Background:Epidemiological data indicate an association between cadmium exposure and risk of bone fracture;however,clinical treatment of cadmium-induced fracture is limited.Although vitamin C(VC)reportedly reduces cad...Background:Epidemiological data indicate an association between cadmium exposure and risk of bone fracture;however,clinical treatment of cadmium-induced fracture is limited.Although vitamin C(VC)reportedly reduces cadmium-induced fracture,its pharmacological mechanism remains unexplored.Methods:Thus,we used a network pharmacology approach and molecular docking analysis to identify core targets,functional processes,and biological pathways involved in the anti-fracture action of VC.Results:Bioinformatics identified 17 intersection targets of VC and cadmium-induced fracture,Nine core targets were characterized,including tumor protein p53,epidermal growth factor receptor,proto-oncogene c,mitogen-activated protein kinase-1(MAPK1),MAPK3,signal transducer and activator of transcription-3,MAPK14,prostaglandin-endoperoxide synthase 2,and estrogen receptor alpha.Interestingly,findings of molecular docking analysis indicated that VC exerted effective binding capacity in cadmium-induced fracture.Furthermore,biological processes,cell components,molecular functions,and pharmacological pathways involved in the action of VC against cadmium-induced fracture were identified and visualized.Conclusions:Based on these findings,we conclude that VC exhibits its anti-cadmium-induced fracture effects by promoting osteoblastic regeneration and proliferation,and inhibiting inflammatory stress.The core targets may serve as biomarkers for diagnosing cadmium-induced fractures.展开更多
Mental disorders seriously affect people’s health and social stability.This Mendelian randomization(MR)study was designed to investigate the causal relationship between circulating vitamin C(VC)or 25-hydroxyvitamin D...Mental disorders seriously affect people’s health and social stability.This Mendelian randomization(MR)study was designed to investigate the causal relationship between circulating vitamin C(VC)or 25-hydroxyvitamin D(25(OH)D)levels and mental disorders.The data used for the MR analysis were derived from the summary genome-wide association studies(GWAS)database for VC and 25(OH)D and from the Finn Gen consortium for fourteen mental disorders.Based on the inverse variance weighted(IVW)method,we found a potential causal association between circulating VC and anxiety disorders(IVW:OR=1.139,95%CI:1.023-1.269,P=0.018).However,no causal association was found between VC or 25(OH)D and other mental disorders(P>0.05).In the reverse MR analysis,individuals with Alzheimer’s disease was causally associated with higher concentrations of circulating VC(P=0.012),while individuals with anxiety disorders had a negative association between the concentrations of 25(OH)D(P=0.012).However,the current evidence does not support a causal relationship between VC or 25(OH)D and other mental disorders.In addition,there was no causal association between circulating VC and 25(OH)D(P>0.05).Future studies are needed to confirm these findings and to elucidate the mechanisms of potential causality.展开更多
The working environment of aerospace engines is extremely harsh with temperature exceeding 1700℃and accompanied by thermal coupling effects.In this condition,the materials employed in hypersonic aircraft undergo abla...The working environment of aerospace engines is extremely harsh with temperature exceeding 1700℃and accompanied by thermal coupling effects.In this condition,the materials employed in hypersonic aircraft undergo ablation issues,which can cause catastrophic accidents.Due to the excellent high-temperature stability and ablation resistance,HfC exhibits outstanding thermal expansion coefficient matching that of C/SiC composites.2.5D needle-punched C/SiC composites coated with HfC are prepared using a plasma spraying process,and a high-enthalpy arc-heated wind tunnel is employed to simulate the re-entry environment of aircraft at 8 Mach and an altitude of 32 km.The plasma-sprayed HfC-coated 2.5D needle-punched C/SiC composites are subjected to long-term dynamic testing,and their properties are investigated.Specifically,after the thermal assessment ablation experiment,the composite retains its overall structure and profile;the total mass ablation rate is 0.07445 g/s,the average linear ablation rate in the thickness direction is-0.0675μm/s,and the average linear ablation rate in the length direction is 13.907μm/s.Results verify that plasma-sprayed HfC coating exhibits excellent anti-oxidation and ablation resistance properties.Besides,the microstructure and ablation mechanism of the C/SiC composites are studied.It is believed that this work will offer guideline for the development of thermal protection materials and the assessment of structural thermal performance.展开更多
