Hydroxyapatite fiber (HAF) was fabricated via a one-step hydrothermal route by using urea (CA), acetamide (AA) and propanamide (PA) as pH regulators, respectively, and the reaction time was only 0.5 h. The HAF...Hydroxyapatite fiber (HAF) was fabricated via a one-step hydrothermal route by using urea (CA), acetamide (AA) and propanamide (PA) as pH regulators, respectively, and the reaction time was only 0.5 h. The HAF synthesized by CA as the pH regulator was agglomerated with irregular morphology, while using AA or PA as the pH regulator, the HAF was composed of well-dispersed fibers with lengths larger than 200 pm. Two different morphologies form mainly due to the different hydrolysis rates of the pH regulators. Most of the fibers synthesized by the three pH regulators showed curving appearance, implying their outstanding flexibility. The technique in this paper allows the rapid formation of flexible HAF and may have wider applications in the restorations and reinforcement composites.展开更多
After spinal cord injury,microglia as the first responders to the lesion display both beneficial and detrimental characteristics.Activated microglia phagocyte and eliminate cell debris,release cytokines to recruit per...After spinal cord injury,microglia as the first responders to the lesion display both beneficial and detrimental characteristics.Activated microglia phagocyte and eliminate cell debris,release cytokines to recruit peripheral immune cells to the injury site.Excessively activated microglia can aggravate the secondary damage by producing extravagant reactive oxygen species and pro-inflammatory cytokines.Recent studies demonstrated that the voltage-gated proton channel Hv1 is selectively expressed in microglia and regulates microglial activation upon injury.In mouse models of spinal cord injury,Hv1 deficiency ameliorates microglia activation,resulting in alleviated production of reactive oxygen species and pro-inflammatory cytokines.The reduced secondary damage subsequently decreases neuronal loss and correlates with improved locomotor recovery.This review provides a brief historical perspective of advances in investigating voltage-gated proton channel Hv1 and home in on microglial Hv1.We discuss recent studies on the roles of Hv1 activation in pathophysiological activities of microglia,such as production of NOX-dependent reactive oxygen species,microglia polarization,and tissue acidosis,particularly in the context of spinal cord injury.Further,we highlight the rationale for targeting Hv1 for the treatment of spinal cord injury and related disorders.展开更多
Background:Small extracellular vesicles(sEVs)mediate intercellular commu-nication that contributes to hepatocellular carcinoma(HCC)progression via multifaceted pathways.The success of cell entry determines the effect ...Background:Small extracellular vesicles(sEVs)mediate intercellular commu-nication that contributes to hepatocellular carcinoma(HCC)progression via multifaceted pathways.The success of cell entry determines the effect of sEV on recipient cells.Here,we aimed to delineate the mechanisms underlying the uptake of sEV in HCC.Abbreviations:AF,Alexa Fluor;ANOVA,analysis of variance;ATP9A,ATPase Phospholipid Transporting 9A;BCECF-AM,2’,7’-bis-(2-barboxyethyl)-5-(and-6)-carboxyfluorescein,acetoxymethyl ester;BSA,bovine serum albumin;CCMR,Centre for Comparative Medicine Research;CRISPR,clustered regularly interspaced short palindromic repeats;CTL,ctrl;CXCR4,C-X-C Chemokine Receptor Type 4;DAPI,4′,6-diamidino-2-phenylindole;DFS,disease-free survival;DMEM,Dulbecco’s Modified Eagle Medium;DMSO,dimethyl sulfoxide;Dox,doxycycline;EEA1,early endosome antigen 1;EIPA,5-(N-ethyl-N-isopropyl)-amiloride;FBS,fetal bovine serum;FITC,fluorescein isothiocyanate;GAPDH,glyceraldehyde-3-phosphate dehydrogenase;GM130,Golgi matrix protein 130;HCC,hepatocellular carcinoma;HEPES,4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid;HPRT1,hypoxanthine phosphoribosyltransferase 1;H-score,histoscore;IAA,indole-3-acetic acid;KD,knockdown;KO,knockout;mAID,mini-auxin-inducible degron;MTT,3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide;NHE7,Na(+)/H(+)exchanger 7;ns,non-significant;OD,optical density;OS,overall survival;PBS,phosphate-buffered saline;PCR,polymerase chain reaction;pHe,endosomal pH;pHi,intracellular pH;PKH67,Paul Karl Horan 67;Rab21,Ras-associated binding protein 21;RIPA,radioimmunoprecipitation assay;SAM,synergistic activation mediator;SEMs,standard error of the means;sEVs,small