Your search keyword '"Ye JS"' showing total 157 results

1. Bentonite-supported nano zero-valent iron composite as a green catalyst for bisphenol A degradation: Preparation, performance, and mechanism of action

Author

Bao T, Damtie MM, Hosseinzadeh A, Wei W, Jin J, Phong Vo HN, Ye JS, Liu Y, Wang XF, Yu ZM, Chen ZJ, Wu K, Frost RL, and Ni B-J

Subjects

Phenols, Iron, Bentonite, Adsorption, Benzhydryl Compounds, Environmental Sciences, Water Pollutants, Chemical

Abstract

Bisphenol A (BPA) is a toxic environmental pollutant commonly found in wastewater. Using non-toxic materials and eco-friendly technology to remove this pollutant from wastewater presents multiple advantages. Treatment of wastewater with clay minerals has received growing interest because of the environment friendliness of these materials. Bentonite is a 2:1 layered phyllosilicate clay mineral that can support nano-metal catalysts. It can prevent the agglomeration of nano-metal catalysts and improve their activity. In this article, a green catalytic nano zero-valent iron/bentonite composite material (NZVI@bentonite) was synthesized via liquid-phase reduction. The average size of NZVI was approximately 40-50 nm. Good dispersion and low aggregation were observed when NZVI was loaded on the surface or embedded into the nanosheets of bentonite. Degradation of BPA, a harmful contaminant widely found in wastewater at relatively high levels, by NZVI@bentonite was then investigated and compared with that by pristine NZVI through batch Fenton-like reaction experiments. Compared with pristine NZVI and bentonite alone, the NZVI@bentonite showed a higher BPA degradation ratio and offered highly effective BPA degradation up to 450 mg/g in wastewater under optimum operating conditions. Adsorption coupled with the Fenton-like reaction was responsible for BPA degradation by NZVI@bentonite. This work extends the application of NZVI@bentonite as an effective green catalyst for BPA degradation in aqueous environments.

Published

2020

2. Induction of transient ion channel-like pores in a cancer cell by antibiotic peptide

Author

Ye, JS, Zheng, XJ, Leung, KW, Chen, HM, Sheu, FS, Ye, JS, Zheng, XJ, Leung, KW, Chen, HM, and Sheu, FS

Abstract

The anticancer activity of anti-bacterial cecropins makes them potentially useful as peptide anti-cancer drugs. We used the cell-attached patch to study the effect of cecropin B (CB; having one hydrophobic and one amphipathic a-helix) and its derivative, cecropin B3 (CB3; having two hydrophobic a-helices) on the membrane of Ags cancer cells. Application of 10-60 muM CB onto the membrane of the cancer cell produces short outward currents. Comparative study with CB3, which induces no outward currents, shows that the amphipathic group of CB is necessary for the pore formation. The results provide a rationale to study the cell-killing activity of antimicrobial peptides at the single cancer cell level.

Published

2004

3. Asymmetric temperature effect on leaf senescence and its control on ecosystem productivity.

Author

He L, Wang J, Peñuelas J, Zohner CM, Crowther TW, Fu Y, Zhang W, Xiao J, Liu Z, Wang X, Li JH, Li X, Peng S, Xie Y, Ye JS, Zhou C, and Li ZL

Abstract

Widespread autumn cooling occurred in the northern hemisphere (NH) during the period 2004-2018, primarily due to the strengthening of the Pacific Decadal Oscillation and Siberian High. Yet, while there has been considerable focus on the warming impacts, the effects of natural cooling on autumn leaf senescence and plant productivity have been largely overlooked. This gap in knowledge hinders our understanding of how vegetation adapts and acclimates to complex climate change. In this study, we utilize over 36,000 in situ phenological time series from 11,138 European sites dating back to the 1950s, and 30 years of satellite greenness data (1989-2018), to demonstrate that leaf senescence dates (LSD) in northern forests responded more strongly to warming than to cooling in autumn. Specifically, a 1 °C increase in temperature caused 7.5 ± 0.2 days' delay in LSD, whereas a 1 °C decrease led to an advance of LSD with 3.3 ± 0.1 days ( P < 0.001). This asymmetry in temperature effects on LSD is attributed to greater preoverwintering plant-resource acquisition requirements, lower frost risk, and greater water availability under warming than cooling conditions. These differential LSD responses highlight the nonlinear impact of temperature on autumn plant productivity, which current process-oriented models fail to accurately capture. Our findings emphasize the need to account for the asymmetric effects of warming and cooling on leaf senescence in model projections and in understanding vegetation-climate feedback mechanisms., (© The Author(s) 2024. Published by Oxford University Press on behalf of National Academy of Sciences.)

Published

2024

4. Water limitation drives species loss in grassland communities after nitrogen addition and warming.

Author

Li H, Chen J, Peñuelas J, Sardans J, Collins SL, Yu K, Song C, and Ye JS

Subjects

Temperature, Global Warming, Poaceae physiology, Grassland, Nitrogen metabolism, Water, Biomass, Biodiversity

Abstract

Nutrient addition, particularly nitrogen, often increases plant aboveground biomass but causes species loss. Asymmetric competition for light is frequently assumed to explain the biomass-driven species loss. However, it remains unclear whether other factors such as water can also play a role. Increased aboveground leaf area following nitrogen addition and warming may increase transpiration and cause water limitation, leading to a decline in diversity. To test this, we conducted field measurements in a grassland community exposed to nitrogen and water addition, and warming. We found that warming and/or nitrogen addition significantly increased aboveground biomass but reduced species richness. Water addition prevented species loss in either nitrogen-enriched or warmed treatments, while it partially mitigated species loss in the treatment exposed to increases in both temperature and nitrogen. These findings thus strongly suggest that water limitation can be an important driver of species loss as biomass increases after nitrogen addition and warming when soil moisture is limiting. This result is further supported by a meta-analysis of published studies across grasslands worldwide. Our study indicates that loss of grassland species richness in the future may be greatest under a scenario of increasing temperature and nitrogen deposition, but decreasing precipitation.

Published

2024

5. One-Stage Bilateral Severe Trismus Reconstruction: Simultaneous Utilization of Free Anterolateral Thigh and Tensor Fascia Latae Flaps From a Single Donor Thigh: Report of Three Cases.

Author

Ye JS, Benjamin NKL, Ramachandran S, Wang YC, Chang CW, and Kuo YR

Subjects

Humans, Male, Middle Aged, Mouth Neoplasms surgery, Mouth Neoplasms complications, Thigh surgery, Free Tissue Flaps transplantation, Plastic Surgery Procedures methods, Trismus surgery, Trismus etiology, Fascia Lata transplantation

Abstract

Bilateral trismus associated with oral cancer was commonly occurred in those who had received surgical intervention and radiotherapy. Complete release of bilateral fibrotic tissues followed by free flaps reconstruction was the main current surgical intervention. However, reconstructions of both defects mostly needed to harvest two flaps from different donor sites were time-consuming and increasing morbidities. Herein, we presented three cases who undergone modified reconstructive method by harvesting the anterolateral thigh (ALT) flap and tensor fascia latae (TFL) flap simultaneously from the same donor site. Trismus release was performed including resection of the buccal part and fibrotic tissue, myotomy of the masticatory and medial pterygoid muscles, and bilateral coronoidectomy. Case 1, a 52 years-old man, with severe trismus as the interincisal distance (IID) was about 0 mm. He undergone a combined 12 × 7.5 cm ALT and 11 × 6 cm TFL flap reconstruction from a single-donor thigh. The IID apparently increased to 37 mm after 1-year follow-up. Case 2, a 64 years-old man, went through a combination of 6 × 7 cm ALT and 6 × 6 cm TFL flap reconstruction from unilateral thigh for severe trismus. The IID significantly improved from 10 mm to 30 mm after one and a half-year follow-up. Case 3, a 53 years-old woman, with IID was around 0 mm before the surgery. A combined 9 × 3 cm ALT and 9 × 3 cm TFL flap reconstruction was performed as the IID enhanced to 20 mm after 6 months follow-up. This reconstruction method using ALT and TFL flaps harvested from a single-donor thigh simultaneously could be suitable for patients with bilateral severe trismus., (© 2024 Wiley Periodicals LLC.)

Published

2024

6. Mesenchymal stem cell therapy for liver fibrosis need "partner": Results based on a meta-analysis of preclinical studies.

Author

Xu Y, Wang XS, Zhou XL, Lu WM, Tang XK, Jin Y, and Ye JS

Subjects

Animals, Humans, Combined Modality Therapy methods, Disease Models, Animal, Disease Progression, Liver pathology, Liver drug effects, Mesenchymal Stem Cells, Randomized Controlled Trials as Topic, Treatment Outcome, Liver Cirrhosis pathology, Liver Cirrhosis therapy, Mesenchymal Stem Cell Transplantation methods

Abstract

Background: The efficacy of mesenchymal stem cells (MSCs) in treating liver fibrosis has been demonstrated in several clinical studies. However, their low survival and liver implantation rates remain problematic. In recent years, a large number of studies in animal models of liver fibrosis have shown that MSCs combined with drugs can improve the efficacy of MSCs in the treatment of liver fibrosis alone and inhibit its progression to end-stage liver disease. This has inspired new ways of thinking about treating liver fibrosis., Aim: To investigate the effectiveness and mechanisms of MSCs combined with drugs in treating liver fibrosis., Methods: Data sources included four electronic databases and were constructed until January 2024. The subjects, interventions, comparators, outcomes, and study design principle were used to screen the literature, and the quality of the literature was evaluated to assess the risk of bias. Relevant randomised controlled trials were selected, and the final 13 studies were included in the final study., Results: A total of 13 studies were included after screening. Pooled analysis showed that MSCs combined with drug therapy significantly improved liver function, promoted the repair of damaged liver tissues, reduced the level of liver fibrosis-related indexes, and effectively ameliorated hepatic fibrosis by modulating the hepatic inflammatory microenvironment, promoting the homing of MSCs, and regulating the relevant signaling pathways, and the treatment efficacy was superior to MSCs alone. However, the combined treatment statistics showed no ame-lioration in serum albumin levels (standardized mean difference = 0.77, 95% confidence interval: -0.13 to 1.68, P = 0.09)., Conclusion: In conclusion, MSCs combined with drugs for treating liver fibrosis effectively make up for the shortcomings of MSCs in their therapeutic effects. However, due to the different drugs, the treatment mechanism and effect also differ. Therefore, more randomized controlled trials are needed to compare the therapeutic efficacy of different drugs in combination with MSCs, aiming to select the "best companion" of MSCs in treating hepatic fibrosis., Competing Interests: Conflict-of-interest statement: The authors declare that they have no conflict of interest to disclose., (©The Author(s) 2024. Published by Baishideng Publishing Group Inc. All rights reserved.)

