Yating Wang scite author profile

Complex interactions between host immunity and the microbiome regulate norovirus infection. However, the mechanism of host immune promotion of enteric virus infection remains obscure. The cellular tropism of noroviruses is also unknown. Recently, we identified CD300lf as a murine norovirus (MNoV) receptor. Here we show that tuft cells, a rare type of intestinal epithelial cell, express CD300lf and are the target cell for MNoV in the mouse intestine. We found that type 2 cytokines, which induce tuft cell proliferation, promote MNoV infection in vivo. These cytokines can replace the effect of commensal microbiota in promoting virus infection. This is the first report of viral infection of tuft cells and provides insight into how the immune system and microbes can coordinately promote enteric viral infection.

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A novel family of transcription factors conserved in angiosperms is required for ABA signalling

Tian

Chen

Yang

et al. 2017

Plant Cell & Environment

145

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The plant hormone abscisic acid (ABA) plays a crucial role in regulating plant responses to environmental stresses. Interplay of several different proteins including the PYR/PYL/RCAR receptors, A-group PP2C protein phosphatases, SnRK2 protein kinases, and downstream transcription factors regulates ABA signalling. We report here the identification of a family of ABA-induced transcription repressors (AITRs) that act as feedback regulators in ABA signalling. We found that the expression of all the 6 Arabidopsis AITR genes was induced by exogenously ABA, and their expression levels were decreased in ABA biosynthesis mutant aba1-5. BLAST searches showed that AITRs are exclusively present in angiosperms. When recruited to the promoter region of a reporter gene by a fused DNA binding domain, all AITRs inhibited reporter gene expression in transfected protoplasts. In Arabidopsis, aitr mutants showed reduced sensitivity to ABA and to stresses such as salt and drought. Quantitative RT-PCR analysis demonstrated that the ABA-induced response of PP2C and some PYR/PYL/RCAR genes was reduced in AITR5 transgenic plants but increased in an aitr2 aitr5 aitr6 triple mutant. These results provide important new insights into the regulation of ABA signalling in plants, and such information may lead to the production of plants with enhanced resistance to environmental stresses.

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Atg5-mediated autophagy deficiency in proximal tubules promotes cell cycle G₂/M arrest and renal fibrosis

et al. 2016

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Macroautophagy/autophagy protects against cellular stress. Renal sublethal injury-triggered tubular epithelial cell cycle arrest at G 2 /M is associated with interstitial fibrosis. However, the role of autophagy in renal fibrosis is elusive. Here, we hypothesized that autophagy activity in tubular epithelial cells is pivotal for inhibition of cell cycle G 2 /M arrest and subsequent fibrogenic response. In both renal epithelial cells stimulated by angiotensin II (AGT II) and the murine kidney after unilateral ureteral obstruction (UUO), we observed that occurrence of autophagy preceded increased production of COL1 (collagen, type I). Pharmacological enhancement of autophagy by rapamycin suppressed COL1 accumulation and renal fibrosis. In contrast, genetic ablation of autophagy by proximal tubular epithelial cell-specific deletion of Atg5, with reduction of the LC3-II protein level and degradation of SQSTM1/p62, showed marked cell cycle arrest at the G 2 /M phase, robust COL1 deposition, and severe interstitial fibrosis in a UUO model, as compared with wild-type mice. In vitro, AGT II exposure triggered autophagy preferentially in the G 1 /S phase, and increased COL1 expression in the G 2 /M phase in renal epithelial cells. Stimulation of Atg5-deficient primary proximal tubular cells with AGT II also resulted in elevated G 2 /M arrest and COL1 production. Pharmacological or genetic inhibition of autophagy increased AGT II-mediated G 2 /M arrest. Enhanced expression of ATG5, but not the autophagy-deficient ATG5 mutant K130R, rescued the G 2 /M arrest, suggesting the regulation of cell cycle progression by ATG5 is autophagy dependent. In conclusion, Atg5-mediated autophagy in proximal epithelial cells is a critical host-defense mechanism that prevents renal fibrosis by blocking G 2 /M arrest.

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Rational construction of oxygen vacancies onto tungsten trioxide to improve visible light photocatalytic water oxidation reaction

Wang

Cai

et al. 2018

Applied Catalysis B: Environmental

213

121

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Yating Wang

Tropism for tuft cells determines immune promotion of norovirus pathogenesis

A novel family of transcription factors conserved in angiosperms is required for ABA signalling

Atg5-mediated autophagy deficiency in proximal tubules promotes cell cycle G₂/M arrest and renal fibrosis

Rational construction of oxygen vacancies onto tungsten trioxide to improve visible light photocatalytic water oxidation reaction

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Yating Wang

Tropism for tuft cells determines immune promotion of norovirus pathogenesis

A novel family of transcription factors conserved in angiosperms is required for ABA signalling

Atg5-mediated autophagy deficiency in proximal tubules promotes cell cycle G2/M arrest and renal fibrosis

Rational construction of oxygen vacancies onto tungsten trioxide to improve visible light photocatalytic water oxidation reaction

Contact Info

Product

Resources

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Atg5-mediated autophagy deficiency in proximal tubules promotes cell cycle G₂/M arrest and renal fibrosis