extracellular vesicles;sgRNA,single-guide RNA;shRNA,short-hairpin RNA;SLC9,solute carrier gene 9;SLiCE,Seamless Ligation Cloning Extract;TCGA,The Cancer Genome Atlas;TCL,total cell lysates;TGN,trans-Golgi network;TMA,tissue microarray;TMR,tetramethyl rhodamine;TSG101,tumor susceptibility gene 101.Yue Yao and Yi Xu contributed equally to this work.Methods:Macropinocytosis was examined by the ability of cells to internalize dextran and sEV.Macropinocytosis was analyzed in Na(+)/H(+)exchanger 7(NHE7)-knockdown and-overexpressing cells.The properties of cells were stud-ied using functional assays.pH biosensor was used to evaluate the intracellular and endosomal pH.The expression of NHE7 in patients’liver tissues was exam-ined by immunofluorescent staining.Inducible silencing of NHE7 in established tumors was performed to reveal the therapeutic potential of targeting NHE7.Results:The data revealed that macropinocytosis controlled the internaliza-tion of sEVs and their oncogenic effect on recipient cells.It was found that metastatic HCC cells exhibited the highest efficiency of sEV uptake relative to normal liver cells and non-metastatic HCC cells.Attenuation of macropinocytic activity by 5-(N-ethyl-N-isopropyl)-amiloride(EIPA)limited the entry of sEVs and compromised cell aggressiveness.Mechanistically,we delineated that high level of NHE7,a sodium-hydrogen exchanger,alkalized intracellular pH and acidized endosomal pH,leading to the maturation of macropinosomes.Inducible inhibition of NHE7 in established tumors developed in mice delayed tumor development and suppressed lung metastasis.Clinically,NHE7 expression was upregulated and linked to dismal prognosis of HCC.Conclusions:This study advances the understanding that NHE7 enhances sEV uptake by macropinocytosis to promote the malignant properties of HCC cells.Inhibition of sEV uptake via macropinocytosis can be exploited as a treatment alone or in combination with conventional therapeutic approaches for HCC.展开更多
Aqueous zinc(Zn)-metal cells with cost-effective components and high safety have long been a promising large-scale energy storage system,but Zn anodes are intrinsically unstable with common aqueous electrolytes,causin...Aqueous zinc(Zn)-metal cells with cost-effective components and high safety have long been a promising large-scale energy storage system,but Zn anodes are intrinsically unstable with common aqueous electrolytes,causing substantial underutilization of the theoretical capacity.In this work,we report a strictly neutral aqueous Zn electrolyte at a low cost by leveraging the dynamic hydrolysis equilibrium of a dual-salt Zn(Ac)2/NaAc(Ac:CH3COO−)formulation.With the pH regulation,the corrosion and hydrogen evolution encountered in Zn anodes can be suppressed significantly.This hybrid aqueous electrolyte not only enables dendrite-free Zn plating/stripping at a nearly 95%Coulombic efficiency[an increase of 24%compared to that of the single-salt 1 mol/L Zn(Ac)2 electrolyte],but also supports the reversible operation of Zn cells paired with either Na3V2(PO4)3 or iodine cathodes—the former delivers a high output voltage of 1.55 V with an energy level of 99.5 W·h/kg(based on the mass of the cathode),and the latter possesses a high specific capacity of 110.9 mA·h/g while yielding long-term cyclability(thousands of cycles).These findings open up a new avenue of modifying practical electrolytes having targeted properties to stabilize multivalent metal anodes.展开更多
基金financially supported by theFundamental Research Funds of Shandong University(No.2015JC018)the Jiangsu Province Science Foundation for Youths(No.BK20140412)the Shandong Province Young and MiddleAged Scientists Research Awards Fund(No.BS2013CL030)
文摘Hydroxyapatite fiber (HAF) was fabricated via a one-step hydrothermal route by using urea (CA), acetamide (AA) and propanamide (PA) as pH regulators, respectively, and the reaction time was only 0.5 h. The HAF synthesized by CA as the pH regulator was agglomerated with irregular morphology, while using AA or PA as the pH regulator, the HAF was composed of well-dispersed fibers with lengths larger than 200 pm. Two different morphologies form mainly due to the different hydrolysis rates of the pH regulators. Most of the fibers synthesized by the three pH regulators showed curving appearance, implying their outstanding flexibility. The technique in this paper allows the rapid formation of flexible HAF and may have wider applications in the restorations and reinforcement composites.
