As the indispensable second cellular messenger,calcium signaling is involved in the regulation of almost all physiological processes by activating specific target proteins.The importance of calcium ions(Ca^(2+))makes ...As the indispensable second cellular messenger,calcium signaling is involved in the regulation of almost all physiological processes by activating specific target proteins.The importance of calcium ions(Ca^(2+))makes its“Janus nature”strictly regulated by its concentration.Abnormal regulation of calcium signals may cause some diseases;however,artificial regulation of calcium homeostasis in local lesions may also play a therapeutic role.“Calcium overload,”for example,is characterized by excessive enrichment of intracellular Ca^(2+),which irreversibly switches calcium signaling from“positive regulation”to“reverse destruction,”leading to cell death.However,this undesirable death could be defined as“calcicoptosis”to offer a novel approach for cancer treatment.Indeed,Ca^(2+)is involved in various cancer diagnostic and therapeutic events,including calcium overload-induced calcium homeostasis disorder,calcium channels dysregulation,mitochondrial dysfunction,calcium-associated immunoregulation,cell/vascular/tumor calcification,and calcification-mediated CT imaging.In paral-lel,the development of multifunctional calcium-based nanomaterials(e.g.,calcium phosphate,calcium carbonate,calcium peroxide,and hydroxyapatite)is becoming abundantly available.This review will highlight the latest insights of the calcium-based nanomaterials,explain their application,and provide novel perspective.Identifying and characterizing new patterns of calcium-dependent signaling and exploiting the disease element linkage offer additional translational opportunities for cancer theranostics.展开更多
During the fixed bed tube furnace combustion experimental study,stimulated the calcium-based sorbent grain size and microstructured influencing factors to explain the fluorine retention effect influence law,and expoun...During the fixed bed tube furnace combustion experimental study,stimulated the calcium-based sorbent grain size and microstructured influencing factors to explain the fluorine retention effect influence law,and expounded the combustion fluorine retention agent developing principle,and probed into the high-temperature fluorine retention agent technical approach.The results show that the calcium-based sorbent particle grain size and pore structure also have the bigger influence on the combustion fluorine retention ef- fect,and reducing the calcium-based sorbent particle grain size and improving the calcium sorbent structure characteristics at very high temperature to enhance the fluorine retention effect is the important approach to the fluorine retention agent development.展开更多
In order to provide experimental guide to commercial use of fluorine pollution control during coal combustion, with fluorine pollution control during coal combustion in mind, this paper proposed the theory of combusti...In order to provide experimental guide to commercial use of fluorine pollution control during coal combustion, with fluorine pollution control during coal combustion in mind, this paper proposed the theory of combustion fluorine retention technology. Feasibility of fluorine retention reaction with calcium-based fluorine retention agent was analyzed through thermo-dynamic calculation during coal combustion. By simulating the restraining and retention effects and influential factors of calcium-based sorbets on vaporized fluoride during experimental combustion using fixed bed tube furnace, the paper systematically explored the influential law of such factors as combustion temperature, retention time, and added quantities of calcium-based sorbets on effects of fluorine retention. The research result shows that adding calcium-based fluorine retention agent in coal combustion has double effects of fluorine retention and sulfur retention, it lays an experimental foundation for commercial test of combustion fluorine retention.展开更多
The H2S removal characteristics of Taxada lime tinder the high temperature of 600-900℃ have been investigated. The test results indicated that this kind of sorbent almost was inert to H2S When temperature lowered dow...The H2S removal characteristics of Taxada lime tinder the high temperature of 600-900℃ have been investigated. The test results indicated that this kind of sorbent almost was inert to H2S When temperature lowered down to 600℃,while its reactivity increased with increased temperature and the equilibrium conversion reached up to over 60% at temperatLlre of 900℃.However, side reactions of H2S in conjunction with high-temperature decomposition and mineral catalysis to elemental sulfur and sulfur dioxide were testified.展开更多
Background:Non-small cell lung cancer(NSCLC)has a poor prognosis with a low 5-year survival rate.Lung adenocarcinoma(LUAD)accounts for 50%.Facio-genital dysplasia-5(FGD5),a member of a subfamily of Rho GTPGDP exchange...Background:Non-small cell lung cancer(NSCLC)has a poor prognosis with a low 5-year survival rate.Lung adenocarcinoma(LUAD)accounts for 50%.Facio-genital dysplasia-5(FGD5),a member of a subfamily of Rho GTPGDP exchange factors,may be a good molecular biomarker for diagnosis and prognosis.Objective:To explore the clinical application of FGD5,the study was designed to investigate the prognosis value of FGD5 expression and its correlation with immune infiltrates in LUAD patients.Methods:Through the Wilcoxon signed-rank test and logistic regression,the correlation between clinical characteristics and FGD5 expression was analyzed.Kaplan-Meier plotter analysis,Cox regression,and a receiver operating characteristic(ROC)curve were constructed to evaluate the influence of FGD5 on prognosis.The function of FGD5 in lung cancer was analyzed using Gene set enrichment analysis(GSEA)and Single Sample Gene Set Enrichment Analysis(ssGSEA).Results:Compared to normal tissues,FGD5 was downregulated in LUAD.FGD5 may be a potential diagnostic and prognostic biomarker of lung cancer for its association with improved overall survival(OS),progression-free interval(PFI),and disease-specific survival(DSS)in LUAD.Results of functional analysis suggested that FGD5 was involved in the immune response for its association with immune infiltration.Conclusion:FGD5 may be a significant molecular biomarker for diagnosis and prognosis,presenting as an independent prognostic risk factor for LUAD.展开更多
基金supported by the Major State Basic Research Development Program of China(No.2017YFA0205201)China Postdoctoral Science Foundation Funded Project(2021M702743)the National Natural Science Foundation of China(NSFC,Nos.81925019,32101113,and U1705281).
