Background:Triptolide(TP)exhibits various pharmacological activities.Our previous studies have confirmed the efficacy of TP against lung adenocarcinoma(LUAD).However,the potent pharmacological activity of TP is underp...Background:Triptolide(TP)exhibits various pharmacological activities.Our previous studies have confirmed the efficacy of TP against lung adenocarcinoma(LUAD).However,the potent pharmacological activity of TP is underpinned by its complex mechanisms.Exploring its potential mechanisms is of great value for promoting the clinical application of TP and extending its clinical use.Methods:Differentially expressed genes(DEGs)associated with LUAD were analyzed and acquired from the TCGA database,while DEGs related to TP were obtained through RNA sequencing.Hub genes were identified through LASSO and random forest models.The efficacy of TP against LUAD was validated using tumor-bearing mouse models and A549 cells.The validation of hub genes was conducted using RT-qPCR.The regulatory effect of hub genes on TP efficacy was validated through overexpression cell models.Furthermore,the potential mechanisms by which TP improves gemcitabine(GEM)resistance were explored using a GEM-resistant cell line in combination with the overexpression model.Results:This study validated the therapeutic effect of TP against LUAD in vivo and in vitro.Bioinformatics revealed that the mechanism of TP's effect against LUAD might be associated with amino acid-related biological processes.Five hub genes were screened and identified by combining bioinformatics methods and experiments.The overexpression model validated that PSAT1 plays an effective role in the efficacy of TP and in alleviating GEM resistance.Conclusion:This study preliminarily demonstrated that the anti-LUAD effect of TP was associated with the PSAT1-regulated serine biosynthesis pathway,and that TP effectively improves GEM resistance by inhibiting PSAT1 expression.展开更多
In-situ observation of the charge transfer plays a key role in understanding the working mechanism of hematite for solar water oxidation.Here by using in-situ X-ray absorption spectroscopy(XAS),the electron injection ...In-situ observation of the charge transfer plays a key role in understanding the working mechanism of hematite for solar water oxidation.Here by using in-situ X-ray absorption spectroscopy(XAS),the electron injection from illuminated hematite(photon-excited electron)to the surface carbon layer can be clearly identified,which can facilitate the charge separation and then improve the performance.As a result,the carbon-coated and Sn-doped hematite photoanode(C-Sn-Fe_(2)O_(3))shows a greatly enhanced photocurrent density of 2.3 mA/cm^(2) at 1.23 VRHE,which is 2.3 times that of the pristine hematite.The injected electron can modify the chemical state of surface groups in the carbon layer and be quickly transferred to the electrode due to the high conductivity of the carbon layer,leaving behind the high-valence Fe^(4+)with high oxidation capability to enhance the performance.By coupling with the FeNiOOH co-catalyst,the photoanode can finally achieve a high photocurrent density of 3.0 mA/cm^(2) at 1.23 VRHE with a low onset potential of 0.76 VRHE.The understanding of the charge migration route by using in-situ XAS offers a novel way for the design of highly efficient solar water oxidation materials.展开更多
12 perfluorinated compounds(PFCs) in human blood from workers in a textile mill in Shandong province and several barbershops in Tianjin were analyzed in this study. It was found that perfluorooctanesulfonate(PFOS)...12 perfluorinated compounds(PFCs) in human blood from workers in a textile mill in Shandong province and several barbershops in Tianjin were analyzed in this study. It was found that perfluorooctanesulfonate(PFOS) and perfluorooctanoate(PFOA) were the most prominent PFCs, with average concentrations of 5.73 mg/L and 5.46 mg/L for textile workers, and 2.55 mg/L and 2.84 mg/L for barbers.PFOS and perfluorohexanesulfonate(PFHxS) concentrations revealed a positive correlation in blood samples(p 〈 0.01), and concentrations among PFOS, perfluorononanoic acid(PFNA) and perfluorodecanoic acid(PFDA) also revealed positive correlations(p 〈 0.01). The influence of gender and age on PFC concentration in blood was also investigated, and the results showed that there was no statistically significant difference between the male and female samples, as well as in samples from people with different ages. Generally speaking, the textile workers展开更多
