Your search keyword '"Cho, Vicky"' showing total 10 results

1. NINJ1 mediates plasma membrane rupture during lytic cell death

Author

Kayagaki, Nobuhiko, Kornfeld, Opher S., Lee, Bettina L., Stowe, Irma B., O’Rourke, Karen, Li, Qingling, Sandoval, Wendy, Yan, Donghong, Kang, Jing, Xu, Min, Zhang, Juan, Lee, Wyne P., McKenzie, Brent S., Ulas, Gözde, Payandeh, Jian, Roose-Girma, Merone, Modrusan, Zora, Reja, Rohit, Sagolla, Meredith, Webster, Joshua D., Cho, Vicky, Andrews, T. Daniel, Morris, Lucy X., Miosge, Lisa A., Goodnow, Christopher C., Bertram, Edward M., and Dixit, Vishva M.

Published

2021

2. Comparison of predicted and actual consequences of missense mutations

Author

Miosge, Lisa A., Field, Matthew A., Sontani, Yovina, Cho, Vicky, Johnson, Simon, Palkova, Anna, Balakishnan, Bhavani, Liang, Rong, Zhang, Yafei, Lyon, Stephen, Beutler, Bruce, Whittle, Belinda, Bertram, Edward M., Enders, Anselm, Goodnow, Christopher C., and Andrews, T. Daniel

Published

2015

3. Gene network inference and visualization tools for biologists: application to new human transcriptome datasets

Author

Hurley, Daniel, Araki, Hiromitsu, Tamada, Yoshinori, Dunmore, Ben, Sanders, Deborah, Humphreys, Sally, Affara, Muna, Imoto, Seiya, Yasuda, Kaori, Tomiyasu, Yuki, Tashiro, Kosuke, Savoie, Christopher, Cho, Vicky, Smith, Stephen, Kuhara, Satoru, Miyano, Satoru, Charnock-Jones, D. Stephen, Crampin, Edmund J., and Print, Cristin G.

Published

2012

4. Heterogeneity of Human Neutrophil CD177 Expression Results from CD177P1 Pseudogene Conversion.

Author

Wu, Zuopeng, Liang, Rong, Ohnesorg, Thomas, Cho, Vicky, Lam, Wesley, Abhayaratna, Walter P., Gatenby, Paul A., Perera, Chandima, Zhang, Yafei, Whittle, Belinda, Sinclair, Andrew, Goodnow, Christopher C., Field, Matthew, Andrews, T. Daniel, and Cook, Matthew C.

Subjects

NEUTROPHILS, GRANULOCYTES, PSEUDOGENES, LUNG cancer & genetics, CANCER genetics

Abstract

Most humans harbor both CD177neg and CD177pos neutrophils but 1–10% of people are CD177null, placing them at risk for formation of anti-neutrophil antibodies that can cause transfusion-related acute lung injury and neonatal alloimmune neutropenia. By deep sequencing the CD177 locus, we catalogued CD177 single nucleotide variants and identified a novel stop codon in CD177null individuals arising from a single base substitution in exon 7. This is not a mutation in CD177 itself, rather the CD177null phenotype arises when exon 7 of CD177 is supplied entirely by the CD177 pseudogene (CD177P1), which appears to have resulted from allelic gene conversion. In CD177 expressing individuals the CD177 locus contains both CD177P1 and CD177 sequences. The proportion of CD177hi neutrophils in the blood is a heritable trait. Abundance of CD177hi neutrophils correlates with homozygosity for CD177 reference allele, while heterozygosity for ectopic CD177P1 gene conversion correlates with increased CD177neg neutrophils, in which both CD177P1 partially incorporated allele and paired intact CD177 allele are transcribed. Human neutrophil heterogeneity for CD177 expression arises by ectopic allelic conversion. Resolution of the genetic basis of CD177null phenotype identifies a method for screening for individuals at risk of CD177 isoimmunisation. [ABSTRACT FROM AUTHOR]

Published

2016

5. Reliably Detecting Clinically Important Variants Requires Both Combined Variant Calls and Optimized Filtering Strategies.

Author

Field, Matthew A., Cho, Vicky, Andrews, T. Daniel, and Goodnow, Chris C.

