Abnormal tumor microenvironment imposes barriers to tumor penetration of nanomedicine,which remains a major challenge for effective anti-tumor.Herein,we present disulfide-based nanoparticles that actively penetrate de...Abnormal tumor microenvironment imposes barriers to tumor penetration of nanomedicine,which remains a major challenge for effective anti-tumor.Herein,we present disulfide-based nanoparticles that actively penetrate deep tumors in vivo through a thiol-mediated transportation pathway.To achieve active tumor accumulation in vivo,disulfide-based nanoparticles are modified with folic acid units(FA-DBNPs).It is gratifying that FA-DBNPs still enter cells via the thiol-mediated pathway,which facilitates transcellular transportation and tumor penetration both in vitro and in vivo.Besides,FA-DBNPs exhibit GSH concentration-dependent depolymerization characterization,indicating that the GSH level in tumor tissues regulates the penetration depth of FA-DBNPs.Benefiting from these advantages,FA-DBNPs showed potent anti-tumor activity in mouse models,leading to the significant regression of tumors.The current study lays a foundation that thiol-mediated transportation is a promising approach in nanomedicine design for solid tumor therapy.展开更多
Molecular imaging is a non-invasive method to image and analyze the concentration and activity of functional biomolecules in cells or in vivo at molecular level,and plays an increasing role in deep understanding of bi...Molecular imaging is a non-invasive method to image and analyze the concentration and activity of functional biomolecules in cells or in vivo at molecular level,and plays an increasing role in deep understanding of biological processes,early and accurate diagnosis of diseases,and evaluation of treatment.Nowadays,numerous novel molecular imaging probes have been developed,involving every biomedical imaging modality,such as optical imaging,photoacoustic imaging,magnetic resonance imaging,single-photon-emission computed tomography,and positron emission tomography.In this review,we summarize the development of current state-of-the-art molecular imaging probes.We introduce the design strategies of molecular probes and detailed imaging modalities,and highlight the properties of probes and biomedical imaging applications in cells and in vivo,including disease diagnosis,drug tracking,and imaging-guided surgery.Then we discuss the perspectives and challenges in this emerging field.We expect this review could inspire more effective molecular imaging probes to be developed,achieving the goal towards clinical practices.展开更多
基金supported by the National Key R&D Program of China(2020YFA0210800)the National Natural Science Foundation of China(21974022,22027805)the Major Project of Science and Technology of Fujian Province(2020HZ06006)。
文摘Abnormal tumor microenvironment imposes barriers to tumor penetration of nanomedicine,which remains a major challenge for effective anti-tumor.Herein,we present disulfide-based nanoparticles that actively penetrate deep tumors in vivo through a thiol-mediated transportation pathway.To achieve active tumor accumulation in vivo,disulfide-based nanoparticles are modified with folic acid units(FA-DBNPs).It is gratifying that FA-DBNPs still enter cells via the thiol-mediated pathway,which facilitates transcellular transportation and tumor penetration both in vitro and in vivo.Besides,FA-DBNPs exhibit GSH concentration-dependent depolymerization characterization,indicating that the GSH level in tumor tissues regulates the penetration depth of FA-DBNPs.Benefiting from these advantages,FA-DBNPs showed potent anti-tumor activity in mouse models,leading to the significant regression of tumors.The current study lays a foundation that thiol-mediated transportation is a promising approach in nanomedicine design for solid tumor therapy.
基金supported by the National Key R&D Program of China (2020YFA0210800, 2020YFA0909000)the National Natural Science Foundation of China (22176035, U21A20377, 21874024, 21890744, 22107027, 22074036)Shenzhen Science and Technology Program (RCBS20200714114821377)
文摘Molecular imaging is a non-invasive method to image and analyze the concentration and activity of functional biomolecules in cells or in vivo at molecular level,and plays an increasing role in deep understanding of biological processes,early and accurate diagnosis of diseases,and evaluation of treatment.Nowadays,numerous novel molecular imaging probes have been developed,involving every biomedical imaging modality,such as optical imaging,photoacoustic imaging,magnetic resonance imaging,single-photon-emission computed tomography,and positron emission tomography.In this review,we summarize the development of current state-of-the-art molecular imaging probes.We introduce the design strategies of molecular probes and detailed imaging modalities,and highlight the properties of probes and biomedical imaging applications in cells and in vivo,including disease diagnosis,drug tracking,and imaging-guided surgery.Then we discuss the perspectives and challenges in this emerging field.We expect this review could inspire more effective molecular imaging probes to be developed,achieving the goal towards clinical practices.