Published

2024

7. Retrorectal teratoma: A case report with insight on treatment and outcomes.

Author

Pan ZK, Wu MH, and Ye JS

Subjects

Humans, Treatment Outcome, Female, Male, Teratoma surgery, Teratoma diagnostic imaging, Rectal Neoplasms surgery, Rectal Neoplasms pathology

Abstract

Competing Interests: Declaration of competing interest The authors declare no competing interests.

Published

2024

8. Water addition but not reduction alters plant biomass-diversity relationship.

Author

Yu Y, Peñuelas J, Sardans J, Pei JY, Li G, Liu GL, and Ye JS

Subjects

Ecosystem, Grassland, Nitrogen analysis, Nitrogen metabolism, Plants, Rain, Soil chemistry, Biodiversity, Biomass, Water

Abstract

The relationship between plant aboveground biomass and diversity typically follows a unimodal pattern, showing a positive correlation in resource-poor habitats and a negative correlation in resource-rich environments. Precipitation is a crucial resource for both plant biomass and diversity in terrestrial ecosystems. However, the impact of precipitation changes on the relationship between plant biomass and diversity remains unclear. We conduct a water addition field experiment in a semiarid grassland and identify a unimodal relationship between plant biomass and species richness under ambient conditions. Water addition delays the declining phase of this unimodal curve and shift it upward compared to ambient conditions. Our meta-analysis of water addition experiments conducted across major biomes worldwide (grassland, shrubland, desert, and forest) supports this finding, while water reduction does not alter the biomass-diversity relationship. Water addition increases biomass in all climate but only increases species richness in arid and semiarid climate. Similarly, water reduction decreases biomass in all climate but only reduces species richness in arid and semiarid climate. Species richness in dry subhumid and humid climate does not change significantly. Furthermore, our field experiment shows that water addition increases plant diversity while decreasing soil inorganic nitrogen levels. The increase in one resource, such as water, leads to the scarcity of another, such as nutrient, thus postponing the declining phase of the plant biomass-diversity relationship typically observed in resource-rich habitats. Our research contributes to predicting the plant biomass-diversity relationship under changing precipitation conditions and highlights the complex interplay between water availability, nutrient level, and plant diversity., (© 2024 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

9. Magnetic resonance imaging-based prediction models for differentiating intraspinal schwannomas from meningiomas: classification and regression tree and random forest analysis.

Author

Xu Z, Wang YH, Wang YL, Feng YZ, Ye JS, Cheng ZY, and Cai XR

Abstract

Background: Due to the variations in surgical approaches and prognosis between intraspinal schwannomas and meningiomas, it is crucial to accurately differentiate between the two prior to surgery. Currently, there is limited research exploring the implementation of machine learning (ML) methods for distinguishing between these two types of tumors. This study aimed to establish a classification and regression tree (CART) model and a random forest (RF) model for distinguishing schwannomas from meningiomas., Methods: We retrospectively collected 88 schwannomas (52 males and 36 females) and 51 meningiomas (10 males and 41 females) who underwent magnetic resonance imaging (MRI) examinations prior to the surgery. Simple clinical data and MRI imaging features, including age, sex, tumor location and size, T1-weighted images (T1WI) and T2-weighted images (T2WI) signal characteristics, degree and pattern of enhancement, dural tail sign, ginkgo leaf sign, and intervertebral foramen widening (IFW), were reviewed. Finally, a CART model and RF model were established based on the aforementioned features to evaluate their effectiveness in differentiating between the two types of tumors. Meanwhile, we also compared the performance of the ML models to the radiologists. The receiver operating characteristic (ROC) curve, accuracy, sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were used to evaluate the models and clinicians' discrimination performance., Results: Our investigation reveals significant variations in ten out of 11 variables in the training group and five out of 11 variables in the test group when comparing schwannomas and meningiomas (P<0.05). Ultimately, the CART model incorporated five variables: enhancement pattern, the presence of IFW, tumor location, maximum diameter, and T2WI signal intensity (SI). The RF model combined all 11 variables. The CART model, RF model, radiologist 1, and radiologist 2 achieved an area under the curve (AUC) of 0.890, 0.956, 0.681, and 0.723 in the training group, and 0.838, 0.922, 0.580, and 0.659 in the test group, respectively., Conclusions: The RF prediction model exhibits more exceptional performance than an experienced radiologist in discriminating intraspinal schwannomas from meningiomas. The RF model seems to be better in discriminating the two tumors than the CART model., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-23-1194/coif). The authors have no conflicts of interest to declare., (2024 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published

2024

10. A global meta-analysis on the effects of organic and inorganic fertilization on grasslands and croplands.

Author

Shi TS, Collins SL, Yu K, Peñuelas J, Sardans J, Li H, and Ye JS

Subjects

Carbon Sequestration, Ecosystem, Agriculture methods, Crops, Agricultural growth & development, Conservation of Natural Resources methods, Grassland, Soil chemistry, Fertilizers analysis, Biomass, Biodiversity, Carbon metabolism, Carbon analysis

Abstract

A central role for nature-based solution is to identify optimal management practices to address environmental challenges, including carbon sequestration and biodiversity conservation. Inorganic fertilization increases plant aboveground biomass but often causes a tradeoff with plant diversity loss. It remains unclear, however, whether organic fertilization, as a potential nature-based solution, could alter this tradeoff by increasing aboveground biomass without plant diversity loss. Here we compile data from 537 experiments on organic and inorganic fertilization across grasslands and croplands worldwide to evaluate the responses of aboveground biomass, plant diversity, and soil organic carbon (SOC). Both organic and inorganic fertilization increase aboveground biomass by 56% and 42% relative to ambient, respectively. However, only inorganic fertilization decreases plant diversity, while organic fertilization increases plant diversity in grasslands with greater soil water content. Moreover, organic fertilization increases SOC in grasslands by 19% and 15% relative to ambient and inorganic fertilization, respectively. The positive effect of organic fertilization on SOC increases with increasing mean annual temperature in grasslands, a pattern not observed in croplands. Collectively, our findings highlight organic fertilization as a potential nature-based solution that can increase two ecosystem services of grasslands, forage production, and soil carbon storage, without a tradeoff in plant diversity loss., (© 2024. The Author(s).)

Published

2024

11. Giant cystic abdominal mass of struma ovarii: a diagnostic challenge.

Author

Ni YJ, Geng QL, and Ye JS

Subjects

Humans, Female, Abdomen, Abdominal Muscles, Struma Ovarii diagnostic imaging, Struma Ovarii surgery, Ovarian Neoplasms diagnostic imaging, Ovarian Neoplasms surgery

Published

2024

12. Generation of the stable propagation Bessel beam and the axial multifoci beam with pure phase elements.

Author

Liu SS, Zhang XT, Ye JS, Feng SF, Wang XK, Han P, Sun WF, and Zhang Y

Abstract

A recently proposed method is upgraded to convert two amplitude phase modulation systems (APMSs) to pure phase elements (PPEs), for generating the stable propagation Bessel beam and the axial multifoci beam, respectively. Phase functions of the PPEs are presented analytically. Numerical simulations by the complete Rayleigh-Sommerfeld method demonstrate that the converted PPE has implemented the same optical functionalities as the corresponding APMS, in either the longitudinal or the transverse direction. Compared with the traditional APMS, the converted PPE possesses many advantages such as fabrication process simplification, system complexity reduction, production cost conservation, alignment error avoidance, and experimental precision enhancement. These inherent advantages position the PPE as an ideal choice and driving force behind further advancements in optical system technology.

Published

2024

13. Neutrophil-to-lymphocyte ratio associated with symptomatic saccular unruptured intracranial aneurysm.

Author

Zheng DX, Lv YY, Zhang XJ, Ye JS, Zhang JX, Chen C, Luo B, and Yan D

Subjects

Adult, Female, Humans, Middle Aged, Aged, Male, Neutrophils, Retrospective Studies, Lymphocytes, Lymphocyte Count, Intracranial Aneurysm complications, Intracranial Aneurysm diagnosis

Abstract

Background and Purpose: Whether symptomatic unruptured intracranial aneurysms (UIAs) lead to change in circulating inflammation remains unclear. This study aims to evaluate the role of hematological inflammatory indicators in predicting symptomatic UIA., Methods: Adult patients diagnosed with saccular intracranial aneurysm from March 2019 to September 2023 were recruited retrospectively. Clinical and laboratory data, including the white blood cells (WBC), neutral counts (NEUT), lymphocyte counts (LYM), and monocyte counts (MONO) of each patient, were collected. The neutrophil-to-lymphocyte ratio (NLR) and lymphocyte-to-monocyte ratio (LMR) were calculated as NLR = NEUT/LYM, LMR = LYM/MONO, SII = PLT*NEUT/LYM. The hematological inflammatory indicators were compared in symptomatic saccular and asymptomatic UIA patients. Multivariable logistic regression analyses were performed to explore the factors predicting symptomatic UIA., Results: One hundred and fifty UIA patients with a mean age of 58.5 ± 12.4 were included, of which 68% were females. The NLR and LMR were significantly associated with symptomatic UIA, and the association remained in small UIAs (< 7 mm). The multiple logistic regression analysis showed that NLR was independently associated with symptomatic UIA. On ROC curve analysis, the optimal cutoff value of NLR to differentiate symptomatic from asymptomatic was 2.38. In addition, LMR was significantly associated with symptomatic UIA smaller than 7 mm., Conclusion: There was a significant correlation between NLR and symptomatic UIA. The NLR was independently associated with symptomatic UIA., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

14. Ideal suppression of Bessel beam intensity oscillations with a vortex phase plate.

Author

Zhang XT, Liu SS, Zhang X, Wang GC, Ye JS, Feng SF, Wang XK, Han P, Sun WF, Quan BG, and Zhang Y

Abstract

We propose what we believe to be a new kind of diffractive phase element, i.e., vortex phase plate (VPP) with phase singularities along the azimuth direction. Phase function of the proposed VPP is given analytically. Axial intensity oscillations of propagating Bessel beams are ideally suppressed by using the proposed VPP. Compared with the traditional amplitude mask, the proposed VPP takes such advantages as a simpler fabrication procedure and a lower cost.

