown by elevated serum interleukin (IL)-1β levels. Although Camp-/- mice had comparable serum endotoxin levels compared to WT mice after alcohol feeding, hepatic lipopolysaccharide (LPS) binding protein (LBP) and cluster of differentiation (CD) 14 were increased. Serum levels of uric acid (UA), a Signal 2 molecule in inflammasome activation, were positively correlated with serum levels of IL-1β in alcohol use disorder patients with ALD and were increased in Camp-/- mice fed alcohol. In vitro studies showed that CRAMP peptide inhibited LPS binding to macrophages and inflammasome activation stimulated by a combination of LPS and UA. Synthetic CRAMP peptide administration decreased serum UA and IL-1β concentrations and rescued the liver from alcohol-induced damage in both WT and Camp-/- mice. In summary, CRAMP exhibited a protective role against binge-on-chronic alcohol-induced liver damage via regulation of inflammasome activation by decreasing LPS binding and UA production. CRAMP administration may represent a novel strategy for treating ALD. © 2020 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

Published
2020

47. Oxidized-monolayer tunneling barrier for strong Fermi-level depinning in layered InSe transistors

Author

Chun-Wei Chen, Kenji Watanabe, Shao-Yu Chen, Yi Hsun Chen, Raman Sankar, Hsiang Chih Chiu, Takashi Taniguchi, Han Ting Liao, Fangcheng Chou, Chih-Yi Cheng, Jan Sebastian Dominic Rodriguez, and Wei-Hua Wang

Subjects
Electron mobility, Materials science, Schottky barrier, FOS: Physical sciences, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, law.invention, lcsh:Chemistry, symbols.namesake, law, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), lcsh:TA401-492, General Materials Science, Quantum tunnelling, Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed matter physics, business.industry, Mechanical Engineering, Fermi level, Contact resistance, Transistor, Materials Science (cond-mat.mtrl-sci), General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Semiconductor, chemistry, lcsh:QD1-999, Mechanics of Materials, symbols, lcsh:Materials of engineering and construction. Mechanics of materials, 0210 nano-technology, business, Indium
Abstract

In two-dimensional (2D)-semiconductor-based field-effect transistors and optoelectronic devices, metal–semiconductor junctions are one of the crucial factors determining device performance. The Fermi-level (FL) pinning effect, which commonly caused by interfacial gap states, severely limits the tunability of junction characteristics, including barrier height and contact resistance. A tunneling contact scheme has been suggested to address the FL pinning issue in metal–2D-semiconductor junctions, whereas the experimental realization is still elusive. Here, we show that an oxidized-monolayer-enabled tunneling barrier can realize a pronounced FL depinning in indium selenide (InSe) transistors, exhibiting a large pinning factor of 0.5 and a highly modulated Schottky barrier height. The FL depinning can be attributed to the suppression of metal- and disorder-induced gap states as a result of the high-quality tunneling contacts. Structural characterizations indicate uniform and atomically thin-surface oxidation layer inherent from nature of van der Waals materials and atomically sharp oxide–2D-semiconductor interfaces. Moreover, by effectively lowering the Schottky barrier height, we achieve an electron mobility of 2160 cm2/Vs and a contact barrier of 65 meV in two-terminal InSe transistors. The realization of strong FL depinning in high-mobility InSe transistors with the oxidized-monolayer presents a viable strategy to exploit layered semiconductors in contact engineering for advanced electronics and optoelectronics.

Published
2019

48. Defects, band bending and ionization rings in MoS

Author

Iolanda, Di Bernardo, James, Blyth, Liam, Watson, Kaijian, Xing, Yi-Hsun, Chen, Shao-Yu, Chen, Mark T, Edmonds, and Michael S, Fuhrer

Abstract

Chalcogen vacancies in transition metal dichalcogenides are widely acknowledged as both donor dopants and as a source of disorder. The electronic structure of sulphur vacancies in MoS

Published
2021

49. Deficiency of Cathelicidin Attenuates High-Fat Diet Plus Alcohol-Induced Liver Injury through FGF21/Adiponectin Regulation

Author

Zhongbin Deng, Zelin Gu, Jenny Chen, Craig J. McClain, Shao-Yu Chen, Mengwei Jiang, Fengyuan Li, Yunhuan Liu, Lihua Zhang, and Wenke Feng