Subjects

*NUCLEOTIDE sequencing, *GENETIC software, *GENETIC engineering, *GENE libraries, *CELL lines

Abstract

A diversity of tools is available for identification of variants from genome sequence data. Given the current complexity of incorporating external software into a genome analysis infrastructure, a tendency exists to rely on the results from a single tool alone. The quality of the output variant calls is highly variable however, depending on factors such as sequence library quality as well as the choice of short-read aligner, variant caller, and variant caller filtering strategy. Here we present a two-part study first using the high quality ‘genome in a bottle’ reference set to demonstrate the significant impact the choice of aligner, variant caller, and variant caller filtering strategy has on overall variant call quality and further how certain variant callers outperform others with increased sample contamination, an important consideration when analyzing sequenced cancer samples. This analysis confirms previous work showing that combining variant calls of multiple tools results in the best quality resultant variant set, for either specificity or sensitivity, depending on whether the intersection or union, of all variant calls is used respectively. Second, we analyze a melanoma cell line derived from a control lymphocyte sample to determine whether software choices affect the detection of clinically important melanoma risk-factor variants finding that only one of the three such variants is unanimously detected under all conditions. Finally, we describe a cogent strategy for implementing a clinical variant detection pipeline; a strategy that requires careful software selection, variant caller filtering optimizing, and combined variant calls in order to effectively minimize false negative variants. While implementing such features represents an increase in complexity and computation the results offer indisputable improvements in data quality. [ABSTRACT FROM AUTHOR]

Published

2015

6. The RNA-binding protein hnRNPLL induces a T cell alternative splicing program delineated by differential intron retention in polyadenylated RNA.

Author

Cho, Vicky, Yan Mei, Sanny, Arleen, Chan, Stephanie, Enders, Anselm, Bertram, Edward M., Tan, Andy, Goodnow, Christopher C., and Andrews, T. Daniel

Published

2014

7. Reducing the search space for causal genetic variants with VASP.

Author

Field, Matthew A., Cho, Vicky, Cook, Matthew C., Enders, Anselm, Vinuesa, Carola G., Whittle, Belinda, Andrews, T. Daniel, and Goodnow, Chris C.

Subjects

*HUMAN genetic variation, *NUCLEOTIDE sequencing, *GENEALOGY, *MEDICAL genetics, *HUMAN genome, *SINGLE nucleotide polymorphisms, *DATA integration

Abstract

Motivation: Increasingly, cost-effective high-throughput DNA sequencing technologies are being utilized to sequence human pedigrees to elucidate the genetic cause of a wide variety of human diseases. While numerous tools exist for variant prioritization within a single genome, the ability to concurrently analyze variants within pedigrees remains a challenge, especially should there be no prior indication of the underlying genetic cause of the disease. Here, we present a tool, variant analysis of sequenced pedigrees (VASP), a flexible data integration environment capable of producing a summary of pedigree variation, providing relevant information such as compound heterozygosity, genome phasing and disease inheritance patterns. Designed to aggregate data across a sequenced pedigree, VASP allows both powerful filtering and custom prioritization of both single nucleotide variants (SNVs) and small indels. Hence, clinical and research users with prior knowledge of a disease are able to dramatically reduce the variant search space based on a wide variety of custom prioritization criteria. [ABSTRACT FROM AUTHOR]

Published

2015

8. IRF2 transcriptionally induces GSDMD expression for pyroptosis.

Author

Kayagaki, Nobuhiko, Lee, Bettina L., Stowe, Irma B., Kornfeld, Opher S., O'Rourke, Karen, Mirrashidi, Kathleen M., Haley, Benjamin, Watanabe, Colin, Roose-Girma, Merone, Modrusan, Zora, Kummerfeld, Sarah, Reja, Rohit, Zhang, Yafei, Cho, Vicky, Andrews, T. Daniel, Morris, Lucy X., Goodnow, Christopher C., Bertram, Edward M., and Dixit, Vishva M.

Subjects

TRANSCRIPTION factors, PROTEINS, INFLAMMASOMES, CYTOKINES, GENE expression

Abstract

Pyroptosis requires the induction of gasdermin D expression by the transcription factor IRF2. IRF2 induces gasdermin D: In response to activation of canonical and noncanonical inflammasomes, a subset of caspases processes the protein gasdermin D (GSDMD) to release N-terminal fragments that oligomerize and form pores in the plasma membrane. Assembly of the GSDMD pore leads to release of the inflammatory cytokine IL-1β and causes cell death by pyroptosis. Kayagaki et al. found that loss of the transcriptional regulator IRF2 reduced GSDMD mRNA and protein abundance in mice and in human cells, resulting in decreased IL-1β secretion and reduced pyroptosis in response to inflammasome activation. Given that loss of GSDMD in mice results in ameliorated disease in models of inflammasome-driven pathologies, these findings suggest that IRF2 might be a therapeutic target for the treatment of sepsis and other inflammasome-mediated diseases. Gasdermin-D (GSDMD) is cleaved by caspase-1, caspase-4, and caspase-11 in response to canonical and noncanonical inflammasome activation. Upon cleavage, GSDMD oligomerizes and forms plasma membrane pores, resulting in interleukin-1β (IL-1β) secretion, pyroptotic cell death, and inflammatory pathologies, including periodic fever syndromes and septic shock—a plague on modern medicine. Here, we showed that IRF2, a member of the interferon regulatory factor (IRF) family of transcription factors, was essential for the transcriptional activation of GSDMD. A forward genetic screen with N-ethyl-N-nitrosourea (ENU)–mutagenized mice linked IRF2 to inflammasome signaling. GSDMD expression was substantially attenuated in IRF2-deficient macrophages, endothelial cells, and multiple tissues, which corresponded with reduced IL-1β secretion and inhibited pyroptosis. Mechanistically, IRF2 bound to a previously uncharacterized but unique site within the GSDMD promoter to directly drive GSDMD transcription for the execution of pyroptosis. Disruption of this single IRF2-binding site abolished signaling by both the canonical and noncanonical inflammasomes. Together, our data illuminate a key transcriptional mechanism for expression of the gene encoding GSDMD, a critical mediator of inflammatory pathologies. [ABSTRACT FROM AUTHOR]