Published

2023

15. Non-symmetric responses of leaf onset date to natural warming and cooling in northern ecosystems.

Author

He L, Wang J, Ciais P, Ballantyne A, Yu K, Zhang W, Xiao J, Ritter F, Liu Z, Wang X, Li X, Peng S, Ma C, Zhou C, Li ZL, Xie Y, and Ye JS

Abstract

The northern hemisphere has experienced regional cooling, especially during the global warming hiatus (1998-2012) due to ocean energy redistribution. However, the lack of studies about the natural cooling effects hampers our understanding of vegetation responses to climate change. Using 15,125 ground phenological time series at 3,620 sites since the 1950s and 31-year satellite greenness observations (1982-2012) covering the warming hiatus period, we show a stronger response of leaf onset date (LOD) to natural cooling than to warming, i.e. the delay of LOD caused by 1°C cooling is larger than the advance of LOD with 1°C warming. This might be because cooling leads to larger chilling accumulation and heating requirements for leaf onset, but this non-symmetric LOD response is partially offset by warming-related drying. Moreover, spring greening magnitude, in terms of satellite-based greenness and productivity, is more sensitive to LOD changes in the warming area than in the cooling. These results highlight the importance of considering non-symmetric responses of spring greening to warming and cooling when predicting vegetation-climate feedbacks., (© The Author(s) 2023. Published by Oxford University Press on behalf of National Academy of Sciences.)

Published

2023

16. Nitrogen addition delays the emergence of an aridity-induced threshold for plant biomass.

Author

Li H, Terrer C, Berdugo M, Maestre FT, Zhu Z, Peñuelas J, Yu K, Luo L, Gong JY, and Ye JS

Abstract

Crossing certain aridity thresholds in global drylands can lead to abrupt decays of ecosystem attributes such as plant productivity, potentially causing land degradation and desertification. It is largely unknown, however, whether these thresholds can be altered by other key global change drivers known to affect the water-use efficiency and productivity of vegetation, such as elevated CO 2 and nitrogen (N). Using >5000 empirical measurements of plant biomass, we showed that crossing an aridity (1-precipitation/potential evapotranspiration) threshold of ∼0.50, which marks the transition from dry sub-humid to semi-arid climates, led to abrupt declines in aboveground biomass (AGB) and progressive increases in root:shoot ratios, thus importantly affecting carbon stocks and their distribution. N addition significantly increased AGB and delayed the emergence of its aridity threshold from 0.49 to 0.55 ( P  < 0.05). By coupling remote sensing estimates of leaf area index with simulations from multiple models, we found that CO 2 enrichment did not alter the observed aridity threshold. By 2100, and under the RCP 8.5 scenario, we forecast a 0.3% net increase in the global land area exceeding the aridity threshold detected under a scenario that includes N deposition, in comparison to a 2.9% net increase if the N effect is not considered. Our study thus indicates that N addition could mitigate to a great extent the negative impact of increasing aridity on plant biomass in drylands. These findings are critical for improving forecasts of abrupt vegetation changes in response to ongoing global environmental change., (© The Author(s) 2023. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd.)

Published

2023

17. Generation of stable propagation Bessel beams and axial multifoci beams with binary amplitude filters.

Author

Zhang X, Zhang XT, Ye JS, Feng SF, Wang XK, Han P, Sun WF, and Zhang Y

Abstract

The binary amplitude filter (BAF) is employed to generate stable propagation Bessel beams and axial multifoci beams, rather than the traditional continuous amplitude filter (CAF). We introduce a parameter along the azimuth direction, i.e., angular order of the BAF, to weaken transverse intensity asymmetry. Numerical simulations reveal that the BAF implements the same optical functionalities as the CAF. The BAF holds advantages over the traditional CAF: a simpler fabrication process, a lower cost, and a higher experimental accuracy. It is believed that the BAF should have many practical applications in future optical systems.

Published

2023

18. Qualitative and quantitative plaque enhancement on high-resolution vessel wall imaging predicts symptomatic intracranial atherosclerotic stenosis.

Author

Huang LX, Wu XB, Liu YA, Guo X, Ye JS, Cai WQ, Wang SW, and Luo B

Subjects

Adult, Humans, Constriction, Pathologic complications, Retrospective Studies, Risk Factors, Magnetic Resonance Imaging methods, Stroke complications, Plaque, Atherosclerotic diagnostic imaging, Intracranial Arteriosclerosis diagnostic imaging

Abstract

Background and Purpose: Intracranial atherosclerotic stenosis (ICAS) is a major cause of ischemic stroke (IS), and high-resolution vessel wall imaging (HR-VWI) can be used to assess the plaque characteristics of ICAS. This study aimed to qualitatively and quantitatively assess plaque enhancement of ICAS and to investigate the relationship between plaque enhancement, plaque morphological features, and IS., Methods: Data from adult patients with ICAS from April 2018 to July 2022 were retrospectively collected, and all patients underwent HR-VWI examination. Plaque enhancement was qualitatively and quantitatively assessed, and the plaque-to-pituitary stalk contrast ratio (CR) indicated the degree of plaque enhancement. Plaque characteristics, such as plaque burden and area, were quantitatively measured using HR-VWI. Furthermore, receiver-operating characteristic (ROC) analysis was performed to assess the ability of CR to discriminate plaque enhancement. The patients were divided into a symptomatic ICAS group and an asymptomatic ICAS group according to the clinical and imaging characteristics. Univariate and multivariate analyses were performed to investigate which factors were significantly associated with plaque enhancement and symptomatic ICAS. The plaque burden and CR were compared using linear regression., Results: A total of 91 patients with ICAS were enrolled in this study. ICAS plaque burden was significantly associated with plaque enhancement (p = .037), and plaque burden was linearly positively correlated with CR (R = 0.357, p = .001). ROC analysis showed that the cutoff value of CR for plaque enhancement was 0.56 (specificity of 81.8%). Both plaque enhancement and plaque burden were significantly associated with symptomatic ICAS, and only plaque enhancement was an independent risk factor after multivariate analysis., Conclusion: Plaque burden was an independent risk factor for plaque enhancement and showed a linear positive correlation with CR. The cutoff value of CR for plaque enhancement was 0.56, and CR ≥ 0.56 was significantly associated with symptomatic ICAS, which was independently associated with plaque enhancement., (© 2023 The Authors. Brain and Behavior published by Wiley Periodicals LLC.)

Published

2023

19. Clinical value of GRACE score combined with DFR in predicting short-term prognosis of patients undergoing early PCI after thrombolysis for acute myocardial infarction.

Author

Liu F, Liu XJ, He YP, Liu GB, Lan T, and Ye JS

Subjects

Humans, Prognosis, Risk Factors, Thrombolytic Therapy, Risk Assessment, Retrospective Studies, Percutaneous Coronary Intervention adverse effects, Myocardial Infarction diagnosis, Myocardial Infarction drug therapy

Abstract

Objective: The aim of the study was to investigate the clinical value of the Global Registry of Arterial Events in Acute Coronary Syndromes (GRACE) score combined with the D-dimer/fibrinogen ratio (DFR) in predicting the short-term prognosis of patients undergoing percutaneous coronary intervention (PCI) early after thrombolysis for acute myocardial infarction (AMI)., Patients and Methods: A total of 102 patients who underwent PCI early after thrombolysis for AMI during April 2020 to January 2022 in our hospital were picked as study subjects. These subjects were assigned as the good prognosis group (without adverse cardiovascular events) and poor prognosis group (with adverse cardiovascular events) according to whether adverse cardiovascular events occurred during hospitalization and follow-up. Changes in GRACE scores and DFR levels in patients with different prognoses were analyzed. The GRACE score and DFR level of patients with different prognosis were analyzed. The clinic pathological characteristics were collected, and the risk factors for poor prognosis of AMI patients were analyzed by logistic risk regression; ROC curve was used to analyze the prognostic value of GRACE score combined with DFR in early PCI patients after AMI thrombolysis., Results: Compared with the good prognosis group, the GRACE score and DFR level in the poor prognosis group were much higher (p<0.001). Significant differences existed in blood pressure, ejection fraction, number of diseased branches, and Killip grading between the patients with good prognosis and those with poor prognosis (p<0.05). There existed no significant difference in clinical medication between the patients with good prognosis and those with poor prognosis (p>0.05). Logistic multivariate analysis indicated that GRACE score, DFR, ejection fraction, number of lesion branches, and Killip grade were all risk factors influencing the prognosis of patients undergoing early PCI after thrombolysis in AMI (p<0.05). The ROC curve was established and the area under the curve (AUC) of GRACE score, DFR, and combined detection were 0.815, 0.783, and 0.894, respectively, and the sensitivity and specificity were 80.24%, 60.42%, 83.71%, 66.78%, 91.42% and 77.83%, respectively. The AUC, sensitivity, and specificity of combined detection were higher than those of the two alone and had a higher predictive value for the short-term prognosis of patients., Conclusions: The GRACE score combined with DFR was of great value in diagnosing the short-term prognosis of patients undergoing PCI early after thrombolysis for AMI. Furthermore, the GRACE score, DFR, ejection fraction, number of lesion branches, and Killip classification were all important factors influencing the short-term prognosis of patients, which were of great significance in determining the prognosis of patients.

Published

2023

20. Global pattern of soil priming effect intensity and its environmental drivers.

Author

Mo F, Ren C, Yu K, Zhou Z, Phillips RP, Luo Z, Zhang Y, Dang Y, Han J, Ye JS, Vinay N, Liao Y, Xiong Y, and Wen X

Subjects

Carbon, Carbon Cycle, Soil Microbiology, Plants, Soil chemistry, Ecosystem

Abstract

The microbial priming effect-the decomposition of soil organic carbon (SOC) induced by plant inputs-has long been considered an important driver of SOC dynamics, yet we have limited understanding about the direction, intensity, and drivers of priming across ecosystem types and biomes. This gap hinders our ability to predict how shifts in litter inputs under global change can affect climate feedbacks. Here, we synthesized 18,919 observations of CO 2 effluxes in 802 soils across the globe to test the relative effects (i.e., log response ratio [RR]) of litter additions on native SOC decomposition and identified the dominant environmental drivers in natural ecosystems and agricultural lands. Globally, litter additions enhanced native SOC decomposition (RR = 0.35, 95% CI: 0.32-0.38), with greater priming effects occurring with decreasing latitude and more in agricultural soils (RR = 0.43) than in uncultivated soils (RR = 0.28). In natural ecosystems, soil pH and microbial community composition (e.g., bacteria: fungi ratio) were the best predictors of priming, with greater effects occurring in acidic, bacteria-dominated sandy soils. In contrast, the substrate properties of plant litter and soils were the most important drivers of priming in agricultural systems since soils with high C:N ratios and those receiving large inputs of low-quality litter had the highest priming effects. Collectively, our results suggest that, though different factors may control priming effects, the ubiquitous nature of priming means that alterations of litter quality and quantity owing to global changes will likely have consequences for global C cycling and climate forcing., (© 2022 The Ecological Society of America.)

