Qiuling Xie scite author profile

The Notch signaling pathway has been implicated in both developmental processes and tumorigenesis. Aberrant Notch signaling has been repeatedly demonstrated to facilitate the proliferation and survival of glioma cells by regulating downstream effectors or other signaling pathways. In glioblastoma multiforme specimens from 59 patients, Notch1 was highly expressed in tumor tissues compared with normal brain tissues, and this expression was correlated with elevated AKT phosphorylation and Snail expression. Increased nuclear localization of β‐catenin and p50 as well as enhanced IKKα/AKT interaction were also observed in glioma tissues. In U87MG cells, the activation of Notch1 by DLL4 stimulation or by the overexpression of Notch intracellular domain (NICD) resulted in AKT activation and thereby promoted β‐catenin activity and NF‐κB signaling. Inhibition of EGFR partially blocked the β‐catenin and NF‐κB signaling stimulated by Notch1 activation. Furthermore, NICD overexpression in U87MG cells led to the upregulated expression of several metastasis‐associated molecules, which could be abrogated by the knockdown of either β‐catenin or p50. In U87MG and U251 cells, DLL4‐induced cellular migration and invasion could be inhibited by either β‐catenin or a p50 inhibitor. Collectively, these results indicate that Notch activation could stimulate β‐catenin and NF‐κB signaling through AKT activation in glioma cells. Thus, Notch activation‐stimulated β‐catenin and NF‐κB signaling synergistically promote the migratory and invasive properties of glioma cells. (Cancer Sci 2012; 103: 181–190)

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The protein kinase complex CBL10–CIPK8–SOS1 functions in Arabidopsis to regulate salt tolerance

Yin

Xia

Xie

et al. 2019

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Salt tolerance in plants is mediated by Na+ extrusion from the cytosol by the plasma membrane Na+/H+ antiporter SOS1. This is activated in Arabidopsis root by the protein kinase complex SOS2–SOS3 and in Arabidopsis shoot by the protein kinase complex CBL10–SOS2, with SOS2 as a key node in the two pathways. The sos1 mutant is more sensitive than the sos2 mutant, suggesting that other partners may positively regulate SOS1 activity. Arabidopsis has 26 CIPK family proteins of which CIPK8 is the closest homolog to SOS2. It is hypothesized that CIPK8 can activate Na+ extrusion by SOS1 similarly to SOS2. The plasma membrane Na+/H+ exchange activity of transgenic yeast co-expressing CBL10, CIPK8, and SOS1 was higher than that of untransformed and SOS1 transgenic yeast, resulting in a lower Na+ accumulation and a better growth phenotype under salinity. However, CIPK8 could not interact with SOS3, and the co-expression of SOS3, CIPK8, and SOS1 in yeast did not confer a significant salt tolerance phenotype relative to SOS1 transgenic yeast. Interestingly, cipk8 displayed a slower Na+ efflux, a higher Na+ level, and a more sensitive phenotype than wild-type Arabidopsis, but grew better than sos2 under salinity stress. As expected, sos2cipk8 exhibited a more severe salt damage phenotype relative to cipk8 or sos2. Overexpression of CIPK8 in both cipk8 and sos2cipk8 attenuated the salt sensitivity phenotype. These results suggest that CIPK8-mediated activation of SOS1 is CBL10-dependent and SOS3-independent, indicating that CIPK8 and SOS2 activity in shoots is sufficient for regulating Arabidopsis salt tolerance.

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Gene structure, recombinant expression and functional characterization of grass carp leptin

Liang

Xie

et al. 2010

General and Comparative Endocrinology

106

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Facile encapsulation of hydroxycamptothecin nanocrystals into zein-based nanocomplexes for active targeting in drug delivery and cell imaging

Wang

Huang

et al. 2017

Acta Biomaterialia

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Increased skin permeation efficiency of imperatorin via charged ultradeformable lipid vesicles for transdermal delivery

Lin¹,

Xie²,

Huang³

et al. 2018

IJN

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Aim The aim of this work was to develop a novel vesicular carrier, ultradeformable liposomes (UDLs), to expand the applications of the Chinese herbal medicine, imperatorin (IMP), and increase its transdermal delivery. Methods In this study, we prepared IMP-loaded UDLs using the thin-film hydration method and evaluated their encapsulation efficiency, vesicle deformability, skin permeation, and the amounts accumulated in different depths of the skin in vitro. The influence of different charged surfactants on the properties of the UDLs was also investigated. Results The results showed that the UDLs containing cationic surfactants had high entrapment efficiency (60.32%±2.82%), an acceptable particle size (82.4±0.65 nm), high elasticity, and prolonged drug release. The penetration rate of IMP in cationic-UDLs was 3.45-fold greater than that of IMP suspension, which was the highest value among the vesicular carriers. UDLs modified with cationic surfactant also showed higher fluorescence intensity in deeper regions of the epidermis. Conclusion The results of our study suggest that cationic surfactant-modified UDLs could increase the transdermal flux, prolong the release of the drug, and serve as an effective dermal delivery system for IMP.