Subjects
Male, medicine.medical_specialty, FGF21, QH301-705.5, Adipose Tissue, White, Lipolysis, White adipose tissue, Diet, High-Fat, Weight Gain, Article, Mice, FGF21/adiponectin, Adipose Tissue, Brown, Cathelicidins, Internal medicine, Brown adipose tissue, cathelicidin, Adipocytes, medicine, HFD plus alcohol, Animals, Biology (General), Inflammation, Ethanol, Adiponectin, business.industry, Fatty Acids, neutrophil, Feeding Behavior, Hypertrophy, General Medicine, medicine.disease, Thermogenin, Fatty Liver, Fibroblast Growth Factors, medicine.anatomical_structure, Endocrinology, Adipose Tissue, Liver, Adipose triglyceride lipase, Steatohepatitis, adipose lipolysis, business
Abstract

Alcohol consumption and obesity are known risk factors of steatohepatitis. Here, we report that the deficiency of CRAMP (cathelicidin-related antimicrobial peptide—gene name: Camp) is protective against a high-fat diet (HFD) plus acute alcohol (HFDE)-induced liver injury. HFDE markedly induced liver injury and steatosis in WT mice, which were attenuated in Camp–/– mice. Neutrophil infiltration was lessened in the liver of Camp–/– mice. HFDE feeding dramatically increased epididymal white adipose tissue (eWAT) mass and induced adipocyte hypertrophy in WT mice, whereas these effects were attenuated by the deletion of Camp. Furthermore, Camp–/– mice had significantly increased eWAT lipolysis, evidenced by up-regulated expression of lipolytic enzymes, adipose triglyceride lipase (ATGL) and hormone-sensitive lipase (HSL). The depletion of Camp also increased uncoupling protein 1 (UCP1)-dependent thermogenesis in the brown adipose tissue (BAT) of mice. HFDE fed Camp–/– mice had elevated protein levels of fibroblast growth factor 21 (FGF21) in the eWAT, with an increased adiponectin production, which had been shown to alleviate hepatic fat deposition and inflammation. Collectively, we have demonstrated that Camp–/– mice are protected against HFD plus alcohol-induced liver injury and steatosis through FGF21/adiponectin regulation. Targeting CRAMP could be an effective approach for prevention/treatment of high-fat diet plus alcohol consumption-induced steatohepatitis.

Published
2021

50. The complete chloroplast genome sequence of Michelia balansae var. balansae (Aug. Candolle) Dandy, a timber and spices species in Magnoliaceae

Author

Hui-Fen Ma, Yong-Kang Sima, Jia-Bo Hao, Tao Wu, Yu-Pin Fu, Shao-Yu Chen, and Yun-Feng Zhu

Subjects
0106 biological sciences, 0301 basic medicine, Whole genome sequencing, biology, phylogenetic analysis, biology.organism_classification, Magnoliaceae, 010603 evolutionary biology, 01 natural sciences, Genome, Chloroplast, 03 medical and health sciences, 030104 developmental biology, Chloroplast DNA, complete chloroplast genome, Michelia balansae var. balansae (Aug. Candolle) Dandy, Botany, Genetics, Michelia balansae, Molecular Biology, Mitogenome Announcement, Research Article
Abstract

Michelia balansae var. balansae (Aug. Candolle) Dandy is a timber and spices species in Magnoliaceae, native to China and Vietnam. In this paper, the complete chloroplast genome (cpDNA) and basic annotated information were reported and its phylogenetic relationship with other species in Magnoliaceae was analyzed. The size of chloroplast genome of M. balansae var. balansae is 160,134 bp, which exhibited a typical quadripartite structure comprising a large single-copy (LSC) region of 88,161 bp and a small single-copy (SSC) region of 18,845 bp separated by a pair identical inverted repeat regions (IRs) of 26,564 bp each. The chloroplast genome contains 131 genes, including 86 protein-coding genes (PCGs), 37 transfer RNA (tRNA) genes and 8 ribosomal RNA (rRNA) genes. The phylogenetic analysis indicated that M. balansae var. balansae is most affinal to M. montana and they form a nomophyletic group with other 14 Michelia species. This Michelia clade is sister to the Aromadendron clade with high support. All genera mentioned in this analysis are nomophyletic under the system of Magnoliaceae by Sima and Lu.

Published
2021

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