X Zhang scite author profile

B7-H4, a member of B7 family, is a transmembrane protein and inhibits T-cells immunity. However, in a variety of tumor cells, B7-H4 was detected predominantly in intracellular compartments with unknown mechanism and functions. In this study, we analyzed B7-H4 expression and subcellular distribution by immunohistochemistry in renal cell carcinoma (RCC) tissues. B7-H4 protein was detected on the membrane, in the cytosol and/or in the nucleus in tumor tissues. The membrane and nuclear expression of B7-H4 was significantly correlated with the tumor stages of RCC. Moreover, the membrane localization of B7-H4 was inversely correlated with the intensity of tumor infiltrates lymphocyte (TILs), whereas no association was observed between nuclear expression of B7-H4 and the density of TILs status. We further identified that B7-H4 is a cytoplasmic-nuclear shuttling protein containing a functional nuclear localization sequence (NLS) motif. A point mutation of B7-H4 NLS motif blocked the leptomycin B -induced nuclear accumulation of B7-H4. HEK293 cells stably expressing B7-H4 NLS mutant exhibited more potent inhibition in T-cell proliferation and cytokine production through increasing its surface expression compared with wild-type B7-H4 transfected cells owing to their increased surface expression. Most importantly, overexpression of wild-type B7-H4 in HEK293 cells enhanced tumor cell proliferation in vitro and tumorigenicity in vivo, promoted G1/S phase transition. The regulation of cell cycle by wild-type B7-H4 was partialy due to upregulation of Cyclin D 1 and Cyclin E. A mutation of B7-H4 NLS motif abolished the B7-H4-mediated cell proliferation and cell cycle regulation. Furthermore, B7-H4 wild-type confers chemoresistance activity to RCC cell lines including Caki-1 and ACHN. Our study provides a new insight into the functional implication of B7-H4 in its subcellular localization.

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Distinct molecular abnormalities underlie unique clinical features of essential thrombocythemia in children

Liu

Cao

et al. 2015

Leukemia

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Application of high‐throughput, high‐resolution and cost‐effective next generation sequencing‐based large‐scale HLA typing in donor registry

Zhou

Gao²,

Chai

et al. 2014

Tissue Antigens

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Next generation sequencing (NGS)-based human leukocyte antigen (HLA) typing was used for ultra large-scale genotyping of registry donors for the China Marrow Donor Program (CMDP). More than 79,000 samples were subjected to HLA genotyping at 4-digit allelic level without ambiguities for HLA-A, -B, -C, DRB1 and DQB1 loci, with throughput up to 2068 samples per lane in a HiSeq flow cell (eight lanes per run), and cost reduced by 95% compared with that of Sanger-based typing. Two percent of randomly selected samples were quality control (QC) tested at 4-digit allelic level by the CMDP QC laboratory, yielded a concordance of 99.72%. These results demonstrate that NGS is a cost effective and valuable tool for HLA typing of registry donors.

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Real-world circulating tumor DNA analysis depicts resistance mechanism and clonal evolution in ALK inhibitor-treated lung adenocarcinoma patients

Hua

Zhang

et al. 2022

ESMO Open

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Background: Sequential treatment with different generations of anaplastic lymphoma kinase (ALK) inhibitors have been widely applied to ALK-positive lung cancer; however, resistance mutations inevitably developed. Further characterization of ALK resistance mutations may provide key guidance to subsequent therapies. Here we explored the emergence of secondary ALK mutations during sequential ALK tyrosine kinase inhibitor (TKI) treatment in a realworld study of Chinese lung adenocarcinoma (ADC) patients. Methods: A clinical-genomic database was queried for lung ADC patients with at least one ALK inhibitor treatment and at least one plasma sample collected following ALK inhibitor treatment. Targeted genome profiling was performed with a 139-gene panel in baseline tumor tissue and serial plasma samples of patients. Results: A total of 116 patients met inclusion criteria. ALK G1202R was more common in patients with echinoderm microtubule-associated protein-like 4 (EML4)-ALK v3 fusion, whereas ALK L1196M was more common in v1. TP53 mutant patients were significantly associated with harboring multiple ALK resistance mutations (P ¼ 0.03) and v3þ/ TP53 mutant patients had the highest rate of multiple ALK resistance mutations. The sequential use of ALK TKI led to an increased incidence of concurrent ALK mutations along the lines of therapies. Alectinib had a lower rate (9%) harboring ALK resistance mutation as first-line ALK TKI compared with crizotinib (36%). ALK compound mutations identified included ALK D1203N/L1196M, ALK G1202R/L1196M, and ALK G1202R/F1174C, which may be lorlatinib resistant. Using paired pretreatment and post-treatment samples, we identified several ALK-independent resistancerelated genetic alterations, including PTPRD and CNKN2A/B loss, MYC, MYCN and KRAS amplification, and EGFR 19del . Conclusions: Sequential postprogression plasma profiling revealed that increased lines of ALK inhibitors can accelerate the accumulation of ALK resistance mutations and may lead to treatment-refractory compound ALK mutations. The selection for optimal first-line TKI is very important to achieve a more efficacious long-term strategy and prevent the emergence of on-target resistance, which may provide guidance for clinical decision making.

