Since apoptosis of foam,cells can induce plaque instability,reducing intracellular lipid content while protecting foam cells from apoptosis is beneficial for the safe and efficient therapy of atherosclerosis.In this s...Since apoptosis of foam,cells can induce plaque instability,reducing intracellular lipid content while protecting foam cells from apoptosis is beneficial for the safe and efficient therapy of atherosclerosis.In this study,osteopontin-coupled polydopamine(PDA-OPN)nanoparticles were synthesized and applied to target mild photothermal therapy(PTT)of atherosclerosis.The results from laser confocal microscopy indicate that PDA-OPN nanoparticles can be specially recognized and absorbed by foam cells.Under near-infrared laser irradiation,the mild photothermal generated by PDA-OPN decreases intracellular lipid accumulation but does not induce cell apoptosis.In vivo treatments demonstrate that mild PTT can substantially reduce plaque area and improve plaque stability by upregulating the expression of plaque fibrosis in ApoE^(−/−)mice.Our findings reinforce that the PDA-OPN nanoparticle-mediated mild PTT can inhibit atherosclerotic progression,which provides new insights for developing safe and effective treatment methods for atherosclerosis.展开更多
Given that apoptosis increases the risk of plaque rupture, strategies that reduce intracellular lipid levels without killing foam cells are warranted for safe and effective treatment of atherosclerosis. In this study,...Given that apoptosis increases the risk of plaque rupture, strategies that reduce intracellular lipid levels without killing foam cells are warranted for safe and effective treatment of atherosclerosis. In this study, a mild pho-totherapy strategy is carried out to achieve the hypothesis. Foam cell-targeted nanoprobes that allow photo-thermal therapy (PTT) and/or photodynamic therapy (PDT) were prepared by loading hyaluronan and porphine onto black TiO_(2) nanoparticles. The results showed that when temperatures below 45 ◦C, PTT alone and PTT +PDT significantly reduced the intracellular lipid burden without inducing evidently apoptosis or necrosis. In contrast, the use of PDT alone resulted in only a slight reduction in lipid levels and induced massive apoptosis or necrosis. The protective effect against apoptosis or necrosis after mild-temperature PTT and PTT + PDT was correlated with the upregulation of heat shock protein 27. Further, mild-temperature PTT and PTT + PDT attenuated intracellular cholesterol biosynthesis and excess cholesterol uptake via the SREBP2/LDLR pathway, and also triggered ABCA1-mediated cholesterol efflux, ultimately inhibiting lipid accumulation in foam cells. Our results offer new insights into the mechanism of lipid regulation in foam cells and indicate that the black TiO_(2) nanoprobes could allow safer and more effective phototherapy of atherosclerosis.展开更多
基金supported by the National Natural Science Foundation of China(32171359,31971292,32025021 and 32111540257)the General Research Program of Zhejiang Provincial Department of Health(WKJ-ZJ-2137)+2 种基金the Zhejiang Province Financial Supporting(2020C03110 and 2023C04017)the Key Scientific and Technological Special Project of Ningbo City(2020Z094)the Natural Science Foundation of Ningbo(202003N4001,2021J240 and 20221JCGY010661).
文摘Since apoptosis of foam,cells can induce plaque instability,reducing intracellular lipid content while protecting foam cells from apoptosis is beneficial for the safe and efficient therapy of atherosclerosis.In this study,osteopontin-coupled polydopamine(PDA-OPN)nanoparticles were synthesized and applied to target mild photothermal therapy(PTT)of atherosclerosis.The results from laser confocal microscopy indicate that PDA-OPN nanoparticles can be specially recognized and absorbed by foam cells.Under near-infrared laser irradiation,the mild photothermal generated by PDA-OPN decreases intracellular lipid accumulation but does not induce cell apoptosis.In vivo treatments demonstrate that mild PTT can substantially reduce plaque area and improve plaque stability by upregulating the expression of plaque fibrosis in ApoE^(−/−)mice.Our findings reinforce that the PDA-OPN nanoparticle-mediated mild PTT can inhibit atherosclerotic progression,which provides new insights for developing safe and effective treatment methods for atherosclerosis.
基金This work was supported by Natural Science Foundation of China(32171359,32025021,31971292)National Key R&D Program of China(2019YFA0405603,2018YFC0910601)+7 种基金Zhejiang Province Financial Supporting(LGF19C100001,2020C03110)Key Laboratory of Diagnosis and Treatment of Digestive System Tumors of Zhejiang Province(No.2019E10020)Zhejiang Provincial Natural Science Foundation of China(LY20H020002)General research program of Zhejiang Provincial Department of health(WKJ-ZJ-2137)Key Scientific and Technological Special Project of Ningbo City(2020Z094)the Affiliated Hospital of Medical School of Ningbo University Youth Talent Cultivation Program(FYQM-KY-202002)Furthermore,the authors also acknowledge National Synchrotron Radiation Laboratory in Hefei for High End User Cultivation Fund(2020HSC-UE006)Shanghai Syn-chrotron Radiation Facility at Line BL15U for X-ray fluorescence imaging.
文摘Given that apoptosis increases the risk of plaque rupture, strategies that reduce intracellular lipid levels without killing foam cells are warranted for safe and effective treatment of atherosclerosis. In this study, a mild pho-totherapy strategy is carried out to achieve the hypothesis. Foam cell-targeted nanoprobes that allow photo-thermal therapy (PTT) and/or photodynamic therapy (PDT) were prepared by loading hyaluronan and porphine onto black TiO_(2) nanoparticles. The results showed that when temperatures below 45 ◦C, PTT alone and PTT +PDT significantly reduced the intracellular lipid burden without inducing evidently apoptosis or necrosis. In contrast, the use of PDT alone resulted in only a slight reduction in lipid levels and induced massive apoptosis or necrosis. The protective effect against apoptosis or necrosis after mild-temperature PTT and PTT + PDT was correlated with the upregulation of heat shock protein 27. Further, mild-temperature PTT and PTT + PDT attenuated intracellular cholesterol biosynthesis and excess cholesterol uptake via the SREBP2/LDLR pathway, and also triggered ABCA1-mediated cholesterol efflux, ultimately inhibiting lipid accumulation in foam cells. Our results offer new insights into the mechanism of lipid regulation in foam cells and indicate that the black TiO_(2) nanoprobes could allow safer and more effective phototherapy of atherosclerosis.