Published

2022

21. Electrochemical Oxidative C(sp 2 )-H Amination of Aldehyde Hydrazones with Azoles.

Author

Fu ZM, Ye JS, and Huang JM

Abstract

A general and highly efficient method for the electrochemical C(sp 2 )-H amination of aldehyde hydrazones with azoles has been developed. This reaction proceeds under exogenous metal-, catalyst-, and oxidant-free conditions to provide aminated hydrazone derivatives in good to excellent yields. This strategy applies to both aromatic and aliphatic aldehyde hydrazones and tolerates a broad range of functional groups.

Published

2022

22. Terahertz near-field microscopy based on an air-plasma dynamic aperture.

Author

Wang XK, Ye JS, Sun WF, Han P, Hou L, and Zhang Y

Abstract

Terahertz (THz) near-field microscopy retains the advantages of THz radiation and realizes sub-wavelength imaging, which enables applications in fundamental research and industrial fields. In most THz near-field microscopies, the sample surface must be approached by a THz detector or source, which restricts the sample choice. Here, a technique was developed based on an air-plasma dynamic aperture, where two mutually perpendicular air-plasmas overlapped to form a cross-filament above a sample surface that modulated an incident THz beam. THz imaging with quasi sub-wavelength resolution (approximately λ/2, where λ is the wavelength of the THz beam) was thus observed without approaching the sample with any devices. Damage to the sample by the air-plasmas was avoided. Near-field imaging of four different materials was achieved, including metallic, semiconductor, plastic, and greasy samples. The resolution characteristics of the near-field system were investigated with experiment and theory. The advantages of the technique are expected to accelerate the advancement of THz microscopy., (© 2022. The Author(s).)

Published

2022

23. Lagged precipitation effect on plant productivity is influenced collectively by climate and edaphic factors in drylands.

Author

He L, Li ZL, Wang X, Xie Y, and Ye JS

Subjects

Carbon, Climate Change, Kazakhstan, Rain, Water, Ecosystem, Soil

Abstract

Lagged precipitation effect explains a large proportion of annual aboveground net primary productivity in some dryland ecosystems. Using satellite-derived plant productivity and precipitation datasets in the Northern Hemisphere drylands during 2000-2018, we identify 1111 pixels mainly located in the Tibetan Plateau, the western US, and Kazakhstan where productivities are significantly correlated with previous-year precipitation (hereafter, the lagged type). Differences in climatic and edaphic factors between the lagged and unlagged (pixels where productivities are not correlated with previous-year precipitation) types are evaluated. Permutational multivariate analysis of variance shows that the two types differ significantly regarding six climatic and edaphic factors. Compared to unlagged type, water availability, soil organic carbon, total nitrogen, field capacity, silt content and radiation are more sensitive to changes in precipitation in lagged type. Water availability is the most important factor for distinguishing the two types, followed by soil organic carbon, total nitrogen, field capacity, soil texture, and radiation. Our study suggests that the altered sensitivities of several climatic and edaphic factors to precipitation collectively affect the lagged effect of precipitation on productivity in drylands., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

24. miR-666-3p Mediates the Protective Effects of Mesenchymal Stem Cell-derived Exosomes Against Oxygen-glucose Deprivation and Reoxygenation- induced Cell Injury in Brain Microvascular Endothelial Cells via Mitogen-activated Protein Kinase Pathway.

Author

Kong LY, Li Y, Rao DY, Wu B, Sang CP, Lai P, Ye JS, Zhang ZX, Du ZM, Yu JJ, Gu L, Xie FC, Liu ZY, and Tang ZX

Subjects

Animals, Cell Hypoxia physiology, Glucose metabolism, Oxygen metabolism, Rats, Brain metabolism, Cell Survival physiology, Endothelial Cells metabolism, Exosomes metabolism, MAP Kinase Signaling System physiology, Mesenchymal Stem Cells metabolism, MicroRNAs metabolism

Abstract

Background: Previous studies have reported that mesenchymal stem cell (MSC)- derived exosomes can protect primary rat brain microvascular endothelial cells (BMECs) against oxygen-glucose deprivation and reoxygenation (OGD/R)-induced injury., Objective: The aim was to identify the key factors mediating the protective effects of MSC-derived exosomes., Methods: Primary rat BMECs were either pretreated or not pretreated with MSC-derived exosomes before exposure to OGD/R. Naïve cells were used as a control. After performing small RNA deep sequencing, quantitative reverse transcription polymerase chain reaction was performed to validate microRNA (miRNA) expression. The effects of rno-miR-666-3p on cell viability, apoptosis, and inflammation in OGD/R-exposed cells were assessed by performing the Cell Counting Kit 8 assay, flow cytometry, and enzyme-linked immunosorbent assay, respectively. Moreover, the role of rno-miR-666-3p in regulating gene expression in OGD/R-exposed cells was studied using mRNA deep sequencing. Lastly, to evaluate whether mitogen-activated protein kinase 1 (MAPK1) was the target of rno-miR-666-3p, western blotting and the dual-luciferase assay were performed., Results: MSC-derived exosomes altered the miRNA expression patterns in OGD/R-exposed BMECs. In particular, the expression levels of rno-miR-666-3p, rno-miR-92a-2-5p, and rnomiR- 219a-2-3p decreased in OGD/R-exposed cells compared with those in the control; however, MSC-derived exosomes restored the expression levels of these miRNAs under OGD/R conditions. rno-miR-666-3p overexpression enhanced cell viability and alleviated the apoptosis of OGD/R-exposed cells. Moreover, rno-miR-666-3p suppressed OGD/R-induced inflammation. mRNA deep sequencing revealed that rno-miR-666-3p is closely associated with the MAPK signaling pathway. Western blotting and the dual-luciferase assay confirmed that MAPK1 is the target of rnomiR- 666-3p., Conclusion: MSC-derived exosomes restore rno-miR-666-3p expression in OGD/R-exposed BMECs. Moreover, this specific miRNA exerts protective effects against OGD/R by suppressing the MAPK signaling pathway., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2021

25. Unaltered soil microbial community composition, but decreased metabolic activity in a semiarid grassland after two years of passive experimental warming.

Author

Fang C, Ke W, Campioli M, Pei J, Yuan Z, Song X, Ye JS, Li F, and Janssens IA

Abstract

Soil microbial communities regulate soil carbon feedbacks to climate warming through microbial respiration (i.e., metabolic rate). A thorough understanding of the responses of composition, biomass, and metabolic rate of soil microbial community to warming is crucial to predict soil carbon stocks in a future warmer climate. Therefore, we conducted a field manipulative experiment in a semiarid grassland on the Loess Plateau of China to evaluate the responses of the soil microbial community to increased temperature from April 2015 to December 2017. Soil temperature was 2.0°C higher relative to the ambient when open-top chambers (OTCs) were used. Warming did not affect microbial biomass or the composition of microbial functional groups. However, warming significantly decreased microbial respiration, directly resulting from soil pH decrease driven by the comediation of aboveground biomass increase, inorganic nitrogen increase, and moisture decrease. These findings highlight that the soil microbial community structure of semiarid grasslands resisted the short-term warming by 2°C, although its metabolic rate declined., Competing Interests: None declared., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2020

26. Legacy effects of precipitation amount and frequency on the aboveground plant biomass of a semi-arid grassland.

Author

Gong YH, Zhao DM, Ke WB, Fang C, Pei JY, Sun GJ, and Ye JS

Subjects

Poaceae, Rain, Biomass, Grassland

Abstract

Precipitation is known to have legacy effects on plant diversity and production of many terrestrial ecosystems. Precipitation regimes are expected to become more variable with increasing extreme precipitation events. However, how previous-year precipitation regimes affect the current-year aboveground biomass (AGB) remains largely unknown. Here we measured long-term (2004-2017) AGB in a semi-arid grassland of the Chinese Loess Plateau to evaluate the impact of previous-year precipitation amount on current-year AGB. Furthermore, to assess the response of current-year AGB to previous-year precipitation regimes, we conducted a field manipulation experiment that included three precipitation regimes during 2014-2017: (i) ambient precipitation, (ii) monthly added four 5 mm rain events, and (iii) monthly added one 20 mm event. Both the long-term (2004-2017) observations under ambient precipitation and short-term (2014-2017) measurements under manipulative treatments showed significant positive effects of previous-year precipitation on current-year AGB. Our path analysis suggested that previous-year precipitation frequency had negative effects on the current-year density and mean height of grass (Leymus secalinus) while had positive effects on forb (Artemisia capillaris). The forb had much smaller height and AGB (65% and 53% less, respectively) than the grass. Consequently, the AGB reduced in the weekly small events treatment, causing the sensitivity of AGB to precipitation to decrease. Therefore, our findings indicated that the impacts of precipitation regimes on plant community dynamics should be taken into consideration while assessing the precipitation legacy effect on ecosystem production., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2020

27. Mesenchymal Stem Cell-derived Exosomes Rescue Oxygen-Glucose Deprivation-induced Injury in Endothelial Cells.

Author

Kong LY, Liang MY, Liu JP, Lai P, Ye JS, Zhang ZX, Du ZM, Yu JJ, Gu L, Xie FC, Tang ZX, and Liu ZY

Subjects

Animals, Apoptosis physiology, Brain cytology, Cell Survival physiology, Coculture Techniques, Cytokines metabolism, Endothelial Cells cytology, Glucose metabolism, Mesenchymal Stem Cells cytology, NF-kappa B metabolism, Oxygen metabolism, Rats, Signal Transduction physiology, Brain metabolism, Cell Hypoxia physiology, Endothelial Cells metabolism, Exosomes metabolism, Mesenchymal Stem Cells metabolism