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Linking Convolutional Neural Networks with Graph Convolutional Networks: Application in Pulmonary Artery-Vein Separation

Zhai

Staring

Zhou

et al. 2019

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Co-expression of SpSOS1 and SpAHA1 in transgenic Arabidopsis plants improves salinity tolerance

et al. 2019

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Background Na + extrusion from cells is important for plant growth in high saline environments. SOS1 (salt overly sensitive 1), an Na + /H + antiporter located in the plasma membrane (PM), functions in toxic Na + extrusion from cells using energy from an electrochemical proton gradient produced by a PM-localized H + -ATPase (AHA). Therefore, SOS1 and AHA are involved in plant adaption to salt stress. Results In this study, the genes encoding SOS1 and AHA from the halophyte Sesuvium portulacastrum ( SpSOS1 and SpAHA1 , respectively) were introduced together or singly into Arabidopsis plants. The results indicated that either SpSOS1 or SpAHA1 conferred salt tolerance to transgenic plants and, as expected, Arabidopsis plants expressing both SpSOS1 and SpAHA1 grew better under salt stress than plants expressing only SpSOS1 or SpAHA1 . In response to NaCl treatment, Na + and H + in the roots of plants transformed with SpSOS1 or SpAHA1 effluxed faster than wild-type (WT) plant roots. Furthermore, roots co-expressing SpSOS1 and SpAHA1 had higher Na + and H + efflux rates than single SpSOS1 / SpAHA1- expressing transgenic plants, resulting in the former amassing less Na + than the latter. As seen from comparative analyses of plants exposed to salinity stress, the malondialdehyde (MDA) content was lowest in the co-transgenic SpSOS1 and SpAHA1 plants, but the K + level was the highest. Conclusion These results suggest SpSOS1 and SpAHA1 coordinate to alleviate salt toxicity by increasing the efficiency of Na + extrusion to maintain K + homeostasis and protect the PM from oxidative damage induced by salt stress. Electronic supplementary material The online version of this article (10.1186/s12870-019-1680-7) contains supplementary material, which is available to authorized users.

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miR‐889 promotes proliferation of esophageal squamous cell carcinomas through DAB2IP

Wang

et al. 2015

FEBS Letters

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a b s t r a c tMicroRNAs have been reported to play critical roles in various cancers, but there has been no study on the role of miR-889 in cancers. Here, we report that over-expression of miR-889 leads to rapid proliferation of EC109 and EC9706 cells in vitro and in vivo by inducing cells into S-phase. Using bioinformatics methods, DAB2IP was further confirmed to be a direct target of miR-889. In addition, the expression of DAB2IP, which was negatively correlated with that of miR-889, was significantly associated with clinicopathological features of ESCC patients. In conclusion, miR-889 is an important regulator in ESCC and both miR-889 and DAB2IP may serve as promising biomarkers and therapeutic targets in patients with ESCC.

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Qiuling Xie

Notch1 promotes glioma cell migration and invasion by stimulating β‐catenin and NF‐κB signaling via AKT activation

The protein kinase complex CBL10–CIPK8–SOS1 functions in Arabidopsis to regulate salt tolerance

Gene structure, recombinant expression and functional characterization of grass carp leptin

Facile encapsulation of hydroxycamptothecin nanocrystals into zein-based nanocomplexes for active targeting in drug delivery and cell imaging

Increased skin permeation efficiency of imperatorin via charged ultradeformable lipid vesicles for transdermal delivery

Linking Convolutional Neural Networks with Graph Convolutional Networks: Application in Pulmonary Artery-Vein Separation

Co-expression of SpSOS1 and SpAHA1 in transgenic Arabidopsis plants improves salinity tolerance

miR‐889 promotes proliferation of esophageal squamous cell carcinomas through DAB2IP

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