基金the National Institutes of Health(Nos.R01NS110949,R01NS088627,R01NS112144,R01NS110825,R21AG064159)to LJW.
文摘After spinal cord injury,microglia as the first responders to the lesion display both beneficial and detrimental characteristics.Activated microglia phagocyte and eliminate cell debris,release cytokines to recruit peripheral immune cells to the injury site.Excessively activated microglia can aggravate the secondary damage by producing extravagant reactive oxygen species and pro-inflammatory cytokines.Recent studies demonstrated that the voltage-gated proton channel Hv1 is selectively expressed in microglia and regulates microglial activation upon injury.In mouse models of spinal cord injury,Hv1 deficiency ameliorates microglia activation,resulting in alleviated production of reactive oxygen species and pro-inflammatory cytokines.The reduced secondary damage subsequently decreases neuronal loss and correlates with improved locomotor recovery.This review provides a brief historical perspective of advances in investigating voltage-gated proton channel Hv1 and home in on microglial Hv1.We discuss recent studies on the roles of Hv1 activation in pathophysiological activities of microglia,such as production of NOX-dependent reactive oxygen species,microglia polarization,and tissue acidosis,particularly in the context of spinal cord injury.Further,we highlight the rationale for targeting Hv1 for the treatment of spinal cord injury and related disorders.
基金The work was funded by Research Grants Council General Research Fund(Grant No.17105322)Hong Kong Scholars Program(Grant No.XJ2020012 and 2020-036)+3 种基金University Research Committee Seed Fund for Basic Research(Grant No.202111159009)of The University of Hong KongMarshal Initiative Fund-ing of Harbin Medical University(Grant No.HMUMIF-22008)Open Funds of State Key Laboratory of Oncology in South China(Grant No.HN2023-02)Natural Sci-ence Foundation of Heilongjiang Province(Grant No.LH2023H043).
文摘Background:Small extracellular vesicles(sEVs)mediate intercellular commu-nication that contributes to hepatocellular carcinoma(HCC)progression via multifaceted pathways.The success of cell entry determines the effect of sEV on recipient cells.Here,we aimed to delineate the mechanisms underlying the uptake of sEV in HCC.Abbreviations:AF,Alexa Fluor;ANOVA,analysis of variance;ATP9A,ATPase Phospholipid Transporting 9A;BCECF-AM,2’,7’-bis-(2-barboxyethyl)-5-(and-6)-carboxyfluorescein,acetoxymethyl ester;BSA,bovine serum albumin;CCMR,Centre for Comparative Medicine Research;CRISPR,clustered regularly interspaced short palindromic repeats;CTL,ctrl;CXCR4,C-X-C Chemokine Receptor Type 4;DAPI,4′,6-diamidino-2-phenylindole;DFS,disease-free survival;DMEM,Dulbecco’s Modified Eagle Medium;DMSO,dimethyl sulfoxide;Dox,doxycycline;EEA1,early endosome antigen 1;EIPA,5-(N-ethyl-N-isopropyl)-amiloride;FBS,fetal bovine serum;FITC,fluorescein isothiocyanate;GAPDH,glyceraldehyde-3-phosphate dehydrogenase;GM130,Golgi matrix protein 130;HCC,hepatocellular carcinoma;HEPES,4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid;HPRT1,hypoxanthine phosphoribosyltransferase 1;H-score,histoscore;IAA,indole-3-acetic acid;KD,knockdown;KO,knockout;mAID,mini-auxin-inducible degron;MTT,3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide;NHE7,Na(+)/H(+)exchanger 7;ns,non-significant;OD,optical density;OS,overall survival;PBS,phosphate-buffered saline;PCR,polymerase chain reaction;pHe,endosomal pH;pHi,intracellular pH;PKH67,Paul Karl Horan 67;Rab21,Ras-associated binding protein 21;RIPA,radioimmunoprecipitation assay;SAM,synergistic activation mediator;SEMs,standard error of the means;sEVs,small