Abstract

Objective: The effects of mesenchymal stem cell (MSC)-derived exosomes on brain microvascular endothelial cells under oxygen-glucose deprivation (OGD), which mimic cells in deep hypothermic circulatory arrest (DHCA) in vitro, are yet to be studied., Methods: MSCs were co-cultured with primary rat brain endothelial cells, which were then exposed to OGD. Cell viability, apoptosis, the inflammatory factors (IL-1β, IL-6, and TNF-α), and the activation of inflammation-associated TLR4-mediated pyroptosis and the NF-κB signaling pathway were determined. Furthermore, exosomes derived from MSCs were isolated and incubated with endothelial cells to investigate whether the effect of MSCs is associated with MSCderived exosomes. Apoptosis, cell viability, and the inflammatory response were also analyzed in OGD-induced endothelial cells incubated with MSC-derived exosomes., Results: OGD treatment promoted endothelial cell apoptosis, induced the release of inflammatory factors IL-1β, IL-6, and TNF-α, and inhibited cell viability. Western blot analysis showed that OGD treatment-induced TLR4, and NF-κB p65 subunit phosphorylation and caspase-1 upregulation, while co-culture with MSCs could reduce the effect of OGD treatment on endothelial cells. As expected, the effect of MSC-derived exosomes on OGD-treated endothelial cells was similar to that of MSCs. MSC-derived exosomes alleviated the OGD-induced decrease in the viability of endothelial cells, and increased levels of apoptosis, inflammatory factors, and the activation of inflammatory and inflammatory focal pathways., Conclusion: Both MSCs and MSC-derived exosomes attenuated OGD-induced rat primary brain endothelial cell injury. These findings suggest that MSC-derived exosomes mediate at least some of the protective effects of MSCs on endothelial cells., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2020

28. Increasing microbial carbon use efficiency with warming predicts soil heterotrophic respiration globally.

Author

Ye JS, Bradford MA, Dacal M, Maestre FT, and García-Palacios P

Subjects

Global Warming, Heterotrophic Processes, Soil Microbiology, Carbon, Soil

Abstract

The degree to which climate warming will stimulate soil organic carbon (SOC) losses via heterotrophic respiration remains uncertain, in part because different or even opposite microbial physiology and temperature relationships have been proposed in SOC models. We incorporated competing microbial carbon use efficiency (CUE)-mean annual temperature (MAT) and enzyme kinetic-MAT relationships into SOC models, and compared the simulated mass-specific soil heterotrophic respiration rates with multiple published datasets of measured respiration. The measured data included 110 dryland soils globally distributed and two continental to global-scale cross-biome datasets. Model-data comparisons suggested that a positive CUE-MAT relationship best predicts the measured mass-specific soil heterotrophic respiration rates in soils distributed globally. These results are robust when considering models of increasing complexity and competing mechanisms driving soil heterotrophic respiration-MAT relationships (e.g., carbon substrate availability). Our findings suggest that a warmer climate selects for microbial communities with higher CUE, as opposed to the often hypothesized reductions in CUE by warming based on soil laboratory assays. Our results help to build the impetus for, and confidence in, including microbial mechanisms in soil biogeochemical models used to forecast changes in global soil carbon stocks in response to warming., (© 2019 John Wiley & Sons Ltd.)

Published

2019

29. Corrigendum to "Cloud-based BP system integrated with CPOE improves self-management of the hypertensive patients: A randomized controlled trial" Comput Methods Programs Biomed 2016;132:105-113.

Author

Lee P, Liu JC, Hsieh MH, Hao WR, Tseng YT, Liu SH, Lin YK, Sung LC, Huang JH, Yang HY, Ye JS, Zheng HS, Hsu MH, Syed-Abdul S, Lu R, Nguyen PA, Iqbal U, Huang CW, Jian WS, and Li YJ

Published

2019

30. Multifunctionality debt in global drylands linked to past biome and climate.

Author

Ye JS, Delgado-Baquerizo M, Soliveres S, and Maestre FT

Subjects

Biodiversity, Conservation of Natural Resources, Plants metabolism, Temperature, Climate, Ecosystem, Soil chemistry

Abstract

Past vegetation and climatic conditions are known to influence current biodiversity patterns. However, whether their legacy effects affect the provision of multiple ecosystem functions, that is, multifunctionality, remains largely unknown. Here we analyzed soil nutrient stocks and their transformation rates in 236 drylands from six continents to evaluate the associations between current levels of multifunctionality and legacy effects of the Last Glacial Maximum (LGM) desert biome distribution and climate. We found that past desert distribution and temperature legacy, defined as increasing temperature from LGM, were negatively correlated with contemporary multifunctionality even after accounting for predictors such as current climate, soil texture, plant species richness, and site topography. Ecosystems that have been deserts since the LGM had up to 30% lower contemporary multifunctionality compared with those that were nondeserts during the LGM. In addition, ecosystems that experienced higher warming rates since the LGM had lower contemporary multifunctionality than those suffering lower warming rates, with a ~9% reduction per extra degree Celsius. Past desert distribution and temperature legacies had direct negative effects, while temperature legacy also had indirect (via soil sand content) negative effects on multifunctionality. Our results indicate that past biome and climatic conditions have left a strong "functionality debt" in global drylands. They also suggest that ongoing warming and expansion of desert areas may leave a strong fingerprint in the future functioning of dryland ecosystems worldwide that needs to be considered when establishing management actions aiming to combat land degradation and desertification., (© 2019 John Wiley & Sons Ltd.)

Published

2019

31. Impacts of climate change and human activities on grassland vegetation variation in the Chinese Loess Plateau.

Author

Zheng K, Wei JZ, Pei JY, Cheng H, Zhang XL, Huang FQ, Li FM, and Ye JS

Subjects

China, Models, Theoretical, Biomass, Climate Change, Environmental Monitoring methods, Grassland, Human Activities

Abstract

China initiated the "Grain for Green Project" in 1999 to mitigate soil erosion. The vegetation cover of the Chinese Loess Plateau, one of the most erosive regions in the world, has been greatly increased. However, studies on quantitatively investigating the climate change and human activities on vegetation coverage change were rare. In this study, spatio-temporal changes in vegetation coverage were investigated using MODIS normalized difference vegetation index (NDVI) data over 2000-2016. And a new method was introduced using Net Primary Productivity (NPP) model and relationship between NPP and NDVI to quantitatively and spatially distinguish the NDVI affected by climate change and human activities. Results showed that mean NDVI value over 2009-2016 were 14.46% greater than that over 2000-2007. In order to quantify the contribution of climate change and human activities to vegetation change, an NPP model suitable for the grassland of the Chinese Loess Plateau was identified using biomass observations from field survey and literature. The NDVI affected by climate change (NDVI climate ) was estimated by the NPP model and the relationship between NPP and NDVI. And the NDVI affected by human activities (NDVI human ) was calculated by actual NDVI minus NDVI climate . Comparison of the two stages showed that human activities and climate change contributed 42.35% and 57.65% respectively to the ΔNDVI on grassland in the Loess Plateau. After analysis of numerous NDVI human related factors, the slopes restored by the "Grain for Green Project" was considered the main influence factor of human activities., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

32. S-CAP extends pathogenicity prediction to genetic variants that affect RNA splicing.

Author

Jagadeesh KA, Paggi JM, Ye JS, Stenson PD, Cooper DN, Bernstein JA, and Bejerano G

Subjects

Exome genetics, Humans, Mutation genetics, Genetic Variation genetics, RNA Splicing genetics

Abstract

Exome analysis of patients with a likely monogenic disease does not identify a causal variant in over half of cases. Splice-disrupting mutations make up the second largest class of known disease-causing mutations. Each individual (singleton) exome harbors over 500 rare variants of unknown significance (VUS) in the splicing region. The existing relevant pathogenicity prediction tools tackle all non-coding variants as one amorphic class and/or are not calibrated for the high sensitivity required for clinical use. Here we calibrate seven such tools and devise a novel tool called Splicing Clinically Applicable Pathogenicity prediction (S-CAP) that is over twice as powerful as all previous tools, removing 41% of patient VUS at 95% sensitivity. We show that S-CAP does this by using its own features and not via meta-prediction over previous tools, and that splicing pathogenicity prediction is distinct from predicting molecular splicing changes. S-CAP is an important step on the path to deriving non-coding causal diagnoses.

Published

2019

33. SIRT3 activator honokiol ameliorates surgery/anesthesia-induced cognitive decline in mice through anti-oxidative stress and anti-inflammatory in hippocampus.

Author

Ye JS, Chen L, Lu YY, Lei SQ, Peng M, and Xia ZY

Subjects

Anesthetics, Inhalation adverse effects, Anesthetics, Inhalation pharmacology, Animals, Anti-Inflammatory Agents pharmacology, Cognitive Dysfunction etiology, Cognitive Dysfunction metabolism, Female, Hippocampus metabolism, Inflammation drug therapy, Inflammation etiology, Inflammation metabolism, Laparotomy, Mice, Inbred C57BL, Nootropic Agents pharmacology, Oxidative Stress drug effects, Oxidative Stress physiology, Postoperative Complications metabolism, Random Allocation, Sevoflurane adverse effects, Sevoflurane pharmacology, Anesthesia adverse effects, Biphenyl Compounds pharmacology, Cognitive Dysfunction drug therapy, Hippocampus drug effects, Lignans pharmacology, Postoperative Complications drug therapy, Sirtuin 3 metabolism

Abstract

Aims: Increasing evidence indicates that neuroinflammatory and oxidative stress play two pivotal roles in cognitive impairment after surgery. Honokiol (HNK), as an activator of Sirtuin3 (SIRT3), has potential multiple biological functions. The aim of these experiments is to evaluate the effects of HNK on surgery/anesthesia-induced cognitive decline in mice., Methods: Adult C57BL/6 mice received a laparotomy under sevoflurane anesthesia and HNK or SIRT3 inhibitor (3-TYP) treatment. Cognitive function and locomotor activity of mice were evaluated using fear conditioning test and open field test on postoperative 1 and 3 days. Neuronal apoptosis in CA1 and CA3 area of hippocampus was examined using TUNEL assay. And Western blot was applied to measure the expression of pro-inflammatory cytokines and SIRT3/SOD2 signaling-associated proteins in hippocampus. Meanwhile, SIRT3 positive cells were calculated by immunohistochemistry. The mitochondrial membrane potential, malondialdehyde (MDA), and mitochondrial radical oxygen species (mtROS) were detected using standard methods., Results: Honokiol attenuated surgery-induced memory loss and neuronal apoptosis, decreased neuroinflammatory response, and ameliorated oxidative damage in hippocampus. Notably, surgery/anesthesia induced an obviously decrease in hippocampal SIRT3 expression, whereas the HNK increased SIRT3 expression and thus decreased the acetylation of superoxide dismutase 2 (SOD2). However, 3-TYP treatment inhibited the HNK's rescuing effects., Conclusions: These results suggested that activation of SIRT3 by honokiol may attenuate surgery/anesthesia-induced cognitive impairment in mice through regulation of oxidative stress and neuroinflammatory in hippocampus., (© 2018 John Wiley & Sons Ltd.)

Published

2019

34. Honokiol-Mediated Mitophagy Ameliorates Postoperative Cognitive Impairment Induced by Surgery/Sevoflurane via Inhibiting the Activation of NLRP3 Inflammasome in the Hippocampus.