文摘As the indispensable second cellular messenger,calcium signaling is involved in the regulation of almost all physiological processes by activating specific target proteins.The importance of calcium ions(Ca^(2+))makes its“Janus nature”strictly regulated by its concentration.Abnormal regulation of calcium signals may cause some diseases;however,artificial regulation of calcium homeostasis in local lesions may also play a therapeutic role.“Calcium overload,”for example,is characterized by excessive enrichment of intracellular Ca^(2+),which irreversibly switches calcium signaling from“positive regulation”to“reverse destruction,”leading to cell death.However,this undesirable death could be defined as“calcicoptosis”to offer a novel approach for cancer treatment.Indeed,Ca^(2+)is involved in various cancer diagnostic and therapeutic events,including calcium overload-induced calcium homeostasis disorder,calcium channels dysregulation,mitochondrial dysfunction,calcium-associated immunoregulation,cell/vascular/tumor calcification,and calcification-mediated CT imaging.In paral-lel,the development of multifunctional calcium-based nanomaterials(e.g.,calcium phosphate,calcium carbonate,calcium peroxide,and hydroxyapatite)is becoming abundantly available.This review will highlight the latest insights of the calcium-based nanomaterials,explain their application,and provide novel perspective.Identifying and characterizing new patterns of calcium-dependent signaling and exploiting the disease element linkage offer additional translational opportunities for cancer theranostics.
基金the National Natural Science Foundation of China(50476032)China Postdoctoral Science Foundation(2004035555)New Century of Talents Scheme Projects of Universities in Liaoning Province(RC-04-04)
文摘During the fixed bed tube furnace combustion experimental study,stimulated the calcium-based sorbent grain size and microstructured influencing factors to explain the fluorine retention effect influence law,and expounded the combustion fluorine retention agent developing principle,and probed into the high-temperature fluorine retention agent technical approach.The results show that the calcium-based sorbent particle grain size and pore structure also have the bigger influence on the combustion fluorine retention ef- fect,and reducing the calcium-based sorbent particle grain size and improving the calcium sorbent structure characteristics at very high temperature to enhance the fluorine retention effect is the important approach to the fluorine retention agent development.
基金the National Natural Science Foundation of China(50476032)China Postdoctoral Science Foundation(2004035555)New Century of Talents Scheme Projects of Universities in Liaoning Province(RC-04-04)
文摘In order to provide experimental guide to commercial use of fluorine pollution control during coal combustion, with fluorine pollution control during coal combustion in mind, this paper proposed the theory of combustion fluorine retention technology. Feasibility of fluorine retention reaction with calcium-based fluorine retention agent was analyzed through thermo-dynamic calculation during coal combustion. By simulating the restraining and retention effects and influential factors of calcium-based sorbets on vaporized fluoride during experimental combustion using fixed bed tube furnace, the paper systematically explored the influential law of such factors as combustion temperature, retention time, and added quantities of calcium-based sorbets on effects of fluorine retention. The research result shows that adding calcium-based fluorine retention agent in coal combustion has double effects of fluorine retention and sulfur retention, it lays an experimental foundation for commercial test of combustion fluorine retention.
文摘The H2S removal characteristics of Taxada lime tinder the high temperature of 600-900℃ have been investigated. The test results indicated that this kind of sorbent almost was inert to H2S When temperature lowered down to 600℃,while its reactivity increased with increased temperature and the equilibrium conversion reached up to over 60% at temperatLlre of 900℃.However, side reactions of H2S in conjunction with high-temperature decomposition and mineral catalysis to elemental sulfur and sulfur dioxide were testified.
文摘Background:Non-small cell lung cancer(NSCLC)has a poor prognosis with a low 5-year survival rate.Lung adenocarcinoma(LUAD)accounts for 50%.Facio-genital dysplasia-5(FGD5),a member of a subfamily of Rho GTPGDP exchange factors,may be a good molecular biomarker for diagnosis and prognosis.Objective:To explore the clinical application of FGD5,the study was designed to investigate the prognosis value of FGD5 expression and its correlation with immune infiltrates in LUAD patients.Methods:Through the Wilcoxon signed-rank test and logistic regression,the correlation between clinical characteristics and FGD5 expression was analyzed.Kaplan-Meier plotter analysis,Cox regression,and a receiver operating characteristic(ROC)curve were constructed to evaluate the influence of FGD5 on prognosis.The function of FGD5 in lung cancer was analyzed using Gene set enrichment analysis(GSEA)and Single Sample Gene Set Enrichment Analysis(ssGSEA).Results:Compared to normal tissues,FGD5 was downregulated in LUAD.FGD5 may be a potential diagnostic and prognostic biomarker of lung cancer for its association with improved overall survival(OS),progression-free interval(PFI),and disease-specific survival(DSS)in LUAD.Results of functional analysis suggested that FGD5 was involved in the immune response for its association with immune infiltration.Conclusion:FGD5 may be a significant molecular biomarker for diagnosis and prognosis,presenting as an independent prognostic risk factor for LUAD.