Precise diagnostic approaches have great potential in cancer intervention and prognosis.Although diverse DNA nanoprobes have been reported for tumor diagnosis,precise tumor imaging in vivo still encounters a great cha...Precise diagnostic approaches have great potential in cancer intervention and prognosis.Although diverse DNA nanoprobes have been reported for tumor diagnosis,precise tumor imaging in vivo still encounters a great challenge due to the scarcity of exquisite design methodology.Herein,by assembling three programmable modules on a DNA triangular prism,we engineered a DNA nanorobot for simultaneous recognition of extracellular pH and cancer cell membrane receptor in an intelligent manner.Since the design uses two heterogeneous types of biomarkers as inputs,pH-RE not only could discriminate target tumor cells from similar cell mixtures with a recognition accuracy as high as 98.8%,but also could perform precise tumor imaging in living mice by intravenous injection.We expect that this extracellular pH and membrane receptor dual-driven DNA nanorobot will facilitate the establishment of a novel design paradigm for precise cancer diagnosis and therapy.展开更多
Near-infrared fluorescence imaging has emerged as a noninvasive,inexpensive,and ionizing-radiation-free monitoring tool for assessing tumor growth and treatment efficacy.In particular,ultrasound switchable fluorescenc...Near-infrared fluorescence imaging has emerged as a noninvasive,inexpensive,and ionizing-radiation-free monitoring tool for assessing tumor growth and treatment efficacy.In particular,ultrasound switchable fluorescence(USF)imaging has been explored with improved imaging sensitivity and spatial resolution in centimeter-deep tissues.This study achieved the size control of polymer-based and indocyanine green(ICG)encapsulated USF contrast agents,capable of accumulating in the tumor after intravenous injections.These nanoprobes varied in size from 58 to 321 nm.The bioimaging profiles demonstrated that the proposed nanoparticles can efficiently eliminate the background light from normal tissue and show a tumor-specific fluorescence enhancement in the BxPC-3 tumor-bearing mice models possibly via the enhanced permeability and retention effect.In vivo tumor USF imaging further demonstrated that these nanoprobes can effectively be switched“ON”with enhanced fluorescence in response to a focused ultrasound stimulation in the tumor microenvironment,contributing to the high-resolution USF images.Therefore,our findings suggest that ICG-encapsulated nanoparticles are good candidates for USF imaging of tumors in live animals,indicating their great potential in optical tumor imaging in deep tissue.展开更多
基金the National Natural Science Foundation of China(nos.21974125 and 21605038)the National 111 Project of China(no.D20003)+1 种基金Zhongyuan Scholars Program(no.202101510005)the Collaborative Innovation Project of Zhengzhou(Zhengzhou University)(grant no.18XTZX12002).
文摘Precise diagnostic approaches have great potential in cancer intervention and prognosis.Although diverse DNA nanoprobes have been reported for tumor diagnosis,precise tumor imaging in vivo still encounters a great challenge due to the scarcity of exquisite design methodology.Herein,by assembling three programmable modules on a DNA triangular prism,we engineered a DNA nanorobot for simultaneous recognition of extracellular pH and cancer cell membrane receptor in an intelligent manner.Since the design uses two heterogeneous types of biomarkers as inputs,pH-RE not only could discriminate target tumor cells from similar cell mixtures with a recognition accuracy as high as 98.8%,but also could perform precise tumor imaging in living mice by intravenous injection.We expect that this extracellular pH and membrane receptor dual-driven DNA nanorobot will facilitate the establishment of a novel design paradigm for precise cancer diagnosis and therapy.
基金This work was supported in part by funding from the National Institute of Biomedical Imaging and Bioengineering(No.1R15EB030809-01)the Research Enhancement Program(No.270089)the Cancer Prevention&Research Institute of Texas(Nos.RP170564 and RP210206).
文摘Near-infrared fluorescence imaging has emerged as a noninvasive,inexpensive,and ionizing-radiation-free monitoring tool for assessing tumor growth and treatment efficacy.In particular,ultrasound switchable fluorescence(USF)imaging has been explored with improved imaging sensitivity and spatial resolution in centimeter-deep tissues.This study achieved the size control of polymer-based and indocyanine green(ICG)encapsulated USF contrast agents,capable of accumulating in the tumor after intravenous injections.These nanoprobes varied in size from 58 to 321 nm.The bioimaging profiles demonstrated that the proposed nanoparticles can efficiently eliminate the background light from normal tissue and show a tumor-specific fluorescence enhancement in the BxPC-3 tumor-bearing mice models possibly via the enhanced permeability and retention effect.In vivo tumor USF imaging further demonstrated that these nanoprobes can effectively be switched“ON”with enhanced fluorescence in response to a focused ultrasound stimulation in the tumor microenvironment,contributing to the high-resolution USF images.Therefore,our findings suggest that ICG-encapsulated nanoparticles are good candidates for USF imaging of tumors in live animals,indicating their great potential in optical tumor imaging in deep tissue.
