Mesoporous silica nanoparticles(MsNs)are thought to be an attractive drug delivery material because of their advantages including high specific surface area,tunable pore size and morphology,easy sur-face modification ...Mesoporous silica nanoparticles(MsNs)are thought to be an attractive drug delivery material because of their advantages including high specific surface area,tunable pore size and morphology,easy sur-face modification and good biocompatibility.However,as a result of the poor biodegradability of MsNs,their biomedical applications are limited.To break the bottleneck of limited biomedical applications of MSNs,more and more researchers tend to design biodegradable MSNs(b-MSNs)nanosystems to obtain biodegradable as well as safe and reliable drug delivery carriers.In this review,we focused on sum-marizing strategies to improve the degradability of MsNs and innovatively proposed a series of advan-tages of b-MsNs,including controlled cargo release behavior,multifunctional frameworks,nano-catalysis,bio-imaging capabilities and enhanced therapeutic effects.Based on these advantages,we have inno-vatively summarized the applications of b-MsNs for enhanced tumor theranostics,including enhanced chemotherapy,delivery of nanosensitizers,gas molecules and biomacromolecules,initiation of immune response,synergistic therapies and image-guided tumor diagnostics.Finally,the challenges and further clinical translation potential of nanosystems based on b-MsNs are fully discussed and prospected.We believe that such b-MsNs delivery carriers will provide a timely reference for further applications in tu-mor theranostics.展开更多
As the third essential trace element in the human body,copper plays a crucial role in various physiological processes,which lays the foundation for its broad applications in cancer treatments.The overview of copper,in...As the third essential trace element in the human body,copper plays a crucial role in various physiological processes,which lays the foundation for its broad applications in cancer treatments.The overview of copper,including pharmacokinetics,signaling pathways,and homeostasis dysregulation,is hereby discussed.Additionally,cuproptosis,as a newly proposed cell death mechanism associated with copper accumulation,is analyzed and further developed for efficient cancer treatment.Different forms of Cu-based nanoparticles and their advantages,aswell as limiting factors,are introduced.Moreover,the unique characteristics of Cu-based nanoparticles give rise to their applications in various imaging modalities.In addition,Cu-based nanomaterials are featured by their excellent photothermal property and ROS-associated tumor-killing potential,which are widely explored in diverse cancer therapies and combined therapies.Reducing the concentration of Cu^(2+)/Cu^(+)is another cancer-killing method,and chelators can meet this need.More importantly,challenges and future prospects are identified for further research.展开更多
基金from"XingLiao Talent Program"of Liaoning Province(No.XLYC2203156)Shenyang Young and Middle-aged Science and Technology Innovation Talent Support Program(No.RC220397)are greatly acknowledged。
文摘Mesoporous silica nanoparticles(MsNs)are thought to be an attractive drug delivery material because of their advantages including high specific surface area,tunable pore size and morphology,easy sur-face modification and good biocompatibility.However,as a result of the poor biodegradability of MsNs,their biomedical applications are limited.To break the bottleneck of limited biomedical applications of MSNs,more and more researchers tend to design biodegradable MSNs(b-MSNs)nanosystems to obtain biodegradable as well as safe and reliable drug delivery carriers.In this review,we focused on sum-marizing strategies to improve the degradability of MsNs and innovatively proposed a series of advan-tages of b-MsNs,including controlled cargo release behavior,multifunctional frameworks,nano-catalysis,bio-imaging capabilities and enhanced therapeutic effects.Based on these advantages,we have inno-vatively summarized the applications of b-MsNs for enhanced tumor theranostics,including enhanced chemotherapy,delivery of nanosensitizers,gas molecules and biomacromolecules,initiation of immune response,synergistic therapies and image-guided tumor diagnostics.Finally,the challenges and further clinical translation potential of nanosystems based on b-MsNs are fully discussed and prospected.We believe that such b-MsNs delivery carriers will provide a timely reference for further applications in tu-mor theranostics.
基金Grant from Liaoning Provincal National Nature Science Foundation of China(No.2023-MS-202)is greatly acknowledged.
文摘As the third essential trace element in the human body,copper plays a crucial role in various physiological processes,which lays the foundation for its broad applications in cancer treatments.The overview of copper,including pharmacokinetics,signaling pathways,and homeostasis dysregulation,is hereby discussed.Additionally,cuproptosis,as a newly proposed cell death mechanism associated with copper accumulation,is analyzed and further developed for efficient cancer treatment.Different forms of Cu-based nanoparticles and their advantages,aswell as limiting factors,are introduced.Moreover,the unique characteristics of Cu-based nanoparticles give rise to their applications in various imaging modalities.In addition,Cu-based nanomaterials are featured by their excellent photothermal property and ROS-associated tumor-killing potential,which are widely explored in diverse cancer therapies and combined therapies.Reducing the concentration of Cu^(2+)/Cu^(+)is another cancer-killing method,and chelators can meet this need.More importantly,challenges and future prospects are identified for further research.