基金supported by the National Natural Science Foundation of China(81560134)National Natural Science Foundation of Guangxi(2019GXNSFBA185015)+3 种基金Science and Technology Plan Project of Guigang City(1903007,S2019066)supported by Hon Kong SARMacao SARTaiwan Province Talent Young Scientist Program of Guangxi。
文摘Background:Epidemiological data indicate an association between cadmium exposure and risk of bone fracture;however,clinical treatment of cadmium-induced fracture is limited.Although vitamin C(VC)reportedly reduces cadmium-induced fracture,its pharmacological mechanism remains unexplored.Methods:Thus,we used a network pharmacology approach and molecular docking analysis to identify core targets,functional processes,and biological pathways involved in the anti-fracture action of VC.Results:Bioinformatics identified 17 intersection targets of VC and cadmium-induced fracture,Nine core targets were characterized,including tumor protein p53,epidermal growth factor receptor,proto-oncogene c,mitogen-activated protein kinase-1(MAPK1),MAPK3,signal transducer and activator of transcription-3,MAPK14,prostaglandin-endoperoxide synthase 2,and estrogen receptor alpha.Interestingly,findings of molecular docking analysis indicated that VC exerted effective binding capacity in cadmium-induced fracture.Furthermore,biological processes,cell components,molecular functions,and pharmacological pathways involved in the action of VC against cadmium-induced fracture were identified and visualized.Conclusions:Based on these findings,we conclude that VC exhibits its anti-cadmium-induced fracture effects by promoting osteoblastic regeneration and proliferation,and inhibiting inflammatory stress.The core targets may serve as biomarkers for diagnosing cadmium-induced fractures.
基金funded by the Nactional Natural Science Foundation of China(81872618)。
文摘Mental disorders seriously affect people’s health and social stability.This Mendelian randomization(MR)study was designed to investigate the causal relationship between circulating vitamin C(VC)or 25-hydroxyvitamin D(25(OH)D)levels and mental disorders.The data used for the MR analysis were derived from the summary genome-wide association studies(GWAS)database for VC and 25(OH)D and from the Finn Gen consortium for fourteen mental disorders.Based on the inverse variance weighted(IVW)method,we found a potential causal association between circulating VC and anxiety disorders(IVW:OR=1.139,95%CI:1.023-1.269,P=0.018).However,no causal association was found between VC or 25(OH)D and other mental disorders(P>0.05).In the reverse MR analysis,individuals with Alzheimer’s disease was causally associated with higher concentrations of circulating VC(P=0.012),while individuals with anxiety disorders had a negative association between the concentrations of 25(OH)D(P=0.012).However,the current evidence does not support a causal relationship between VC or 25(OH)D and other mental disorders.In addition,there was no causal association between circulating VC and 25(OH)D(P>0.05).Future studies are needed to confirm these findings and to elucidate the mechanisms of potential causality.
基金financially supported by the National Key R&D Program of China(No.2022YFB3-401900)the National Natural Science Foundation of China(No.U21A20134)the Shandong Provincial Natural Science Foundation(Excellent Young Fund,No.ZR2022YQ48).
文摘The working environment of aerospace engines is extremely harsh with temperature exceeding 1700℃and accompanied by thermal coupling effects.In this condition,the materials employed in hypersonic aircraft undergo ablation issues,which can cause catastrophic accidents.Due to the excellent high-temperature stability and ablation resistance,HfC exhibits outstanding thermal expansion coefficient matching that of C/SiC composites.2.5D needle-punched C/SiC composites coated with HfC are prepared using a plasma spraying process,and a high-enthalpy arc-heated wind tunnel is employed to simulate the re-entry environment of aircraft at 8 Mach and an altitude of 32 km.The plasma-sprayed HfC-coated 2.5D needle-punched C/SiC composites are subjected to long-term dynamic testing,and their properties are investigated.Specifically,after the thermal assessment ablation experiment,the composite retains its overall structure and profile;the total mass ablation rate is 0.07445 g/s,the average linear ablation rate in the thickness direction is-0.0675μm/s,and the average linear ablation rate in the length direction is 13.907μm/s.Results verify that plasma-sprayed HfC coating exhibits excellent anti-oxidation and ablation resistance properties.Besides,the microstructure and ablation mechanism of the C/SiC composites are studied.It is believed that this work will offer guideline for the development of thermal protection materials and the assessment of structural thermal performance.