Author

Ye JS, Chen L, Lu YY, Lei SQ, Peng M, and Xia ZY

Subjects

Animals, Apoptosis drug effects, Autophagy drug effects, Biphenyl Compounds pharmacology, Cognitive Dysfunction etiology, Dentate Gyrus metabolism, Dentate Gyrus pathology, Female, Hippocampus ultrastructure, Lignans pharmacology, Mice, Inbred C57BL, Microglia drug effects, Microglia metabolism, Mitochondria drug effects, Mitochondria metabolism, Mitochondria ultrastructure, Neurons drug effects, Neurons pathology, Oxidative Stress drug effects, Postoperative Complications etiology, Reactive Oxygen Species metabolism, Biphenyl Compounds therapeutic use, Cognitive Dysfunction drug therapy, Hippocampus metabolism, Inflammasomes metabolism, Lignans therapeutic use, Mitophagy drug effects, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Postoperative Complications drug therapy, Sevoflurane adverse effects

Abstract

Background: The potential mechanism of postoperative cognitive impairment is still largely unclear. The activation of NLRP3 inflammasome had been reported to be involved in neurodegenerative diseases, including postoperative cognitive change, and is closely related to mitochondrial ROS and mitophagy. Honokiol (HNK) owns multiple organic protective effects. This study is aimed at observing the neuroprotective effect of HNK in postoperative cognitive change and examining the role of HNK in the regulation of mitophagy and the relationship between these effects and NLRP3 inflammasome activation in mice induced by surgery/anesthesia., Methods: In this study, mice were divided into several groups: control group, surgery group, surgery+HNK group, and surgery+HNK+3-methyladenine (3-MA) group. Hippocampal tissue samples were harvested and used for proinflammatory cytokines, mitochondrial ROS, and malondialdehyde (MDA) assay. The process of mitophagy and the activation of NLRP3 inflammasome were observed by Western blot, immunohistochemistry, and transmission electron microscopy., Results: The results showed that HNK treatment obviously recovered the postoperative decline and enhanced the expressions of LC3-II, Beclin-1, Parkin, and PINK1 at protein levels after surgery/sevoflurane treatment, which are both an autophagy marker and a mitophagy marker. In addition, HNK attenuated mitochondrial structure damage and reduced mtROS and MDA generation, which are closely associated with NLRP3 inflammasome activation. Honokiol-mediated mitophagy inhibited the activation of NLRP3 inflammasome and neuroinflammation in the hippocampus. Using 3-MA, an autophagy inhibitor, the neuroprotective effects of HNK on mitophagy and NLRP3 inflammasome activation were eliminated., Conclusion: These results indicated that HNK-mediated mitophagy ameliorates postoperative cognitive impairment induced by surgery/sevoflurane. This neuroprotective effect may be involved in inhibiting the activation of NLRP3 inflammasome and suppressing inflammatory responses in the hippocampus.

Published

2019

35. Suppression of BMX-ARHGAP fusion gene inhibits epithelial-mesenchymal transition in gastric cancer cells via RhoA-mediated blockade of JAK/STAT axis.

Author

Xu XF, Wang JJ, Ding L, Ye JS, Huang LJ, Tao L, Gao F, and Ji Y

Subjects

Adult, Animals, Cell Line, Tumor, Cell Movement genetics, Cell Survival genetics, Female, Follow-Up Studies, GTPase-Activating Proteins metabolism, Gene Silencing, Humans, Janus Kinase 2 antagonists & inhibitors, Lymphatic Metastasis, Male, Mice, Mice, Inbred NOD, Mice, Nude, Mice, SCID, Middle Aged, Neoplasm Invasiveness genetics, Prognosis, Progression-Free Survival, Protein-Tyrosine Kinases metabolism, RNA, Small Interfering genetics, STAT3 Transcription Factor antagonists & inhibitors, Stomach Neoplasms mortality, Survival Rate, Transfection, Transplantation, Heterologous, rhoA GTP-Binding Protein antagonists & inhibitors, Epithelial-Mesenchymal Transition genetics, GTPase-Activating Proteins genetics, Janus Kinase 2 metabolism, Protein-Tyrosine Kinases genetics, STAT3 Transcription Factor metabolism, Stomach Neoplasms pathology, rhoA GTP-Binding Protein metabolism

Abstract

Gastric cancer (GC) is one of the main causes of cancer-related mortality worldwide. Epithelial-mesenchymal transition (EMT) is an important biological process involving the process by which malignant tumor cells obtain the ability of migration, invasion, resistance of apoptosis, and degradation in the extracellular matrix. The current study aimed at investigating whether bone marrow X kinase Rho GTPase activating protein 12 (BMX-ARHGAP) fusion gene affects GC. First, short hairpin RNA (shRNA) against BMX-ARHGAP or BMX-ARHGAP were introduced to treat SGC-7901 cells with the highest BMX-ARHGAP among the five GC cell lines (SGC-7901, MKN-45, NCI-N87, SNU-5, and AGS). Next, cell vitality, drug resistance, migration, and invasion of SGC-7901 cells, activities of Rho and JAK/STAT axis, as well as EMT and lymph node metastasis (LNM) were evaluated. The survival rate of the mice was then determined through the transfection of the specific pathogen-free NOD-SCID mice with treated SGC-7901 cells. The results showed that BMX-ARHGAP expression was associated with the infiltration degree of GC tumor and poor prognosis for patients with GC. BMX-ARHGAP silencing was found to play an inhibitory role in the Rho and JAK/STAT axis to reduce cell vitality, drug resistance, migration and invasion, reverse EMT process, as well as inhibit LNM. BMX-ARHGAP overexpression was observed to have induced effects on GC cells as opposed to those inhibited by BMX-ARHGAP silencing. The survival rate of mice was increased after transfection with silenced BMX-ARHGAP. These findings provided evidence that the suppression of BMX-ARHGAP resulted in the inhibition of RhoA to restraint the development of GC cells by blocking the JAK/STAT axis., (© 2018 Wiley Periodicals, Inc.)

Published

2019

36. Yunnanterpene G, a spiro-triterpene from the roots of Cimicifuga foetida , downregulates the expression of CD147 and MMPs in PMA differentiated THP-1 cells.

Author

Lu NH, Zhang ZW, Guo RW, Yang LX, Song YX, Ye JS, and Shi YK

Abstract

A new cycloartane triterpene, yunnanterpene G (1), containing an oxaspiro[5.4]decane moiety, was purified from the roots of Cimicifuga foetida . The new structure was determined from spectroscopic data and the X-ray diffraction method. Biological evaluations revealed that compound 1 significantly inhibited the mRNA expression of the atherosclerosis-related adhesion molecule CD147 (extracellular matrix metalloproteinase inducer, EMMPRIN), and proteolytic enzymes matrix metalloproteinase 2 (MMP-2), MMP-9 and MMP-14, in a dose-dependent manner in phorbol-12-myristate-13-acetate-induced human monocytic THP-1 cells by quantitative real-time PCR method. At the same time, the migration ability of the induced THP-1 cells was potently inhibited. Furthermore, western blot experiments showed that compound 1 at 25 μM strongly suppressed phosphorylation of NF-κB p65 and p38 MAPK in the differentiated THP-1 cells., Competing Interests: There are no conflicts of interest to declare., (This journal is © The Royal Society of Chemistry.)

Published

2018

37. Under which climate and soil conditions the plant productivity-precipitation relationship is linear or nonlinear?

Author

Ye JS, Pei JY, and Fang C

Abstract

Understanding under which climate and soil conditions the plant productivity-precipitation relationship is linear or nonlinear is useful for accurately predicting the response of ecosystem function to global environmental change. Using long-term (2000-2016) net primary productivity (NPP)-precipitation datasets derived from satellite observations, we identify >5600pixels in the North Hemisphere landmass that fit either linear or nonlinear temporal NPP-precipitation relationships. Differences in climate (precipitation, radiation, ratio of actual to potential evapotranspiration, temperature) and soil factors (nitrogen, phosphorous, organic carbon, field capacity) between the linear and nonlinear types are evaluated. Our analysis shows that both linear and nonlinear types exhibit similar interannual precipitation variabilities and occurrences of extreme precipitation. Permutational multivariate analysis of variance suggests that linear and nonlinear types differ significantly regarding to radiation, ratio of actual to potential evapotranspiration, and soil factors. The nonlinear type possesses lower radiation and/or less soil nutrients than the linear type, thereby suggesting that nonlinear type features higher degree of limitation from resources other than precipitation. This study suggests several factors limiting the responses of plant productivity to changes in precipitation, thus causing nonlinear NPP-precipitation pattern. Precipitation manipulation and modeling experiments should combine with changes in other climate and soil factors to better predict the response of plant productivity under future climate., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

38. Flattening axial intensity oscillations of a diffracted Bessel beam through a cardioid-like hole.

Author

Ye JS, Xie LJ, Wang XK, Feng SF, Sun WF, and Zhang Y

Abstract

We present a new feasible way to flatten the axial intensity oscillations for diffraction of a finite-sized Bessel beam, through designing a cardioid-like hole. The boundary formula of the cardioid-like hole is given analytically. Numerical results by the complete Rayleigh-Sommerfeld method reveal that the Bessel beam propagates stably in a considerably long axial range, after passing through the cardioid-like hole. Compared with the gradually absorbing apodization technique in previous papers, in this paper a hard truncation of the incident Bessel beam is employed at the cardioid-like hole edges. The proposed hard apodization technique takes two advantages in suppressing the axial intensity oscillations, i.e., easier implementation and higher accuracy. It is expected to have practical applications in laser machining, light sectioning, or optical trapping.

Published

2018

39. New design model for high efficiency cylindrical diffractive microlenses.

Author

Li Y, Zhao H, Feng SF, Ye JS, Wang XK, Sun WF, Han P, and Zhang Y

Abstract

A new model, i.e., the decreasing thickness model (DTM) is proposed and employed for designing the cylindrical diffractive microlenses (CDMs). Focal performances of the designed CDMs are theoretically investigated by solving Maxwell's equations with the boundary element method. For comparison, the CDMs designed by the traditional equal thickness model (ETM) are also studied. Theoretical simulations demonstrate that focal performances of the designed CDMs are improved a lot via replacing the traditional ETM with the proposed DTM. Concretely, the focal efficiency is heightened and the focal spot size is shrunk. Experimental measurements verify the theoretical simulations well. Especially, the above-mentioned improvements become more prominent for the CDM with a higher numerical aperture.

Published

2017

40. Combined Effects of Elevated O 3 Concentrations and Enhanced UV-B Radiation of the Biometric and Biochemical Properties of Soybean Roots.