Published

2019

9. A Point Mutation in IKAROS ZF1 Causes a B Cell Deficiency in Mice.

Author

Boast B, Miosge LA, Kuehn HS, Cho V, Athanasopoulos V, McNamara HA, Sontani Y, Mei Y, Howard D, Sutton HJ, Omari SA, Yu Z, Nasreen M, Andrews TD, Cockburn IA, Goodnow CC, Rosenzweig SD, and Enders A

Subjects

Animals, Antibody Formation, HEK293 Cells, Haploinsufficiency, Heat Shock Transcription Factors genetics, Heat Shock Transcription Factors metabolism, Humans, Ikaros Transcription Factor metabolism, Immunoglobulins metabolism, Mice, Mice, Inbred C57BL, Mice, Mutant Strains, NIH 3T3 Cells, B-Lymphocytes immunology, Common Variable Immunodeficiency genetics, Ikaros Transcription Factor genetics, Point Mutation genetics

Abstract

IKZF1 (IKAROS) is essential for normal lymphopoiesis in both humans and mice. Previous Ikzf1 mouse models have demonstrated the dual role for IKZF1 in both B and T cell development and have indicated differential requirements of each zinc finger. Furthermore, mutations in IKZF1 are known to cause common variable immunodeficiency in patients characterized by a loss of B cells and reduced Ab production. Through N -ethyl- N -nitrosourea mutagenesis, we have discovered a novel Ikzf1 mutant mouse with a missense mutation (L132P) in zinc finger 1 (ZF1) located in the DNA binding domain. Unlike other previously reported murine Ikzf1 mutations, this L132P point mutation ( Ikzf1 L132P ) conserves overall protein expression and has a B cell-specific phenotype with no effect on T cell development, indicating that ZF1 is not required for T cells. Mice have reduced Ab responses to immunization and show a progressive loss of serum Igs compared with wild-type littermates. IKZF1 L132P overexpressed in NIH3T3 or HEK293T cells failed to localize to pericentromeric heterochromatin and bind target DNA sequences. Coexpression of wild-type and mutant IKZF1, however, allows for localization to pericentromeric heterochromatin and binding to DNA indicating a haploinsufficient mechanism of action for IKZF1 L132P Furthermore, Ikzf1 +/L132P mice have late onset defective Ig production, similar to what is observed in common variable immunodeficiency patients. RNA sequencing revealed a total loss of Hsf1 expression in follicular B cells, suggesting a possible functional link for the humoral immune response defects observed in Ikzf1 L132P/L132P mice., (Copyright © 2021 by The American Association of Immunologists, Inc.)

Published

2021

10. Agammaglobulinaemia despite terminal B-cell differentiation in a patient with a novel LRBA mutation.

Author

Al Sukaiti N, AbdelRahman K, AlShekaili J, Al Oraimi S, Al Sinani A, Al Rahbi N, Cho V, Field M, and Cook MC

Abstract

Mutations in lipopolysaccharide-responsive vesicle trafficking, beach and anchor-containing protein (LRBA) cause immune deficiency and inflammation. Here, we are reporting a novel homozygous mutation in LRBA allele in 7-year-old Omani boy, born to consanguineous parents. He presented with type 1 diabetes, autoimmune haematological cytopenia, recurrent chest infections and lymphocytic interstitial lung disease. The patient was treated with CTLA4-Ig (abatacept) with good outcome every 2 weeks for a period of 3 months. He developed complete IgG deficiency, but remarkably, histological examination revealed germinal centres and plasma cells in lymphoid and inflamed lung tissue. Further charatecterisation showed these cells to express IgM but not IgG. This ex vivo analysis suggests that LRBA mutation confers a defect in class switching despite plasma cell formation., Competing Interests: The authors declare no conflict of interest.

Published

2017