With the improvements in computer computing ability,data accumulation and rapid algorithm development,the integration of artificial intelligence(AI)and drug synthesis has been accelerated,significantly improving the d...With the improvements in computer computing ability,data accumulation and rapid algorithm development,the integration of artificial intelligence(AI)and drug synthesis has been accelerated,significantly improving the design and synthesis of drug molecules.Recently,data-driven computer-aided synthesis tools have been quickly and widely applied in retrosynthetic analysis,reaction prediction and automated synthesis,which can effectively accelerate the process of drug discovery and development and improve the quality of designed and synthesized drug molecules.Here,we review the development and applications of computer-aided synthesis technology and introduce recent advances in computer-aided drug development from three aspects:computer-aided drug design,computer-aided drug synthesis route design and computer-aided intelligent drug synthesis machines.Furthermore,the challenges and opportunities of computer-aided drug synthesis technology are discussed.展开更多
Enzyme prodrug therapies(EPTs)have been intensively explored as attractive approaches to selective activation of systemically administered benign prodrugs by the exogenous enzymes or enzymes expressed at the desired t...Enzyme prodrug therapies(EPTs)have been intensively explored as attractive approaches to selective activation of systemically administered benign prodrugs by the exogenous enzymes or enzymes expressed at the desired target site,thus achieving localized,site-specific therapeutic effect.Many effective strategies(e.g.,antibody-,viral-,gene-,as well as polymer-directed EPT)have been developed for enzyme localization to locally activate systemically administered benign prodrugs.Nevertheless,intrinsic limitations(e.g.,complex intracellular environment and catalyst instability)make the practical application of EPT strategies a task that presents itself as highly challenging.As a promising alternative to natural enzyme,nanozyme has attracted substantial attention since its discovery in 2007,mainly due to the advantages of robust catalytic activity,high stability,low cost,and facile synthesis.Recently,nanozyme-activated prodrug strategies bring a new opportunity for targeted therapy,referred to as nanozyme-activating prodrug therapies.This review focuses on recently reported nanozyme-activated prodrug strategies,aiming to provide some new insights into the potential applications in site-specific drug synthesis.展开更多
Covalent organic frameworks(COFs) are an emerging class of porous covalent organic structures whose backbones were composed of light elements(B,C,N,O,Si) and linked by robust covalent bonds to endow such material ...Covalent organic frameworks(COFs) are an emerging class of porous covalent organic structures whose backbones were composed of light elements(B,C,N,O,Si) and linked by robust covalent bonds to endow such material with desirable properties,i.e.,inherent porosity,well-defined pore aperture,ordered channel structure,large surface area,high stability,and multi-dimension.As expected,the abovementioned properties of COFs broaden the applications of this class of materials in various fields such as gas storage and separation,catalysis,optoelectronics,sensing,small molecules adsorption,and drug delivery.In this review,we outlined the synthesis of COFs and highlighted their applications ranging from the initial gas storage and separation to drug delivery.展开更多
A solvothermal method has been successfully used to prepare nanostructured hydroxyapatite (HA) hollow spheres with average diameters of about 500 nm and shell thicknesses of about 100 nm in a glycerin/water mixed so...A solvothermal method has been successfully used to prepare nanostructured hydroxyapatite (HA) hollow spheres with average diameters of about 500 nm and shell thicknesses of about 100 nm in a glycerin/water mixed solvent. Transmission electron microscopy (TEM) and field-emission scanning electron microscopy (FESEM) images show that the shells of the HA hollow spheres are actually composed of nanosheets with thicknesses of about 10 nm. By tuning the glycerin/water volume ratio, two other kinds of HA solid spheres with average diameters of about 6 or 20 pm were assembled from nanoflakes. The properties of the different kinds of spheres as drug delivery carriers were evaluated. Ibuprofen (IBU) was chosen as the model drug to load into the HA samples. The nanostructured HA samples showed a slow and sustained release of IBU. The HA hollow spheres exhibited a higher drug loading capacity and more favorable release properties than the HA solid spheres and thus are very promising for controlled drug release applications.展开更多
