The application of nanotechnology for antimicrobial delivery has capacity to improve anti-bacterial efficacy.Currently,the usage of various inorganic and organic carriers,such as metal ions,nano-silicon and surfactant...The application of nanotechnology for antimicrobial delivery has capacity to improve anti-bacterial efficacy.Currently,the usage of various inorganic and organic carriers,such as metal ions,nano-silicon and surfactants,might increase the potential toxicity of nanoparticles and make their clinical transformation more difficult.Herein,a nano-delivery system was constructed by direct self-assembly of antibacterial phytochemicals(berberine and rhein)originated from traditional Chinese medicine Coptis chinensis Franch.and Rheum palmatum L.,respectively.Combining X-ray single crystal diffraction,nuclear magnetic resonance and other spectra characterizations,the stacked structure of nanoparticles was profoundly demonstrated.Briefly,rhein acted as the layered backbone and berberine embedded in it.In vitro bacteriostasis experiment showed the minimum bactericidal concentration of nanoparticles was 0.1μmol/mL,which was lower than that of berberine and rhein.The results of confocal laser scanning microscope,biofilm quantitive assay and scanning electron microscopy indicated that nanoparticles had strong inhibitory effects on Staphylococcus aureus biofilm.More importantly,transmission electron microscopy and mass spectra indicated the further bacteriostatic mechanism of nanoparticles.Meanwhile,the nanoparticles had well biocompatibility and safety.Current study will open up new prospect that the design of self-assemblies between active phytochemicals can be originated from traditional Chinese medicine combination.展开更多
A great number of in situ observations proved that at normal temperature and pressure there exists a nonlinear oscillation phenomenon in the solid alloys. This kind of oscillation phenomenon exhibits fluid-like charac...A great number of in situ observations proved that at normal temperature and pressure there exists a nonlinear oscillation phenomenon in the solid alloys. This kind of oscillation phenomenon exhibits fluid-like character in localized areas, fluctuating with crystal rotation, cell’s moving, expansion and contraction.展开更多
Activating transcription factors, ATFs, are a group of bZIP transcription factors that act as homodimers or heterodimers with a range of other bZIP factors. In general, ATFs respond to extracellular signals, indicatin...Activating transcription factors, ATFs, are a group of bZIP transcription factors that act as homodimers or heterodimers with a range of other bZIP factors. In general, ATFs respond to extracellular signals, indicating their important roles in maintaining homeostasis. The ATF family includes ATF1, ATF2, ATF3, ATF4, ATF5, ATF6, and ATF7. Consistent with the diversity of cellular processes reported to be regulated by ATFs, the functions of ATFs are also diverse. ATFs play an important role in cell proliferation, apoptosis, differentiation and inflammation-related pathological processes. The expression and phosphorylation status of ATFs are also related to neurodegenerative diseases and polycystic kidney disease. Various miRNAs target ATFs to regulate cancer proliferation, apoptosis, autophagy, sensitivity and resistance to radiotherapy and chemotherapy. Moreover, ATFs are necessary to maintain cell redox homeostasis. Therefore, deepening our understanding of the regulation and function of ATFs will provide insights into the basic regulatory mechanisms that influence how cells integrate extracellular and intracellular signals into genomic responses through transcription factors. Under pathological conditions, especially in cancer biology and response to treatment, the characterization of ATF dysfunction is important for understanding how to therapeutically utilize ATF2 or other pathways controlled by transcription factors. In this review, we will demonstrate how ATF1, ATF2, ATF3, ATF4, ATF5, ATF6, and ATF7 function in promoting or suppressing cancer development and identify their roles in tumour immunotherapy.展开更多
基金funded by the Beijing Municipal Natural Science Foundation(No.7202116,China)National Natural Science Foundation of China(No.81603256)+2 种基金project of China Association of Chinese Medicine(CACM-2018-QNRC2-B08)the Fundamental Research Funds for the Central Universities(BUCM-2019-JCRC002,BUCM-2018-2020 and 2019-JYBTD005,China)Beijing Key Laboratory for Basic and Development Research on Chinese Medicine(Beijing,China)
文摘The application of nanotechnology for antimicrobial delivery has capacity to improve anti-bacterial efficacy.Currently,the usage of various inorganic and organic carriers,such as metal ions,nano-silicon and surfactants,might increase the potential toxicity of nanoparticles and make their clinical transformation more difficult.Herein,a nano-delivery system was constructed by direct self-assembly of antibacterial phytochemicals(berberine and rhein)originated from traditional Chinese medicine Coptis chinensis Franch.and Rheum palmatum L.,respectively.Combining X-ray single crystal diffraction,nuclear magnetic resonance and other spectra characterizations,the stacked structure of nanoparticles was profoundly demonstrated.Briefly,rhein acted as the layered backbone and berberine embedded in it.In vitro bacteriostasis experiment showed the minimum bactericidal concentration of nanoparticles was 0.1μmol/mL,which was lower than that of berberine and rhein.The results of confocal laser scanning microscope,biofilm quantitive assay and scanning electron microscopy indicated that nanoparticles had strong inhibitory effects on Staphylococcus aureus biofilm.More importantly,transmission electron microscopy and mass spectra indicated the further bacteriostatic mechanism of nanoparticles.Meanwhile,the nanoparticles had well biocompatibility and safety.Current study will open up new prospect that the design of self-assemblies between active phytochemicals can be originated from traditional Chinese medicine combination.
文摘A great number of in situ observations proved that at normal temperature and pressure there exists a nonlinear oscillation phenomenon in the solid alloys. This kind of oscillation phenomenon exhibits fluid-like character in localized areas, fluctuating with crystal rotation, cell’s moving, expansion and contraction.
文摘Activating transcription factors, ATFs, are a group of bZIP transcription factors that act as homodimers or heterodimers with a range of other bZIP factors. In general, ATFs respond to extracellular signals, indicating their important roles in maintaining homeostasis. The ATF family includes ATF1, ATF2, ATF3, ATF4, ATF5, ATF6, and ATF7. Consistent with the diversity of cellular processes reported to be regulated by ATFs, the functions of ATFs are also diverse. ATFs play an important role in cell proliferation, apoptosis, differentiation and inflammation-related pathological processes. The expression and phosphorylation status of ATFs are also related to neurodegenerative diseases and polycystic kidney disease. Various miRNAs target ATFs to regulate cancer proliferation, apoptosis, autophagy, sensitivity and resistance to radiotherapy and chemotherapy. Moreover, ATFs are necessary to maintain cell redox homeostasis. Therefore, deepening our understanding of the regulation and function of ATFs will provide insights into the basic regulatory mechanisms that influence how cells integrate extracellular and intracellular signals into genomic responses through transcription factors. Under pathological conditions, especially in cancer biology and response to treatment, the characterization of ATF dysfunction is important for understanding how to therapeutically utilize ATF2 or other pathways controlled by transcription factors. In this review, we will demonstrate how ATF1, ATF2, ATF3, ATF4, ATF5, ATF6, and ATF7 function in promoting or suppressing cancer development and identify their roles in tumour immunotherapy.