Author

Mao B, Wang Y, Zhao TH, Tian RR, Wang W, and Ye JS

Abstract

Enhanced ultraviolet-B (UV-B) radiation and elevated tropospheric ozone alone may inhibit the growth of agricultural crops. However, research regarding their combined effects on growth and biochemical properties of roots is still scarce. Using open top chambers, we monitored the response of growth, secondary metabolites, endogenous hormones and enzyme activities of soybean roots to elevated O 3 and enhanced UV-B individually and in combination at stages of branching, flowering and podding. Our results indicated that the root biomass decreased by 23.6, 25.2, and 27.7%, and root oxidative capacity declined by11.2, 39.9, and 55.7% exposed to elevated O 3 , enhanced UV-B, and O 3 + UV-B, respectively, compared to the control treatment. Concentrations of quercetin and ABA were significantly increased, while concentrations of total polyphenol and P-coumaric acid responded insignificantly to elevated O 3 , enhanced UV-B, and O 3 + UV-B during the whole period of soybean growth. Elevated O 3 , enhanced UV-B and O 3 + UV-B showed significant negative effects on superoxide dismutase (EC 1.15.1.1) activity at flowering stage, on activities of peroxidase (EC 1.11.1.7) and catalase (EC 1.11.1.6) at podding stage, on ascorbate peroxidase activity during the whole period of soybean growth. Moreover, compared to hormones and enzyme activity, secondary metabolisms showed stronger correlation with root growth exposed to elevated O 3 and enhanced UV-B individually and in combination. Our study concluded that combined effects of O 3 and UV-B radiation significantly exacerbated the decline of soybean root growth, and for annual legumes, the inhibited root growth exposed to O 3 and/or UV-B radiation was mostly associated with secondary metabolisms (especially flavonoids).

Published

2017

41. Combined effects of O3 and UV radiation on secondary metabolites and endogenous hormones of soybean leaves.

Author

Mao B, Yin H, Wang Y, Zhao TH, Tian RR, Wang W, and Ye JS

Subjects

Electric Conductivity, Flowers drug effects, Flowers physiology, Malondialdehyde metabolism, Plant Leaves drug effects, Plant Leaves radiation effects, Principal Component Analysis, Seeds drug effects, Seeds metabolism, Seeds radiation effects, Glycine max drug effects, Glycine max radiation effects, Ozone pharmacology, Plant Growth Regulators pharmacology, Plant Leaves metabolism, Secondary Metabolism drug effects, Secondary Metabolism radiation effects, Glycine max metabolism, Ultraviolet Rays

Abstract

Enhanced ultraviolet radiation (UV) and elevated tropospheric ozone (O3) may individually cause reductions in the growth and productivity of important agricultural crops. However, research regarding their combined effects on important agricultural crops is still scarce, especially on changes in secondary metabolites and endogenous hormones, which are important protective substances and signal components that control plant responses to environment stresses. In this study, using an experimental setup of open top chambers, we monitored the responses of seed yield per plant, leaf secondary metabolites and leaf endogenous hormones under the stress of elevated O3 and enhanced UV radiation individually, as well as their combined stress. The results indicated that elevated O3 (110 ± 10 nmol mol-1 for 8 hours per day) and enhanced UV radiation (1.73 kJ h-1 m-2) significantly decreased seed yield per plant. Concentrations of rutin, queretin and total flavonoids were significantly increased under the elevated O3 treatment or the enhanced UV radiation treatment or the combination treatment at flowering and podding stages, and concentrations of rutin, queretin and total flavonoids showed significant correlations with seed yield per plant. Concentrations of ABA and IAA decreased under the three treatments. There was a significant positive correlation between the ABA concentration and seed yield and a negative correlation between the IAA concentration and seed yield. We concluded that the combined stress of elevated O3 and UV radiation significantly decreased seed yield per plant. Yield reduction was associated with changes in the concentrations of flavonoids, ABA and IAA in soybean leaves. The effects of the combined O3 and UV stress were always greater than those of the individual stresses alone.

Published

2017

42. Seasonal responses of soil respiration to warming and nitrogen addition in a semi-arid alfalfa-pasture of the Loess Plateau, China.

Author

Fang C, Ye JS, Gong Y, Pei J, Yuan Z, Xie C, Zhu Y, and Yu Y

Abstract

Responses of soil respiration (R s ) to increasing nitrogen (N) deposition and warming will have far-reaching influences on global carbon (C) cycling. However, the seasonal (growing and non-growing seasons) difference of R s responses to warming and N deposition has rarely been investigated. We conducted a field manipulative experiment in a semi-arid alfalfa-pasture of northwest China to evaluate the response of R s to nitrogen addition and warming from March 2014 to March 2016. Open-top chambers were used to elevate temperature and N was enriched at a rate of 4.42g m -2 yr -1 with NH 4 NO 3 . Results showed that (1) N addition increased R s by 14% over the two-year period; and (2) warming stimulated R s by 15% in the non-growing season, while inhibited it by 5% in the growing season, which can be explained by decreased plant coverage and soil water. The main effect of N addition did not change with time, but that of warming changed with time, with the stronger inhibition observed in the dry year. When N addition and warming were combined, an antagonistic effect was observed in the growing season, whereas a synergism was observed in the non-growing season. Overall, warming and N addition did not affect the Q10 values over the two-year period, but these treatments significantly increased the Q10 values in the growing season compared with the control treatment. In comparison, combined warming and nitrogen addition significantly reduced the Q10 values compared with the single factor treatment. These results suggest that the negative indirect effect of warming-induced water stress overrides the positive direct effect of warming on R s . Our results also imply the necessity of considering the different R s responses in the growing and non-growing seasons to climate change to accurately evaluate the carbon cycle in the arid and semi-arid regions., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

43. MicroRNA-99a inhibits insulin-induced proliferation, migration, dedifferentiation, and rapamycin resistance of vascular smooth muscle cells by inhibiting insulin-like growth factor-1 receptor and mammalian target of rapamycin.

Author

Zhang ZW, Guo RW, Lv JL, Wang XM, Ye JS, Lu NH, Liang X, and Yang LX

Subjects

Animals, Cell Dedifferentiation drug effects, Cell Movement drug effects, Cell Proliferation drug effects, Cell Survival drug effects, Dose-Response Relationship, Drug, Endothelial Cells cytology, Endothelial Cells metabolism, Gene Expression Regulation, Insulin metabolism, Mice, Mice, Inbred C57BL, MicroRNAs metabolism, Molecular Mimicry, Muscle, Smooth, Vascular cytology, Muscle, Smooth, Vascular drug effects, Muscle, Smooth, Vascular metabolism, Oligoribonucleotides genetics, Oligoribonucleotides metabolism, Primary Cell Culture, Receptor, IGF Type 1 metabolism, Signal Transduction, TOR Serine-Threonine Kinases metabolism, Endothelial Cells drug effects, Insulin pharmacology, MicroRNAs genetics, Receptor, IGF Type 1 genetics, TOR Serine-Threonine Kinases genetics

Abstract

Patients with type 2 diabetes mellitus (T2DM) are characterized by insulin resistance and are subsequently at high risk for atherosclerosis. Hyperinsulinemia has been associated with proliferation, migration, and dedifferentiation of vascular smooth muscle cells (VSMCs) during the pathogenesis of atherosclerosis. Moreover, insulin-like growth factor-1 receptor (IGF-1R) and mammalian target of rapamycin (mTOR) have been demonstrated to be the underlying signaling pathways. Recently, microRNA-99a (miR-99a) has been suggested to regulate the phenotypic changes of VSMCs in cancer cells. However, whether it is involved in insulin-induced changes of VSCMs has not been determined. In this study, we found that insulin induced proliferation, migration, and dedifferentiation of mouse VSMCs in a dose-dependent manner. Furthermore, the stimulating effects of high-dose insulin on proliferation, migration, and dedifferentiation of mouse VSMCs were found to be associated with the attenuation of the inhibitory effects of miR-99a on IGF-1R and mTOR signaling activities. Finally, we found that the inducing effect of high-dose insulin on proliferation, migration, and dedifferentiation of VSMCs was partially inhibited by an active mimic of miR-99a. Taken together, these results suggest that miR-99a plays a key regulatory role in the pathogenesis of insulin-induced proliferation, migration, and phenotype conversion of VSMCs at least partly via inhibition of IGF-1R and mTOR signaling. Our results provide evidence that miR-99a may be a novel target for the treatment of hyperinsulinemia-induced atherosclerosis., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

44. [Effect of PFOA on Oxidative Stress and Membrane Damage of Escherichia coli ].

Author

Yang M, Li Y, Ye JS, Long Y, and Qin HM

Subjects

Adenosine Triphosphatases metabolism, Apoptosis, Malondialdehyde metabolism, Reactive Oxygen Species metabolism, Caprylates chemistry, Cell Membrane drug effects, Escherichia coli drug effects, Fluorocarbons chemistry, Oxidative Stress

Abstract

Perfluorooctanoic acid (PFOA) is widely used in industrial production because of its strong chemical stabilities and good hydrophobic and oleophobic properties. It was considered to be a widespread persistent organic pollutant in environment in recent years. The oxidative stress and membrane damage of Escherichia coli exposed to PFOA were measured by flow cytometry (FCM) and the toxic mechanism of PFOA was also preliminarily explored. The results showed that, under the stress of PFOA, the intracellular reactive oxygen species (ROS) content of E. coli increased, the unsaturation degree of fatty acid decreased, the malondialdehyde (MDA) content increased, the membrane permeability increased, the membrane potential decreased, and the activities of Na + K + -ATPase and Ca 2+ Mg 2+ -ATPase showed a compensatory increase first and then decreased. Therefore, owing to the stress of PFOA, the higher intracellular ROS in E. coli reacted with membrane unsaturated fatty acids by peroxidation,and then reduced cell membrane fatty acid saturation, accumulated MDA in cells, and further caused damage to cell membrane, reduced the ATPase activity, and eventually resulted in inactivation or apoptosis of E. coli . This study provided more evidence for the further study on environmental ecological toxicology of PFOA.

Published

2017

45. Stratified aspartate aminotransferase-to-platelet ratio index accurately predicts survival in hepatocellular carcinoma patients undergoing curative liver resection.