A facile,gram-scale and sustainable approach has been established for the synthesis of single-atomic-site iron on N-doped carbon(Fe_(SA)@NC-20A)via the pyrolysis of aniline modified FeZn-ZIFs,in which the synthesis of...A facile,gram-scale and sustainable approach has been established for the synthesis of single-atomic-site iron on N-doped carbon(Fe_(SA)@NC-20A)via the pyrolysis of aniline modified FeZn-ZIFs,in which the synthesis of zeolitic imidazolate frameworks(ZIFs)can be accomplished in water at room temperature,and no acid etching is required.The as-synthesized catalyst exhibits better performance on the chemoselective hydrogenation of nitroarenes with a broad substrate scope(turnover frequency(TOF)up to 1,727 h^(-1),23 examples)than most of previously reported works.Based on high-angle annular dark field scanning transmission microscopy(HAADF-STEM)images in combination with X-ray photoelectron spectroscopy(XPS),X-ray absorption spectroscopy(XAS),electron spin resonance(ESR),and Mossbauer spectroscopy,Fe is dispersed as single atoms via forming FeNx(x=4-6).This work not only determines the active sites of FesA@NC-20A for hydrogenation(FeN4),but also proposes tentative pathways for both N-H activation of hydrazine and the reduction of nitroarene on FeN4 site,both of which are the key steps for the hydrogenation of nitroarenes.In addition,this catalyst shows excellent stability,and no significant activity degradation is observed when recycling for 10 times or restoring in air for 2 months.展开更多
C urrently, the predominant therapy for urinary calculi is minimally invasive treatment, which could reduce injury to patients while enhancing the success rate, compared to traditional open surgery. Minimally invasive...C urrently, the predominant therapy for urinary calculi is minimally invasive treatment, which could reduce injury to patients while enhancing the success rate, compared to traditional open surgery. Minimally invasive treatments in urinary system include extracorporeal shock wave lithotripsy (ESWL), percutaneous nephro- stolithotomy (PCNL), ureteroscopic lithotripsy (URSL), laparoscopy, and so on. Despite the relative small injury,展开更多
基金This work was supported by grants from the National Natural Science Foundation of China(Nos.81922064,22177083,81874290,81803755)Sichuan University Postdoctoral Interdisciplinary Innovation Fund,and West China Nursing Discipline Development Special Fund Project,Sichuan University(No.HXHL21011).
文摘With the improvements in computer computing ability,data accumulation and rapid algorithm development,the integration of artificial intelligence(AI)and drug synthesis has been accelerated,significantly improving the design and synthesis of drug molecules.Recently,data-driven computer-aided synthesis tools have been quickly and widely applied in retrosynthetic analysis,reaction prediction and automated synthesis,which can effectively accelerate the process of drug discovery and development and improve the quality of designed and synthesized drug molecules.Here,we review the development and applications of computer-aided synthesis technology and introduce recent advances in computer-aided drug development from three aspects:computer-aided drug design,computer-aided drug synthesis route design and computer-aided intelligent drug synthesis machines.Furthermore,the challenges and opportunities of computer-aided drug synthesis technology are discussed.
基金financially supported by the Shandong Provincial Natural Science Foundation of China(No.ZR2021QC088).
文摘Enzyme prodrug therapies(EPTs)have been intensively explored as attractive approaches to selective activation of systemically administered benign prodrugs by the exogenous enzymes or enzymes expressed at the desired target site,thus achieving localized,site-specific therapeutic effect.Many effective strategies(e.g.,antibody-,viral-,gene-,as well as polymer-directed EPT)have been developed for enzyme localization to locally activate systemically administered benign prodrugs.Nevertheless,intrinsic limitations(e.g.,complex intracellular environment and catalyst instability)make the practical application of EPT strategies a task that presents itself as highly challenging.As a promising alternative to natural enzyme,nanozyme has attracted substantial attention since its discovery in 2007,mainly due to the advantages of robust catalytic activity,high stability,low cost,and facile synthesis.Recently,nanozyme-activated prodrug strategies bring a new opportunity for targeted therapy,referred to as nanozyme-activating prodrug therapies.This review focuses on recently reported nanozyme-activated prodrug strategies,aiming to provide some new insights into the potential applications in site-specific drug synthesis.