AIM: To explore effects of huoxiangzhengqi liquid (HXZQ) on enteric mucosal immune responses in mice with Bacillus dysenteriae and Salmonella typhimurium induced diarrhea (BSD). METHODS: BSD was induced in Balb/...AIM: To explore effects of huoxiangzhengqi liquid (HXZQ) on enteric mucosal immune responses in mice with Bacillus dysenteriae and Salmonella typhimurium induced diarrhea (BSD). METHODS: BSD was induced in Balb/c mice by oral administration with Bacillus dysenteriae and Salmonella typhimurium. HXZQ was administrated from the day of diarrhea induction at dosages of 5.21 g/kg and 0.52 g/kg, respectively. The onset of diarrhea and lasting time were recorded. Peyer's patches and peripheral lymphocytes were prepared for flow cytometry, and levels of TNF-α in peripheral blood and enteric tissue homogenates were determined with ELISA. Student's t test was employed for statistics. RESULTS: Mice in BSD group started showing continuous diarrhea on the day of induction until the fourth day when they were sacrificed. Diarrhea in the mice of HXZQ high and low dose groups lasted for 36 and 54 h, respectively. There were more CD4^+ and CD8^+ cells in peripheral blood, fewer CD4^+ cells in Peyer's patches in BSD mice compared to normal mice. Fewer CD4^+ and CD8^+ cells was shown in the mice in HXZQ high group compared to BSD mice. In Peyer's patch, there were more CD8^+ cells in mice in HXZQ high and low dose groups and more CD4^+ in mice in HXZQ high group. Higher levels of TNF-α in peripheral blood and intestinal tissue homogenates in BSD group were observed. Mice in HXZQ high group showed decreased levels of TNF-α in peripheral blood and enteric tissue homogenates. CONCLUSION: The immune regulation of CD4^+ and CD8^+ cells in Peyer's patch and suppression of TNF-α levels in enteric homogenates may partially explain the effect of HXZQ on improvement of BSD.展开更多
Hepatocellular carcinoma(HCC)is one of the most common malignancies and a leading cause of cancer-related death worldwide.Surgery remains the primary and most successful therapy option for the treatment of early-and m...Hepatocellular carcinoma(HCC)is one of the most common malignancies and a leading cause of cancer-related death worldwide.Surgery remains the primary and most successful therapy option for the treatment of early-and mid-stage HCCs,but the high heterogeneity of HCC renders prognostic prediction challenging.The construction of relevant prognostic models helps to stratify the prognosis of surgically treated patients and guide personalized clinical decision-making,thereby improving patient survival rates.Currently,the prognostic assessment of HCC is based on several commonly used staging systems,such as Tumor-Node-Metastasis(TNM),Cancer of the Liver Italian Program(CLIP),and Barcelona Clinic Liver Cancer(BCLC).Given the insufficiency of these staging systems and the aim to improve the accuracy of prognostic prediction,researchers have incorporated further prognostic factors,such as microvascular infiltration,and proposed some new prognostic models for HCC.To provide insights into the prospects of clinical oncology research,this review describes the commonly used HCC staging systems and new models proposed in recent years.展开更多
Cluster science as a bridge linking atomic molecular physics and condensed matter inspired the nanomaterials development in the past decades, ranging from the single-atom catalysis to ligand-protected noble metal clus...Cluster science as a bridge linking atomic molecular physics and condensed matter inspired the nanomaterials development in the past decades, ranging from the single-atom catalysis to ligand-protected noble metal clusters. The corresponding studies not only have been restricted to the search for the geometrical structures of clusters, but also have promoted the development of cluster-assembled materials as the building blocks. The CALYPSO cluster prediction method combined with other computational techniques have significantly stimulated the development of the cluster-based nanomaterials. In this review, we will summarize some good cases of cluster structure by CALYPSO method, which have also been successfully identified by the photoelectron spectra