Publications by authors named "Jenny Z Xiang"

Store-operated calcium entry (SOCE) is essential for cellular signaling. Earlier studies of the pyrazole derivative BTP2, an efficient inhibitor SOCE, identified that SOCE blockade suppresses proinflammatory gene expression. The impact of SOCE blockade on gene expression at the whole transcriptome level, however, is unknown.

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  • Nuclear Bcl-xL promotes cancer metastasis independently of its role in preventing cell death, but how it enters the nucleus and alters gene regulation remains unclear.
  • The study found that C-terminal Binding Protein 2 (CtBP2) is crucial for transporting Bcl-xL into the nucleus, and silencing CtBP2 reduces Bcl-xL levels and reverses its effects on cancer spread in mouse models.
  • Additionally, Bcl-xL's interactions with CtBP2 and MLL1 enhance histone modifications linked to promoting cancer-related genes, suggesting new treatment approaches for cancers with high Bcl-xL levels.
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  • - The study investigates immune-mediated damage in the pancreas during COVID-19, revealing a buildup of harmful proinflammatory macrophages in human autopsy samples.
  • - Researchers employed advanced techniques, including single-cell RNA sequencing and human pluripotent stem cell-derived organoids, to study how these macrophages trigger β cell pyroptosis in response to SARS-CoV-2 and coxsackievirus B4.
  • - The findings identified a specific interaction (TNFSF12-TNFRSF12A) that mediates this damage, positioning the derived vascularized macrophage-islet organoids as crucial tools for further research on immune responses in viral infections.
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There is a paucity of human models to study immune-mediated host damage. Here, we utilized the GeoMx spatial multi-omics platform to analyze immune cell changes in COVID-19 pancreatic autopsy samples, revealing an accumulation of proinflammatory macrophages. Single cell RNA-seq analysis of human islets exposed to SARS-CoV-2 or Coxsackievirus B4 (CVB4) viruses identified activation of proinflammatory macrophages and β cell pyroptosis.

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Background: Delineation of T-cell genes, gene sets, pathways, and T-cell subtypes associated with acute T cell-mediated rejection (TCMR) may improve its management.

Methods: We performed bulk RNA-sequencing of 34 kidney allograft biopsies (16 Banff TCMR and 18 no rejection [NR] biopsies) from 34 adult recipients of human kidneys. Computational analysis was performed to determine the differential intragraft expression of T-cell genes at the level of single-gene, gene set, and pathways.

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The DNA sensor cyclic GMP-AMP synthase (cGAS) is critical in host antiviral immunity. Vaccinia virus (VACV) is a large cytoplasmic DNA virus that belongs to the poxvirus family. How vaccinia virus antagonizes the cGAS-mediated cytosolic DNA-sensing pathway is not well understood.

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Besides its mitochondria-based anti-apoptotic role, Bcl-xL also travels to the nucleus to promote cancer metastasis by upregulating global histone H3 trimethyl Lys4 (H3K4me3) and TGFβ transcription. How Bcl-xL is translocated into the nucleus and how nuclear Bcl-xL regulates H3K4me3 modification are not understood. Here, we report that C-terminal Binding Protein 2 (CtBP2) binds Bcl-xL via its N-terminus and translocates Bcl-xL into the nucleus.

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Effective depletion of immune suppressive regulatory T cells (Tregs) in the tumor microenvironment without triggering systemic autoimmunity is an important strategy for cancer immunotherapy. Modified vaccinia virus Ankara (MVA) is a highly attenuated, non-replicative vaccinia virus with a long history of human use. Here, we report rational engineering of an immune-activating recombinant MVA (rMVA, MVA∆E5R-Flt3L-OX40L) with deletion of the vaccinia E5R gene (encoding an inhibitor of the DNA sensor cyclic GMP-AMP synthase, cGAS) and expression of two membrane-anchored transgenes, Flt3L and OX40L.

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Transition between activation and quiescence programs in hematopoietic stem and progenitor cells (HSC/HSPCs) is perceived to be governed intrinsically and by microenvironmental co-adaptation. However, HSC programs dictating both transition and adaptability, remain poorly defined. Single cell multiome analysis divulging differential transcriptional activity between distinct HSPC states, indicated for the exclusive absence of Fli-1 motif from quiescent HSCs.

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Calcium is a critical signaling molecule in many cell types including immune cells. The calcium-release activated calcium channels (CRAC) responsible for store-operated calcium entry (SOCE) in immune cells are gated by STIM family members functioning as sensors of Ca store content in the endoplasmic reticulum. We investigated the effect of SOCE blocker BTP2 on human peripheral blood mononuclear cells (PBMC) stimulated with the mitogen phytohemagglutinin (PHA).

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Multiple sclerosis (MS) is a complex disease of the CNS thought to require an environmental trigger. Gut dysbiosis is common in MS, but specific causative species are unknown. To address this knowledge gap, we used sensitive and quantitative PCR detection to show that people with MS were more likely to harbor and show a greater abundance of epsilon toxin-producing (ETX-producing) strains of C.