基金the National Natural Science Foundation of China(Nos.51673084,51473061)the JLU Cultivation Fund for the National Science Fund for Distinguished Young Scholars,for financial support
文摘Covalent organic frameworks(COFs) are an emerging class of porous covalent organic structures whose backbones were composed of light elements(B,C,N,O,Si) and linked by robust covalent bonds to endow such material with desirable properties,i.e.,inherent porosity,well-defined pore aperture,ordered channel structure,large surface area,high stability,and multi-dimension.As expected,the abovementioned properties of COFs broaden the applications of this class of materials in various fields such as gas storage and separation,catalysis,optoelectronics,sensing,small molecules adsorption,and drug delivery.In this review,we outlined the synthesis of COFs and highlighted their applications ranging from the initial gas storage and separation to drug delivery.
基金Acknowledgements The authors are grateful to the financial support of the National Natural Science Foundation of China (Grants Nos. 20871038, 20976033 and 21176054), the Fundamental Research Fund for the Central Universities (2010HGZY0012) and the Education Department of Anhui Provincial Government (TD200702).
文摘A solvothermal method has been successfully used to prepare nanostructured hydroxyapatite (HA) hollow spheres with average diameters of about 500 nm and shell thicknesses of about 100 nm in a glycerin/water mixed solvent. Transmission electron microscopy (TEM) and field-emission scanning electron microscopy (FESEM) images show that the shells of the HA hollow spheres are actually composed of nanosheets with thicknesses of about 10 nm. By tuning the glycerin/water volume ratio, two other kinds of HA solid spheres with average diameters of about 6 or 20 pm were assembled from nanoflakes. The properties of the different kinds of spheres as drug delivery carriers were evaluated. Ibuprofen (IBU) was chosen as the model drug to load into the HA samples. The nanostructured HA samples showed a slow and sustained release of IBU. The HA hollow spheres exhibited a higher drug loading capacity and more favorable release properties than the HA solid spheres and thus are very promising for controlled drug release applications.
基金the Fundamental Research Funds for the Central Universities(No.30920021120)the Key Laboratory of Biomass Energy and Material,Jiangsu Province(No.JSBEM201912)+1 种基金the National Natural Science Foundation of China(No.21905089)the Chinese Postdoctoral Science Foundation(No.2019M662775)for financial support。
文摘A facile,gram-scale and sustainable approach has been established for the synthesis of single-atomic-site iron on N-doped carbon(Fe_(SA)@NC-20A)via the pyrolysis of aniline modified FeZn-ZIFs,in which the synthesis of zeolitic imidazolate frameworks(ZIFs)can be accomplished in water at room temperature,and no acid etching is required.The as-synthesized catalyst exhibits better performance on the chemoselective hydrogenation of nitroarenes with a broad substrate scope(turnover frequency(TOF)up to 1,727 h^(-1),23 examples)than most of previously reported works.Based on high-angle annular dark field scanning transmission microscopy(HAADF-STEM)images in combination with X-ray photoelectron spectroscopy(XPS),X-ray absorption spectroscopy(XAS),electron spin resonance(ESR),and Mossbauer spectroscopy,Fe is dispersed as single atoms via forming FeNx(x=4-6).This work not only determines the active sites of FesA@NC-20A for hydrogenation(FeN4),but also proposes tentative pathways for both N-H activation of hydrazine and the reduction of nitroarene on FeN4 site,both of which are the key steps for the hydrogenation of nitroarenes.In addition,this catalyst shows excellent stability,and no significant activity degradation is observed when recycling for 10 times or restoring in air for 2 months.
文摘C urrently, the predominant therapy for urinary calculi is minimally invasive treatment, which could reduce injury to patients while enhancing the success rate, compared to traditional open surgery. Minimally invasive treatments in urinary system include extracorporeal shock wave lithotripsy (ESWL), percutaneous nephro- stolithotomy (PCNL), ureteroscopic lithotripsy (URSL), laparoscopy, and so on. Despite the relative small injury,