experiments. Beginning with the alkali-metal clusters, which serve as benchmarks, a series of studies are performed on the size-dependent elemental clusters which possess relatively high stability and interesting chemical physical properties. Special attentions are paid to the boron-based clusters because of their promising applications. The NbSi12 and BeB16 clusters, for example, are two classic representatives of the silicon-and boron-based clusters, which can be viewed as building blocks of nanotubes and borophene. This review offers a detailed description of the structural evolutions and electronic properties of medium-sized pure and doped clusters, which will advance fundamental knowledge of cluster-based nanomaterials and provide valuable information for further theoretical and experimental studies.展开更多
Interfacial heat transfer behavior between the molten steel and twin-rolls is a key issue in the strip casting process,and it has already attracted wide attention from industrial and academic communities of steel.The ...Interfacial heat transfer behavior between the molten steel and twin-rolls is a key issue in the strip casting process,and it has already attracted wide attention from industrial and academic communities of steel.The research methods and influencing factors on the interfacial heat transfer were summarized.Numerical simulation models,semi-industrial scale,and laboratory equipment have been developed in this field,and these methods were also improved by worldwide researchers based on the development of computer,automatic,and visual technologies.Coating properties,naturally deposited film,and casting parameters are the main factors which affect the heat transfer significantly.Although lots of research has been carried out,the internal relations among these influencing factors,interfacial heat transfer,and the quality of the strip are still worth to be further explored.Keywords Strip casting Interfacial heat transfer Simulation method Coating property Naturally deposited film Casting parameter.展开更多
Typical Q235 low-carbon steel samples with different hydrogen contents(0.0004,0.0008,and 0.0013 wt.%)were prepared by adjusting the environment humidity and moisture.The effects of hydrogen on interfacial heat transfe...Typical Q235 low-carbon steel samples with different hydrogen contents(0.0004,0.0008,and 0.0013 wt.%)were prepared by adjusting the environment humidity and moisture.The effects of hydrogen on interfacial heat transfer,contact behavior,and microstructure evolution were investigated using a novel droplet solidification technique.The results revealed that when the hydrogen content increases from 0.0004 to 0.0013 wt.%,the maximum heat flux between the molten steel and cooling substrate decreases from 8.01 to 6.19 MW/m^(2),and the total heat removed in the initial 2 s reduces from 10.30 to 8.27 MJ/m^(2).Moreover,the final contact angle between the molten steel and substrate increases from 103.741°to 113.697°,and the number of pores on the droplet bottom surface increases significantly from 21 to 210 with the increase in hydrogen.The surface roughness of the droplet bottom surface increases from 20.902 to 49.181 pm.In addition,the average grain size of the droplet increases from 14.778 to 33.548 pm with the increase in the hydrogen content.The interfacial contact condition becomes worse due to the escape of hydrogen from the steel matrix during the cooling process,which leads to the reduction in the interfacial heat transfer and the increase in the grain size.展开更多
When groundwater pollution occurs,to come up with an efficient remediation plan,it is particularly important to collect information of contaminant source(location and source strength)and hydraulic conductivity field o...When groundwater pollution occurs,to come up with an efficient remediation plan,it is particularly important to collect information of contaminant source(location and source strength)and hydraulic conductivity field of the site accurately and quickly.However,the information can not be obtained by direct observation,and can only be derived from limited measurement data.Data assimilation of observations such as head and concentration is often used to estimate parameters of contaminant source.As for hydraulic conductivity field,especially for complex non-Gaussian field,it can be directly estimated by geostatistics