Zeyin Liang scite author profile

SummaryThis study retrospectively collected the clinical and laboratory data of 114 patients with Castleman disease (CD) from a single medical centre. Clinical classification identified 62 patients (54Á4%) with unicentric Castleman disease and 52 (45Á6%) with multi-centric Castleman disease. Pathological classification revealed 68 cases (59Á6%) of hyaline vascular variant, 16 (14Á1%) mixed cellular variant (Mix) and 30 (26Á3%) plasmacytic variant. Clinical complications occurred in 69 CD patients, including 37 cases of paraneoplastic pemphigus (PNP) and 25 cases with renal complications. Haematological involvement, pleural effusion and/or ascites and POEMS syndrome (polyneuropathy, organomegaly, endocrinopathy, monoclonal gammopathy and skin changes) were also found. Univariate analysis showed that presence of clinical complications and PNP were both risk factors relating to CD patient survival. Prognostic factors showing P < 0Á15 in univariate analysis and those with clinical significance were subjected to multivariate analysis using a Cox regression model. PNP presence and age over 40 years both significantly adversely affected survival. Thus, only presence of PNP was identified as an independent unfavourable survival risk factor in both univariate and multivariate analyses. Overall, the present data provide a panoramic description of CD cases and emphasize that the presence of PNP is an adverse prognostic factor.

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Efficient Differentiation of Bone Marrow Mesenchymal Stem Cells into Endothelial Cells in Vitro

Wang

Yang

et al. 2018

European Journal of Vascular and Endovascular Surgery

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BRAHMA-interacting proteins BRIP1 and BRIP2 are core subunits of Arabidopsis SWI/SNF complexes

Liang

Song

et al. 2020

Nat. Plants

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The transcriptional repressors VAL1 and VAL2 recruit PRC2 for genome-wide Polycomb silencing in Arabidopsis

Yuan

Song

Zhang

et al. 2020

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The Polycomb repressive complex 2 (PRC2) catalyzes histone H3 Lys27 trimethylation (H3K27me3) to repress gene transcription in multicellular eukaryotes. Despite its importance in gene silencing and cellular differentiation, how PRC2 is recruited to target loci is still not fully understood. Here, we report genome-wide evidence for the recruitment of PRC2 by the transcriptional repressors VIVIPAROUS1/ABI3-LIKE1 (VAL1) and VAL2 in Arabidopsis thaliana. We show that the val1 val2 double mutant possesses somatic embryonic phenotypes and a transcriptome strikingly similar to those of the swn clf double mutant, which lacks the PRC2 catalytic subunits SWINGER (SWN) and CURLY LEAF (CLF). We further show that VAL1 and VAL2 physically interact with SWN and CLF in vivo. Genome-wide binding profiling demonstrated that they colocalize with SWN and CLF at PRC2 target loci. Loss of VAL1/2 significantly reduces SWN and CLF enrichment at PRC2 target loci and leads to a genome-wide redistribution of H3K27me3 that strongly affects transcription. Finally, we provide evidence that the VAL1/VAL2–RY regulatory system is largely independent of previously identified modules for Polycomb silencing in plants. Together, our work demonstrates an extensive genome-wide interaction between VAL1/2 and PRC2 and provides mechanistic insights into the establishment of Polycomb silencing in plants.

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Bromodomain-containing proteins BRD1, BRD2, and BRD13 are core subunits of SWI/SNF complexes and vital for their genomic targeting in Arabidopsis

et al. 2021

Molecular Plant

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Zeyin Liang

Clinical and laboratory characterization of 114 cases of Castleman disease patients from a single centre: paraneoplastic pemphigus is an unfavourable prognostic factor

Efficient Differentiation of Bone Marrow Mesenchymal Stem Cells into Endothelial Cells in Vitro

BRAHMA-interacting proteins BRIP1 and BRIP2 are core subunits of Arabidopsis SWI/SNF complexes

The transcriptional repressors VAL1 and VAL2 recruit PRC2 for genome-wide Polycomb silencing in Arabidopsis

Bromodomain-containing proteins BRD1, BRD2, and BRD13 are core subunits of SWI/SNF complexes and vital for their genomic targeting in Arabidopsis

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