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Introduction: In this study, we explore the role of oxidative stress produced by NOX2-containing NADPH oxidase as a molecular mechanism causing capillary stalling and cerebral blood flow deficits in the APP/PS1 mouse model of AD.

Methods: We inhibited NOX2 in APP/PS1 mice by administering a 10 mg/kg dose of the peptide inhibitor gp91-ds-tat i.p.

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Unlabelled: The rarity of malignant Hodgkin and Reed Sternberg (HRS) cells in classic Hodgkin lymphoma (cHL) limits the ability to study the genomics of cHL. To circumvent this, our group has previously optimized fluorescence-activated cell sorting to purify HRS cells. Using this approach, we now report the whole-genome sequencing landscape of HRS cells and reconstruct the chronology and likely etiology of pathogenic events leading to cHL.

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Current dogma dictates that during adulthood, endothelial cells (ECs) are locked in an immutable stable homeostatic state. By contrast, herein we show that maintenance of EC fate and function are linked and active processes, which depend on the constitutive cooperativity of only two ETS-transcription factors (TFs) ERG and Fli1. While deletion of either Fli1 or ERG manifest subtle vascular dysfunction, their combined genetic deletion in adult EC results in acute vasculopathy and multiorgan failure, due to loss of EC fate and integrity, hyperinflammation, and spontaneous thrombosis, leading to death.

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Population-based studies to identify disease-associated risk alleles typically require samples from a large number of individuals. Here, we report a human-induced pluripotent stem cell (hiPSC)-based screening strategy to link human genetics with viral infectivity. A genome-wide association study (GWAS) identified a cluster of single-nucleotide polymorphisms (SNPs) in a cis-regulatory region of the NDUFA4 gene, which was associated with susceptibility to Zika virus (ZIKV) infection.

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GLI1 encodes a transcription factor that targets cell cycle regulators affecting stem cell proliferation. GLI1 gene fusions were initially described in pericytomas with a t[7;12] translocation and more recently in gastric plexiform fibromyxomas and gastroblastomas. This study describes the clinicopathologic, immunohistochemical, and molecular features of three intestinal-based neoplasms harboring GLI1 gene fusions.

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Low-dose carbon monoxide (CO) is under investigation in clinical trials to treat non-cancerous diseases and has an excellent safety profile. Due to early detection and cancer awareness, an increasing number of cancer patients are diagnosed at early stages, when potentially curative surgical resection can be done. However, many patients ultimately experience recurrence.

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Sequencing of cell-free DNA (cfDNA) in cancer patients' plasma offers a minimally-invasive solution to detect tumor cell genomic alterations to aid real-time clinical decision-making. The reliability of copy number detection decreases at lower cfDNA tumor fractions, limiting utility at earlier stages of the disease. To test a novel strategy for detection of allelic imbalance, we developed a prostate cancer bespoke assay, PCF_SELECT, that includes an innovative sequencing panel covering ∼25 000 high minor allele frequency SNPs and tailored analytical solutions to enable allele-informed evaluation.

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The sinoatrial node (SAN) is the primary pacemaker of the heart. The human SAN is poorly understood due to limited primary tissue access and limitations in robust derivation methods. We developed a dual knockin human embryonic stem cell (hESC) reporter line, which allows the identification and purification of SAN-like cells.

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The liver vascular network is patterned by sinusoidal and hepatocyte co-zonation. How intra-liver vessels acquire their hierarchical specialized functions is unknown. We study heterogeneity of hepatic vascular cells during mouse development through functional and single-cell RNA-sequencing.

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Article Synopsis
  • Fresh frozen (FF) tissues are ideal for RNA sequencing (RNA-seq), but most clinical samples are stored as formalin-fixed, paraffin-embedded (FFPE) tissues, creating a challenge for RNA-seq implementation in clinical settings.
  • The study analyzed 32 FFPE tumor samples from 11 patients using three different exome capture methods and compared the results with RNA-seq from matching FF samples to evaluate their effectiveness.
  • The findings showed high correlation between the expression profiles of FFPE and FF samples, indicating that exome capture methods can reliably detect important gene expressions and mutations, paving the way for their use in precision oncology.
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  • The epichaperome is a new target in cancer therapy, consisting of interconnected chaperome members that help cancer cells survive.
  • A flow cytometry assay was developed to assess the abundance of the epichaperome in individual cells, aiming to identify patients who might respond to treatments targeting this structure.
  • A case study showed a patient with acute myeloid leukemia and high epichaperome levels achieved complete remission after treatment with the investigational inhibitor PU-H71, indicating potential for future research in this area.
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  • The study explores the effectiveness of combining anchored multiplex PCR (AMP)-based next-generation sequencing (NGS) with whole-exome sequencing (WES) to uncover additional drug targets in solid tumors.
  • AMP-based NGS identified 48 gene fusions in over half of the samples tested, with a significant portion deemed actionable, enhancing the overall drug target detection when combined with WES results.
  • The research underscores the utility of an integrated genomic approach, showing that using multiple NGS methods can improve the identification of actionable mutations in cancer, even from older tissue samples.
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