method based on limited hard data,while the accuracy is often not high.Better estimation of hydraulic conductivity can be achieved by solving inverse groundwater problem.Therefore,in this study,the multi-point geostatistics method Quick Sampling(QS)is proposed and introduced for the first time and combined with the iterative local updating ensemble smoother(ILUES)to develop a new data assimilation framework QS-ILUES.It helps to solve the contaminant source parameters and non-Gaussian hydraulic conductivity field simultaneously by assimilating hydraulic head and pollutant concentration data.While the pilot points are utilized to reduce the dimension of hydraulic conductivity field,the influence of pilot points’layout and the ensemble size of ILUES algorithm on the inverse simulation results are further explored.展开更多
基金National Natural Science Foundation of China,Grant/Award Number:No.82560858Beijing Science and Technology New Star Program Cross-cooperation Project,Grant/Award Number:No.20240484711Jiangxi Provincial Natural Science Foundation,Grant/Award Number:20252BAC200586。
文摘Background:Triptolide(TP)exhibits various pharmacological activities.Our previous studies have confirmed the efficacy of TP against lung adenocarcinoma(LUAD).However,the potent pharmacological activity of TP is underpinned by its complex mechanisms.Exploring its potential mechanisms is of great value for promoting the clinical application of TP and extending its clinical use.Methods:Differentially expressed genes(DEGs)associated with LUAD were analyzed and acquired from the TCGA database,while DEGs related to TP were obtained through RNA sequencing.Hub genes were identified through LASSO and random forest models.The efficacy of TP against LUAD was validated using tumor-bearing mouse models and A549 cells.The validation of hub genes was conducted using RT-qPCR.The regulatory effect of hub genes on TP efficacy was validated through overexpression cell models.Furthermore,the potential mechanisms by which TP improves gemcitabine(GEM)resistance were explored using a GEM-resistant cell line in combination with the overexpression model.Results:This study validated the therapeutic effect of TP against LUAD in vivo and in vitro.Bioinformatics revealed that the mechanism of TP's effect against LUAD might be associated with amino acid-related biological processes.Five hub genes were screened and identified by combining bioinformatics methods and experiments.The overexpression model validated that PSAT1 plays an effective role in the efficacy of TP and in alleviating GEM resistance.Conclusion:This study preliminarily demonstrated that the anti-LUAD effect of TP was associated with the PSAT1-regulated serine biosynthesis pathway,and that TP effectively improves GEM resistance by inhibiting PSAT1 expression.
基金the support from NSRL for the XAS experiments.This work was financially supported by the National Key R&D Program of China(No.2020YFA0406103)the National Natural Science Foundation of China(No.U1932211)+1 种基金the Collaborative Innovation Center of Suzhou Nano Science&Technology,the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the 111 Project.
文摘In-situ observation of the charge transfer plays a key role in understanding the working mechanism of hematite for solar water oxidation.Here by using in-situ X-ray absorption spectroscopy(XAS),the electron injection from illuminated hematite(photon-excited electron)to the surface carbon layer can be clearly identified,which can facilitate the charge separation and then improve the performance.As a result,the carbon-coated and Sn-doped hematite photoanode(C-Sn-Fe_(2)O_(3))shows a greatly enhanced photocurrent density of 2.3 mA/cm^(2) at 1.23 VRHE,which is 2.3 times that of the pristine hematite.The injected electron can modify the chemical state of surface groups in the carbon layer and be quickly transferred to the electrode due to the high conductivity of the carbon layer,leaving behind the high-valence Fe^(4+)with high oxidation capability to enhance the performance.By coupling with the FeNiOOH co-catalyst,the photoanode can finally achieve a high photocurrent density of 3.0 mA/cm^(2) at 1.23 VRHE with a low onset potential of 0.76 VRHE.The understanding of the charge migration route by using in-situ XAS offers a novel way for the design of highly efficient solar water oxidation materials.