Author

Yang HJ, Jiang JH, Yang YT, Guo Z, Li JJ, Liu XH, Lu F, Zeng FH, Ye JS, Zhang KL, Chen NZ, Xiang BD, and Li LQ

Subjects

Adult, Aged, Carcinoma, Hepatocellular pathology, Carcinoma, Hepatocellular surgery, Disease-Free Survival, Female, Humans, Liver Neoplasms pathology, Liver Neoplasms surgery, Male, Middle Aged, Preoperative Period, Prognosis, Treatment Outcome, Aspartate Aminotransferases blood, Blood Platelets metabolism, Carcinoma, Hepatocellular blood, Liver Neoplasms blood

Abstract

The aspartate aminotransferase-to-platelet ratio index has been reported to predict prognosis of patients with hepatocellular carcinoma. This study examined the prognostic potential of stratified aspartate aminotransferase-to-platelet ratio index for hepatocellular carcinoma patients undergoing curative liver resection. A total of 661 hepatocellular carcinoma patients were retrieved and the associations between aspartate aminotransferase-to-platelet ratio index and clinicopathological variables and survivals (overall survival and disease-free survival) were analyzed. Higher aspartate aminotransferase-to-platelet ratio index quartiles were significantly associated with poorer overall survival (p = 0.002) and disease-free survival (p = 0.001). Multivariate analysis showed aspartate aminotransferase-to-platelet ratio index to be an independent risk factor for overall survival (p = 0.018) and disease-free survival (p = 0.01). Patients in the highest aspartate aminotransferase-to-platelet ratio index quartile were at 44% greater risk of death than patients in the first quartile (hazard ratio = 1.445, 95% confidence interval = 1.081 - 1.931, p = 0.013), as well as 49% greater risk of recurrence (hazard ratio = 1.49, 95% confidence interval = 1.112-1.998, p = 0.008). Subgroup analysis also showed aspartate aminotransferase-to-platelet ratio index to be an independent predictor of poor overall survival and disease-free survival in patients positive for hepatitis B surface antigen or with cirrhosis (both p < 0.05). Similar results were obtained when aspartate aminotransferase-to-platelet ratio index was analyzed as a dichotomous variable with cutoff values of 0.25 and 0.62. Elevated preoperative aspartate aminotransferase-to-platelet ratio index may be independently associated with poor overall survival and disease-free survival in hepatocellular carcinoma patients following curative resection.

Published

2017

46. Effectiveness and intermediates of microcystin-LR degradation by UV/H 2 O 2 via 265 nm ultraviolet light-emitting diodes.

Author

Liu J, Ye JS, Ou HS, and Lin J

Subjects

Hydroxyl Radical chemistry, Oxidation-Reduction, Hydrogen Peroxide chemistry, Microcystins chemistry, Ultraviolet Rays

Abstract

Although the degradation of cyanotoxins by 254 nm UV/H 2 O 2 has been well elucidated, the efficiency and mechanism involved are not necessarily true for other UV wavelengths. The degradation of microcystin-LR (MC-LR), a representative cyanotoxin, was explored by UV/H 2 O 2 using 265 nm ultraviolet light-emitting diode (UV-LED). The results indicated that 265 nm UV/H 2 O 2 treatment had a high removal efficiency of MC-LR ([MC-LR] = 0.1 μM, apparent rate constants reached 0.2077 min -1 , half-time at 3.3 min). The qualitative analyses demonstrated that three novel intermediates, C 48 H 74 N 10 O 15 (molecular weight = 1030.5335), C 36 H 58 N 10 O 14 (854.4134), and C 33 H 54 N 10 O 14 (814.3821), were generated in 265 nm UV/H 2 O 2 . Five published intermediates were also confirmed. The generative pathway of these products mainly involved free hydroxyl radical oxidation, resulting in consecutive hydroxyl substitutions and hydroxyl additions of unsaturated bonds in MC-LR. The toxicity of MC-LR was weaken with a relative low mineralization. The electrical energy per order values were calculated to be in the range of 0.00447 to 0.00612 kWh m -3  order -1 for 100-5000 μg L -1 MC-LR. Overall, 265 nm UV-LED/H 2 O 2 can be used as an alternative effective technology to improve the removal efficiency of MC-LR in water.

Published

2017

47. Aging of bone marrow mesenchymal stromal/stem cells: Implications on autologous regenerative medicine.

Author

Charif N, Li YY, Targa L, Zhang L, Ye JS, Li YP, Stoltz JF, Han HZ, and de Isla N

Subjects

Aging, Animals, Cell Differentiation, Cell Proliferation, Humans, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells metabolism, Oxidative Stress, Regenerative Medicine, Telomere Homeostasis, Cellular Senescence, Mesenchymal Stem Cells cytology

Abstract

With their proliferation, differentiation into specific cell types, and secretion properties, mesenchymal stromal/stem cells (MSC) are very interesting tools to be used in regenerative medicine. Bone marrow (BM) was the first MSC source characterized. In the frame of autologous MSC therapy, it is important to detect donor's parameters affecting MSC potency. Age of the donors appears as one parameter that could greatly affect MSC properties. Moreover, in vitro cell expansion is needed to obtain the number of cells necessary for clinical developments. It will lead to in vitro cell aging that could modify cell properties. This review recapitulates several studies evaluating the effect of in vitro and in vivo MSC aging on cell properties.

Published

2017

48. Sensitive Electrochemical Capsaicin Sensor Based on a Screen Printed Electrode Modified with Poly(sodium 4-styrenesulfonate) Functionalized Graphite.

Author

Wang Y, Huang BB, Dai WL, Xu B, Wu TL, Ye JP, and Ye JS

Subjects

Electrodes, Particle Size, Surface Properties, Capsaicin analysis, Electrochemical Techniques, Graphite chemistry, Polymers chemistry, Sulfonic Acids chemistry

Abstract

A sensitive capsaicin sensor was constructed based on a poly(sodium 4-styrenesulfonate) functionalized graphite modified screen printed electrode (PSS-Grp/SPE) in this study. The PSS-Grp and poly(diallyldimethylammonium chloride) functionalized graphite (PDDA-Grp) were easily synthesized by interacting Grp with PSS and PDDA through sonication, and resulted in negative and with positive charges on the surface, respectively. The prepared PSS-Grp and PDDA-Grp were characterized by scanning electron microscopy (SEM), transmission electron microscopy (TEM) and ultraviolet and visible spectroscopy (UV-vis). The electrochemical performance of PSS-Grp in a 50 μM capsaicin solution presented a current density of 33 μA cm -2 , which was much higher than the PDDA-Grp of 1.5 μA cm -2 . Our study showed that capsaicin could interact better with strong negative charges on the PSS-Grp/SPE surface to give a higher electrochemical response. The direct electrochemical sensing of capsaicin was achieved at PSS-Grp/SPE using differential pulse stripping voltammetry (DPSV) under the optimized conditions.

Published

2017

49. Organ reconstruction: Dream or reality for the future.

Author

Stoltz JF, Zhang L, Ye JS, and De Isla N

Subjects

Animals, Extracellular Matrix chemistry, Heart growth & development, Humans, Kidney growth & development, Liver growth & development, Lung growth & development, Kidney cytology, Liver cytology, Lung cytology, Myocardium cytology, Stem Cells cytology, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

The relevance of research on reconstructed organs is justified by the lack of organs available for transplant and the growing needs for the ageing population. The development of a reconstructed organ involves two parallel complementary steps: de-cellularization of the organ with the need to maintain the structural integrity of the extracellular matrix and vascular network and re-cellularization of the scaffold with stem cells or resident cells.Whole organ engineering for liver, heart, lung or kidneys, is particularly difficult because of the structural complexity of organs and heterogeneity of cells. Rodent, porcine and rhesus monkey organs have been de-cellularized to obtain a scaffold with preserved extracellular matrix and vascular network. As concern the cells for re-cellularization, embryonic, foetal, adult, progenitor stem cells and also iPS have been proposed.Heart construction could be an alternative option for the treatment of cardiac insufficiency. It is based on the use of an extra-cellular matrix coming from an animal's heart and seeded with cells likely to reconstruct a normal cardiac function. Though de-cellularization techniques now seem controlled, the issues posed by the selection of cells capable of generating the various components of cardiac tissue are not settled yet. In addition, the recolonisation of the matrix does not only depend on the phenotype of cells that are used, but it is also impacted by the nature of biochemical signals emitted.Recent researches have shown that it is possible to use decellularized whole liver treated by detergents as scaffold, which keeps the entire network of blood vessels and the integrated extracellular matrix (ECM). Beside of decellularized whole organ scaffold seeding cells selected to repopulate a decellularized liver scaffold are critical for the function of the bioengineered liver. At present, potential cell sources are hepatocyte, and mesenchymal stem cells.Pulmonary regeneration using engineering approaches is complex. In fact, several types of local progenitor cells that contribute to cell repair have been described at different levels of the respiratory tract. Moving towards the alveoles, one finds bronchioalveolar stem cells as well as epithelial cells and pneumocytes. A promising option to increase the donor organ pool is to use allogeneic or xenogeneic decellularized lungs as a scaffold to engineer functional lung tissue ex vivo.The kidney is certainly one of the most difficult organs to reconstruct due to its complex nature and the heterogeneous nature of the cells. There is relatively little research on auto-construction, and experiments have been performed on rats, pigs and monkeys.Nevertheless, before these therapeutic approaches can be applied in clinical practice, many researches are necessary to understand and in particular the behaviour of cells on the decellularized organs as well as the mechanisms of their interaction with the microenvironment. Current knowledges allow optimism for the future but definitive answers can only be given after long term animal studies and controlled clinical studies.

Published

2017

50. Research progress in liver tissue engineering.

Author

Zhang L, Guan Z, Ye JS, Yin YF, Stoltz JF, and de Isla N

Subjects

Animals, Bioreactors, Humans, Liver growth & development, Liver, Artificial, Biocompatible Materials chemistry, Hepatocytes cytology, Liver cytology, Mesenchymal Stem Cells cytology, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

Liver transplantation is the definitive treatment for patients with end-stage liver diseases (ESLD). However, it is hampered by shortage of liver donor. Liver tissue engineering, aiming at fabricating new livers in vitro, provides a potential resolution for donor shortage. Three elements need to be considered in liver tissue engineering: seeding cell resources, scaffolds and bioreactors. Studies have shown potential cell sources as hepatocytes, hepatic cell line, mesenchymal stem cells and others. They need scaffolds with perfect biocompatiblity, suitable micro-structure and appropriate degradation rate, which are essential charateristics for cell attachment, proliferation and secretion in forming extracellular matrix. The most promising scaffolds in research include decellularized whole liver, collagens and biocompatible plastic. The development and function of cells in scaffold need a microenvironment which can provide them with oxygen, nutrition, growth factors, et al. Bioreactor is expected to fulfill these requirements by mimicking the living condition in vivo. Although there is great progress in these three domains, a large gap stays still between their researches and applications. Herein, we summarized the recent development in these three major fields which are indispensable in liver tissue engineering.

Published

2017