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T helper 22 cells from Han Chinese patients with atopic dermatitis exhibit high expression of inducible T‐cell costimulator

et al. 2019

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Summary Background Atopic dermatitis (AD) is a heterogeneous disease, characterized by excess T helper (Th) 22 activation in Asian AD. Inducible T‐cell costimulator (ICOS) is crucial for T‐cell activation and differentiation. However, the role of ICOS in AD and its effect on Th22 cells remain unclear. Objectives To gain a better understanding of the role of ICOS and ICOS ligand (ICOSL) in the pathogenesis of Asian AD and its underlying mechanisms. Methods We quantified ICOS and ICOSL expression in Han Chinese patients with AD and healthy controls (HC). Then, we assessed the proliferation and the production of the Th22 chemokines CCR4 and CCR10 by ICOSL‐stimulated AD peripheral blood mononuclear cells (PBMCs) as well as their effects on keratinocyte filaggrin production. Finally, we explored the link between ICOS‐expressing Th22 cells and disease activity and IgE levels in our patients with AD. Results Our patients with AD showed higher levels of ICOS‐expressing Th22 cells as well as ICOSL‐expressing CD19+ B cells and CD14+ monocytes compared with HC. ICOSL increased the proliferation and expression of CCR4 and CCR10, and of interleukin (IL)‐22 in AD PBMCs. ICOSL treatment also significantly increased the downregulation of filaggrin expression by keratinocytes cocultured with PBMCs from patients with AD. Finally, blood levels of ICOS+ Th22 cells and ICOSL+ B cells in this AD cohort were correlated with disease activity as assessed by the SCORing Atopic Dermatitis index and with total IgE levels. In Han Chinese patients with AD, circulating Th22 cells, serum levels of IL‐22 and IL‐22+ cells in lesional skin were all markedly increased. Conclusions Our findings demonstrate that ICOS/ICOSL expression and effects are linked to Th22 skewing and the pathogenesis of Han Chinese AD, which suggests ICOSL and ICOS as well as Th22 cells and IL‐22 as new and promising therapeutic targets. What's already known about this topic? In Asian patients, atopic dermatitis (AD) is characterized by excess T helper (Th) 22 activation. Inducible T‐cell costimulator (ICOS) is crucial for T‐cell activation and differentiation. What does this study add? This study demonstrates that circulating Th22 cells, serum levels of interleukin (IL)‐22 and IL‐22+ cells are all markedly increased in lesional skin in Han Chinese patients with AD. In Han Chinese patients with AD, ICOS and ICOS ligand (ICOSL) drive Th22 skewing and increase filaggrin downregulation, and ICOS+ Th22 cells and ICOSL+ B cells are linked to disease activity. What is the translational message? ICOS+ Th22 cells and ICOSL+ B cells are potential clinical biomarkers of disease activity in Han Chinese patients with AD. ICOS‐ and ICOSL‐targeted treatment approaches may benefit Han Chinese patients with AD.

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X Zhang

The costimulatory molecule B7-H4 promote tumor progression and cell proliferation through translocating into nucleus

Distinct molecular abnormalities underlie unique clinical features of essential thrombocythemia in children

Application of high‐throughput, high‐resolution and cost‐effective next generation sequencing‐based large‐scale HLA typing in donor registry

Real-world circulating tumor DNA analysis depicts resistance mechanism and clonal evolution in ALK inhibitor-treated lung adenocarcinoma patients

T helper 22 cells from Han Chinese patients with atopic dermatitis exhibit high expression of inducible T‐cell costimulator

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