基金supported by the National Natural Science Foundation of China (Nos. 41023005, 21377145, 21321004)the State Environmental Protection Welfare Scientific Research Project (No. 201009026)
文摘12 perfluorinated compounds(PFCs) in human blood from workers in a textile mill in Shandong province and several barbershops in Tianjin were analyzed in this study. It was found that perfluorooctanesulfonate(PFOS) and perfluorooctanoate(PFOA) were the most prominent PFCs, with average concentrations of 5.73 mg/L and 5.46 mg/L for textile workers, and 2.55 mg/L and 2.84 mg/L for barbers.PFOS and perfluorohexanesulfonate(PFHxS) concentrations revealed a positive correlation in blood samples(p 〈 0.01), and concentrations among PFOS, perfluorononanoic acid(PFNA) and perfluorodecanoic acid(PFDA) also revealed positive correlations(p 〈 0.01). The influence of gender and age on PFC concentration in blood was also investigated, and the results showed that there was no statistically significant difference between the male and female samples, as well as in samples from people with different ages. Generally speaking, the textile workers
基金Supported by the National ‘863’ Project, No.2003AA2Z3245 and E-institute of Shanghai Municipal Education Commission, No. E03008
文摘AIM: To explore effects of huoxiangzhengqi liquid (HXZQ) on enteric mucosal immune responses in mice with Bacillus dysenteriae and Salmonella typhimurium induced diarrhea (BSD). METHODS: BSD was induced in Balb/c mice by oral administration with Bacillus dysenteriae and Salmonella typhimurium. HXZQ was administrated from the day of diarrhea induction at dosages of 5.21 g/kg and 0.52 g/kg, respectively. The onset of diarrhea and lasting time were recorded. Peyer's patches and peripheral lymphocytes were prepared for flow cytometry, and levels of TNF-α in peripheral blood and enteric tissue homogenates were determined with ELISA. Student's t test was employed for statistics. RESULTS: Mice in BSD group started showing continuous diarrhea on the day of induction until the fourth day when they were sacrificed. Diarrhea in the mice of HXZQ high and low dose groups lasted for 36 and 54 h, respectively. There were more CD4^+ and CD8^+ cells in peripheral blood, fewer CD4^+ cells in Peyer's patches in BSD mice compared to normal mice. Fewer CD4^+ and CD8^+ cells was shown in the mice in HXZQ high group compared to BSD mice. In Peyer's patch, there were more CD8^+ cells in mice in HXZQ high and low dose groups and more CD4^+ in mice in HXZQ high group. Higher levels of TNF-α in peripheral blood and intestinal tissue homogenates in BSD group were observed. Mice in HXZQ high group showed decreased levels of TNF-α in peripheral blood and enteric tissue homogenates. CONCLUSION: The immune regulation of CD4^+ and CD8^+ cells in Peyer's patch and suppression of TNF-α levels in enteric homogenates may partially explain the effect of HXZQ on improvement of BSD.
基金supported by the Guangxi Scholarship Fund of Guangxi Education Department,the Guangxi Med‑ical University Training Program for Distinguished Young Scholars,the Advanced Innovation Teams and Xinghu Scholars Program of Guangxi Medical University,the Guangxi Med‑ical and Health Key Discipline Construction Project,and the Science and Technology Plan Project of Qingxiu District,Nanning(Nos.2020037,2020038,2021007,2021010,and 2021012),China.
文摘Hepatocellular carcinoma(HCC)is one of the most common malignancies and a leading cause of cancer-related death worldwide.Surgery remains the primary and most successful therapy option for the treatment of early-and mid-stage HCCs,but the high heterogeneity of HCC renders prognostic prediction challenging.The construction of relevant prognostic models helps to stratify the prognosis of surgically treated patients and guide personalized clinical decision-making,thereby improving patient survival rates.Currently,the prognostic assessment of HCC is based on several commonly used staging systems,such as Tumor-Node-Metastasis(TNM),Cancer of the Liver Italian Program(CLIP),and Barcelona Clinic Liver Cancer(BCLC).Given the insufficiency of these staging systems and the aim to improve the accuracy of prognostic prediction,researchers have incorporated further prognostic factors,such as microvascular infiltration,and proposed some new prognostic models for HCC.To provide insights into the prospects of clinical oncology research,this review describes the commonly used HCC staging systems and new models proposed in recent years.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.U1804121 and 11304167)
文摘Cluster science as a bridge linking atomic molecular physics and condensed matter inspired the nanomaterials development in the past decades, ranging from the single-atom catalysis to ligand-protected noble metal clusters. The corresponding studies not only have been restricted to the search for the geometrical structures of clusters, but also have promoted the development of cluster-assembled materials as the building blocks. The CALYPSO cluster prediction method combined with other computational techniques have significantly stimulated the development of the cluster-based nanomaterials. In this review, we will summarize some good cases of cluster structure by CALYPSO method, which have also been successfully identified by the photoelectron spectra experiments. Beginning with the alkali-metal clusters, which serve as benchmarks, a series of studies are performed on the size-dependent elemental clusters which possess relatively high stability and interesting chemical physical properties. Special attentions are paid to the boron-based clusters because of their promising applications. The NbSi12 and BeB16 clusters, for example, are two classic representatives of the silicon-and boron-based clusters, which can be viewed as building blocks of nanotubes and borophene. This review offers a detailed description of the structural evolutions and electronic properties of medium-sized pure and doped clusters, which will advance fundamental knowledge of cluster-based nanomaterials and provide valuable information for further theoretical and experimental studies.