extracellular vesicles;sgRNA,single-guide RNA;shRNA,short-hairpin RNA;SLC9,solute carrier gene 9;SLiCE,Seamless Ligation Cloning Extract;TCGA,The Cancer Genome Atlas;TCL,total cell lysates;TGN,trans-Golgi network;TMA,tissue microarray;TMR,tetramethyl rhodamine;TSG101,tumor susceptibility gene 101.Yue Yao and Yi Xu contributed equally to this work.Methods:Macropinocytosis was examined by the ability of cells to internalize dextran and sEV.Macropinocytosis was analyzed in Na(+)/H(+)exchanger 7(NHE7)-knockdown and-overexpressing cells.The properties of cells were stud-ied using functional assays.pH biosensor was used to evaluate the intracellular and endosomal pH.The expression of NHE7 in patients’liver tissues was exam-ined by immunofluorescent staining.Inducible silencing of NHE7 in established tumors was performed to reveal the therapeutic potential of targeting NHE7.Results:The data revealed that macropinocytosis controlled the internaliza-tion of sEVs and their oncogenic effect on recipient cells.It was found that metastatic HCC cells exhibited the highest efficiency of sEV uptake relative to normal liver cells and non-metastatic HCC cells.Attenuation of macropinocytic activity by 5-(N-ethyl-N-isopropyl)-amiloride(EIPA)limited the entry of sEVs and compromised cell aggressiveness.Mechanistically,we delineated that high level of NHE7,a sodium-hydrogen exchanger,alkalized intracellular pH and acidized endosomal pH,leading to the maturation of macropinosomes.Inducible inhibition of NHE7 in established tumors developed in mice delayed tumor development and suppressed lung metastasis.Clinically,NHE7 expression was upregulated and linked to dismal prognosis of HCC.Conclusions:This study advances the understanding that NHE7 enhances sEV uptake by macropinocytosis to promote the malignant properties of HCC cells.Inhibition of sEV uptake via macropinocytosis can be exploited as a treatment alone or in combination with conventional therapeutic approaches for HCC.
基金This work was supported by the National Key R&D Program of China(No.2017YFE0127600)the Strategic Priority Research Program of the Chinese Academy of Sciences(No.XDA21070304)+3 种基金the National Natural Science Foundation of China(Nos.U1706229,21975271)the Taishan Scholars of Shandong Province,China(No.ts201511063)the Youth Innovation Promotion Association of Chinese Academy of Sciences(No.2019214)the QIBEBT(No.ZZBS201808).
文摘Aqueous zinc(Zn)-metal cells with cost-effective components and high safety have long been a promising large-scale energy storage system,but Zn anodes are intrinsically unstable with common aqueous electrolytes,causing substantial underutilization of the theoretical capacity.In this work,we report a strictly neutral aqueous Zn electrolyte at a low cost by leveraging the dynamic hydrolysis equilibrium of a dual-salt Zn(Ac)2/NaAc(Ac:CH3COO−)formulation.With the pH regulation,the corrosion and hydrogen evolution encountered in Zn anodes can be suppressed significantly.This hybrid aqueous electrolyte not only enables dendrite-free Zn plating/stripping at a nearly 95%Coulombic efficiency[an increase of 24%compared to that of the single-salt 1 mol/L Zn(Ac)2 electrolyte],but also supports the reversible operation of Zn cells paired with either Na3V2(PO4)3 or iodine cathodes—the former delivers a high output voltage of 1.55 V with an energy level of 99.5 W·h/kg(based on the mass of the cathode),and the latter possesses a high specific capacity of 110.9 mA·h/g while yielding long-term cyclability(thousands of cycles).These findings open up a new avenue of modifying practical electrolytes having targeted properties to stabilize multivalent metal anodes.