The metabolite transport inhibition of tumor cells holds promise to achieve anti-tumor efficacy.Herein,we presented an innovative strategy to hinder the delivery of metabolites through the in-situ besieging tumor cell...The metabolite transport inhibition of tumor cells holds promise to achieve anti-tumor efficacy.Herein,we presented an innovative strategy to hinder the delivery of metabolites through the in-situ besieging tumor cells with polyphenolic polymers that strongly adhere to the cytomembrane of tumor cells.Simultaneously,these polymers underwent self-crosslinking under the induction of tumor oxidative stress microenvironment to form an adhesive coating on the surface of the tumor cells.This polyphenol coating effectively obstructed glucose uptake,reducing metabolic products such as lactic acid,glutathione,and adenosine triphosphate,while also causing reactive oxygen species to accumulate in the tumor cells.The investigation of various tumor models,including 2D cells,3D multicellular tumor spheroids,and xenograft tumors,demonstrated that the polyphenolic polymers effectively inhibited the growth of tumor cells by blocking key metabolite transport processes.Moreover,this highly adhesive coating could bind tumor cells to suppress their metastasis and invasion.This work identified polyphenolic polymers as a promising anticancer candidate with a mechanism by impeding the mass transport of tumor cells.展开更多
It is significant for cell physiology to keep the homeostasis of p H, and it is highly demanded to develop ratiometric fluorescent sensors toward p H. In this work, under mild condition, through the electrostatic inte...It is significant for cell physiology to keep the homeostasis of p H, and it is highly demanded to develop ratiometric fluorescent sensors toward p H. In this work, under mild condition, through the electrostatic interaction between carbon nanodots(CDs) and organic molecules, two novel ratiometric fluorescence hybrid nanosensors were fabricated for sensing acidic p H. These nanohybrid systems possess dual emission peaks at 455 and 527 nm under a single excitation wavelength of 380 nm in acidic p H condition.With the increasing of p H, the fluorescence of the 1,8-naphthalimide derivative completely quenches,while the blue fluorescence of CDs keeps constant. Furthermore, the CDsàorganic molecular nanohybrids exhibit excellent anti-disturbance ability, reversible p H sensing ability, and a linear response range in wide p H range respectively. Besides the ability to target lysosome, with one of the nanosensor, stimulated p H change has been successfully tracked in a ratiometric manner via fluorescence imaging.展开更多
基金supported by the National Natural Science Foundation of China(52273302 and 52073230)the Ningbo Natural Science Foundation(2021J050)+1 种基金the Shaanxi Provincial Science Fund for Distinguished Young Scholars(2023-JC-JQ-32)the Fundamental Research Funds for the Central Universities,China。
文摘The metabolite transport inhibition of tumor cells holds promise to achieve anti-tumor efficacy.Herein,we presented an innovative strategy to hinder the delivery of metabolites through the in-situ besieging tumor cells with polyphenolic polymers that strongly adhere to the cytomembrane of tumor cells.Simultaneously,these polymers underwent self-crosslinking under the induction of tumor oxidative stress microenvironment to form an adhesive coating on the surface of the tumor cells.This polyphenol coating effectively obstructed glucose uptake,reducing metabolic products such as lactic acid,glutathione,and adenosine triphosphate,while also causing reactive oxygen species to accumulate in the tumor cells.The investigation of various tumor models,including 2D cells,3D multicellular tumor spheroids,and xenograft tumors,demonstrated that the polyphenolic polymers effectively inhibited the growth of tumor cells by blocking key metabolite transport processes.Moreover,this highly adhesive coating could bind tumor cells to suppress their metastasis and invasion.This work identified polyphenolic polymers as a promising anticancer candidate with a mechanism by impeding the mass transport of tumor cells.
基金supported by the National Natural Science Foundation of China (51472252 and 51572269)the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB17000000)
基金supported by the National Key R&D Program of China (2018YFC1105402 and 2017YFA0207202)the National Natural Science Foundation of China (21975120, 21875104, 51673095 and 21875189)+3 种基金the National Basic Research Program of China (973 Program, 2015CB932200)the Natural Science Fund for Distinguished Young Scholars of Jiangsu Province (BK20180037)the Natural Science Fund for Colleges and Universities of Jiangsu Province (17KJB430020)the Key R&D Program of Jiangsu Province (BE2017740)
基金supports from National Natural Science Foundation of China (Nos. 21601158, U1504203 and J1210060)Key Laboratory of Photochemical Conversion and Optoelectronic Materials and Zhengzhou University
文摘It is significant for cell physiology to keep the homeostasis of p H, and it is highly demanded to develop ratiometric fluorescent sensors toward p H. In this work, under mild condition, through the electrostatic interaction between carbon nanodots(CDs) and organic molecules, two novel ratiometric fluorescence hybrid nanosensors were fabricated for sensing acidic p H. These nanohybrid systems possess dual emission peaks at 455 and 527 nm under a single excitation wavelength of 380 nm in acidic p H condition.With the increasing of p H, the fluorescence of the 1,8-naphthalimide derivative completely quenches,while the blue fluorescence of CDs keeps constant. Furthermore, the CDsàorganic molecular nanohybrids exhibit excellent anti-disturbance ability, reversible p H sensing ability, and a linear response range in wide p H range respectively. Besides the ability to target lysosome, with one of the nanosensor, stimulated p H change has been successfully tracked in a ratiometric manner via fluorescence imaging.