基金The financial support from Hunan Scientific Technology Projects(Grant Nos.2020WK2003 and 2019RS3007)National Natural Science Foundation of China(Grant Nos.52130408 and U1760202)is gratefully acknowledged.
文摘Interfacial heat transfer behavior between the molten steel and twin-rolls is a key issue in the strip casting process,and it has already attracted wide attention from industrial and academic communities of steel.The research methods and influencing factors on the interfacial heat transfer were summarized.Numerical simulation models,semi-industrial scale,and laboratory equipment have been developed in this field,and these methods were also improved by worldwide researchers based on the development of computer,automatic,and visual technologies.Coating properties,naturally deposited film,and casting parameters are the main factors which affect the heat transfer significantly.Although lots of research has been carried out,the internal relations among these influencing factors,interfacial heat transfer,and the quality of the strip are still worth to be further explored.Keywords Strip casting Interfacial heat transfer Simulation method Coating property Naturally deposited film Casting parameter.
基金The financial support for this work from the National Natural Science Foundation of China(52274342,52130408)the Hunan Scientific Technology Projects(Grant No.2020WK2003)+1 种基金the Natural Science Foundation of Hunan Province(2021JJ40731)the Postgraduate Scientific Research Innovation Project of Hunan Province(CX20220099)is gratefully acknowledged.
文摘Typical Q235 low-carbon steel samples with different hydrogen contents(0.0004,0.0008,and 0.0013 wt.%)were prepared by adjusting the environment humidity and moisture.The effects of hydrogen on interfacial heat transfer,contact behavior,and microstructure evolution were investigated using a novel droplet solidification technique.The results revealed that when the hydrogen content increases from 0.0004 to 0.0013 wt.%,the maximum heat flux between the molten steel and cooling substrate decreases from 8.01 to 6.19 MW/m^(2),and the total heat removed in the initial 2 s reduces from 10.30 to 8.27 MJ/m^(2).Moreover,the final contact angle between the molten steel and substrate increases from 103.741°to 113.697°,and the number of pores on the droplet bottom surface increases significantly from 21 to 210 with the increase in hydrogen.The surface roughness of the droplet bottom surface increases from 20.902 to 49.181 pm.In addition,the average grain size of the droplet increases from 14.778 to 33.548 pm with the increase in the hydrogen content.The interfacial contact condition becomes worse due to the escape of hydrogen from the steel matrix during the cooling process,which leads to the reduction in the interfacial heat transfer and the increase in the grain size.
基金This work was supported by the Belt and Road Special Foundation of the State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering(No.2019nkzd01)National Natural Science Foundation of China(42077176).
文摘When groundwater pollution occurs,to come up with an efficient remediation plan,it is particularly important to collect information of contaminant source(location and source strength)and hydraulic conductivity field of the site accurately and quickly.However,the information can not be obtained by direct observation,and can only be derived from limited measurement data.Data assimilation of observations such as head and concentration is often used to estimate parameters of contaminant source.As for hydraulic conductivity field,especially for complex non-Gaussian field,it can be directly estimated by geostatistics method based on limited hard data,while the accuracy is often not high.Better estimation of hydraulic conductivity can be achieved by solving inverse groundwater problem.Therefore,in this study,the multi-point geostatistics method Quick Sampling(QS)is proposed and introduced for the first time and combined with the iterative local updating ensemble smoother(ILUES)to develop a new data assimilation framework QS-ILUES.It helps to solve the contaminant source parameters and non-Gaussian hydraulic conductivity field simultaneously by assimilating hydraulic head and pollutant concentration data.While the pilot points are utilized to reduce the dimension of hydraulic conductivity field,the influence of pilot points’layout and the ensemble size of ILUES algorithm on the inverse simulation results are further explored.
