Inhaled drug-containing nanocarriers have been well applied as an important strategy in pulmonary dis-eases.Acute lung injury(ALI)is characterized by abnormal lung tension and complex pathogenesis,with high mortality ...Inhaled drug-containing nanocarriers have been well applied as an important strategy in pulmonary dis-eases.Acute lung injury(ALI)is characterized by abnormal lung tension and complex pathogenesis,with high mortality because of the limitations of targeted intervention.Accordingly,in the present study,we first identified that the mechanosensitive ion channel Piezo1 participated in the ALI-associated processes induced by lipopolysaccharide(LPS)in vitro and in vivo.Then,chitosan-stabilized bovine serum albu-min nanoparticles(NCs)emulsified with the Piezo1 inhibitor GsMTx4(NC-GsMTx4)were generated and exhibited excellent biocompatibility and biological function.Through aerosol inhalation,NC-GsMTx4 im-proved lung injury and inhibited cell apoptosis in LPS-stressed ALI mice and alleviated pulmonary fibrosis during the later stage of ALI.Mechanistically,GsMTx4 could regulate inflammation and apoptosis in lung epithelial cells via NF-κB and ERK1/2 signaling.In summary,our findings provide new insights into the pathological mechanisms of Piezo1 in ALI progression,and nebulized inhalation of NC-GsMTx4 offers a prospective platform for targeting Piezo1 to treat ALI efficiently and conveniently.展开更多
Upon the osteoporotic condition,sluggish osteogenesis,excessive bone resorption,and chronic inflammation make the osseointegration of bioinert titanium(Ti)implants with surrounding bone tissues difficult,often lead to...Upon the osteoporotic condition,sluggish osteogenesis,excessive bone resorption,and chronic inflammation make the osseointegration of bioinert titanium(Ti)implants with surrounding bone tissues difficult,often lead to prosthesis loosening,bone collapse,and implant failure.In this study,we firstly designed clickable mussel-inspired peptides(DOPA-N3)and grafted them onto the surfaces of Ti materials through robust catechol-TiO2 coordinative interactions.Then,two dibenzylcyclooctyne(DBCO)-capped bioactive peptides RGD and BMP-2 bioactive domain(BMP-2)were clicked onto the DOPA-N3-coated Ti material surfaces via bio-orthogonal reaction.We characterized the surface morphology and biocompatibility of the Ti substrates and optimized the osteogenic capacity of Ti surfaces through adjusting the ideal ratios of BMP-2/RGD at 3:1.In vitro,the dual-functionalized Ti substrates exhibited excellent promotion on adhesion and osteogenesis of mesenchymal stem cells(MSCs),and conspicuous immunopolarization-regulation to shift macrophages to alternative(M2)phenotypes and inhibit inflammation,as well as enhancement of osseointegration and mechanical stability in osteoporotic rats.In summary,our biomimetic surface modification strategy by bio-orthogonal reaction provided a convenient and feasible method to resolve the bioinertia and clinical complications of Ti-based implants,which was conducive to the long-term success of Ti implants,especially in the osteoporotic or inflammatory conditions.展开更多
基金supported by the Science and Technology Plan of Jiangxi Provincial Health Commission(No.SKJP220201115)Live Science and Technology of Suzhou(No.SS201862)the Prior-ity Academic Program Development of Jiangsu Higher Education Institutions(PAPD).Translational Research Grant of NCRCH(No.2020WSB08).
文摘Inhaled drug-containing nanocarriers have been well applied as an important strategy in pulmonary dis-eases.Acute lung injury(ALI)is characterized by abnormal lung tension and complex pathogenesis,with high mortality because of the limitations of targeted intervention.Accordingly,in the present study,we first identified that the mechanosensitive ion channel Piezo1 participated in the ALI-associated processes induced by lipopolysaccharide(LPS)in vitro and in vivo.Then,chitosan-stabilized bovine serum albu-min nanoparticles(NCs)emulsified with the Piezo1 inhibitor GsMTx4(NC-GsMTx4)were generated and exhibited excellent biocompatibility and biological function.Through aerosol inhalation,NC-GsMTx4 im-proved lung injury and inhibited cell apoptosis in LPS-stressed ALI mice and alleviated pulmonary fibrosis during the later stage of ALI.Mechanistically,GsMTx4 could regulate inflammation and apoptosis in lung epithelial cells via NF-κB and ERK1/2 signaling.In summary,our findings provide new insights into the pathological mechanisms of Piezo1 in ALI progression,and nebulized inhalation of NC-GsMTx4 offers a prospective platform for targeting Piezo1 to treat ALI efficiently and conveniently.
基金This work was supported by the National Key Research and Development Program of China(2019YFA0112000)the National Natural Science Foundation of China(81972059,81772358,21875092)+1 种基金the key R&D programs of Jiangsu Province(BE2019668),China Postdoctoral Science Foundation(2020M671587)Jiangsu Provincial Clinical Orthopedic Center,Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),the High-level Talents Research and Development Program of Affiliated Dongguan Hospital,Southern Medical University(K202102).
文摘Upon the osteoporotic condition,sluggish osteogenesis,excessive bone resorption,and chronic inflammation make the osseointegration of bioinert titanium(Ti)implants with surrounding bone tissues difficult,often lead to prosthesis loosening,bone collapse,and implant failure.In this study,we firstly designed clickable mussel-inspired peptides(DOPA-N3)and grafted them onto the surfaces of Ti materials through robust catechol-TiO2 coordinative interactions.Then,two dibenzylcyclooctyne(DBCO)-capped bioactive peptides RGD and BMP-2 bioactive domain(BMP-2)were clicked onto the DOPA-N3-coated Ti material surfaces via bio-orthogonal reaction.We characterized the surface morphology and biocompatibility of the Ti substrates and optimized the osteogenic capacity of Ti surfaces through adjusting the ideal ratios of BMP-2/RGD at 3:1.In vitro,the dual-functionalized Ti substrates exhibited excellent promotion on adhesion and osteogenesis of mesenchymal stem cells(MSCs),and conspicuous immunopolarization-regulation to shift macrophages to alternative(M2)phenotypes and inhibit inflammation,as well as enhancement of osseointegration and mechanical stability in osteoporotic rats.In summary,our biomimetic surface modification strategy by bio-orthogonal reaction provided a convenient and feasible method to resolve the bioinertia and clinical complications of Ti-based implants,which was conducive to the long-term success of Ti implants,especially in the osteoporotic or inflammatory conditions.
