Your search keyword '"Angelica Corcuera"' showing total 6 results

1. Direct‐Acting Antivirals for the Treatment of Chronic Hepatitis B Virus (HBV) Infection

Author

Angelica Corcuera, Alastair Donald, and Andreas Urban

Published

2021

2. Incoming HIV virion-derived Gag Spacer Peptide 2 (p1) is a target of effective CD8(+) T cell antiviral responses

Author

Hongbing Yang, Anuska Llano, Samandhy Cedeño, Annette von Delft, Angelica Corcuera, Geraldine M. Gillespie, Andrew Knox, Darren B. Leneghan, John Frater, Wolfgang Stöhr, Sarah Fidler, Beatriz Mothe, Johnson Mak, Christian Brander, Nicola Ternette, Lucy Dorrell, Eric Sandström, Janet Darbyshire, Frank Post, Christopher Conlon, Jane Anderson, Mala Maini, Timothy Peto, Peter Sasieni, Veronica Miller, Ian Weller, Abdel Babiker, Sarah Pett, Matthew Pace, Natalia Olejniczak, Helen Brown, Nicola Robinson, Jakub Kopycinski, Tomáš Hanke, Alison Crook, Steven Kaye, Myra McClure, Otto Erlwein, Andrew Lovell, Maryam Khan, Michelle Gabrielle, Rachel Bennett, Aminata Sy, Adam Gregory, Fleur Hudson, Charlotte Russell, Gemma Wood, Hanna Box, Cherry Kingsley, Katie Topping, Andrew Lever, Mark Wills, Axel Fun, Mikaila Bandara, Damian Kelly, Simon Collins, Alex Markham, Mary Rauchenberger, Yinka Sowunmi, Shaadi Shidfar, Dominic Hague, Mark Nelson, Maddalena Cerrone, Nadia Castrillo Martinez, Tristan Barber, Alexandra Schoolmeesters, Christine Weaver, Orla Thunder, Jane Rowlands, Christopher Higgs, Serge Fedele, Margherita Bracchi, Lervina Thomas, Peter Bourke, Nneka Nwokolo, Gaynor Lawrenson, Marzia Fiorino, Hinal Lukha, Sabine Kinloch-de Loes, Margaret Johnson, Alice Nightingale, Nnenna Ngwu, Patrick Byrne, Zoe Cuthbertson, Martin Jones, Tina Fernandez, Amanda Clarke, Martin Fisher, Rebecca Gleig, Vittorio Trevitt, Colin Fitzpatrick, Tanya Adams, Fiounnuala Finnerty, John Thornhill, Heather Lewis, Kristin Kuldanek, Julie Fox, Julianne Lwanga, Hiromi Uzu, Ming Lee, Simon Merle, Patrick O’Rourke, Isabel Jendrulek, Taras Zarko Flynn, Mark Taylor, Juan Manuel Tiraboschi, Tammy Murray, group, Research in Viral Eradication of Reservoirs (RIVER) trial study, Imperial College Healthcare NHS Trust- BRC Funding, and Medical Research Council (MRC)

Subjects

0301 basic medicine, immunopeptidome, DETERMINANTS, LYMPHOCYTES, 0601 Biochemistry and Cell Biology, Epitope, kinetics, 0302 clinical medicine, Cytotoxic T cell, CD8 T cells, mass spectrometry, Gag, cytotoxic T lymphocytes, HLA, POLYFUNCTIONALITY, INFECTED-CELLS, peptides, Life Sciences & Biomedicine, Antigen presentation, Human leukocyte antigen, PROVIRUSES, Biology, antigen presentation, REPLICATION CAPACITY, General Biochemistry, Genetics and Molecular Biology, Virus, 03 medical and health sciences, Immune system, CONTROLLERS, KINETICS, Science & Technology, RECOGNITION, HIV, Cell Biology, Virology, Histocompatibility, Research in Viral Eradication of Reservoirs (RIVER) trial study group, 030104 developmental biology, 1116 Medical Physiology, RESERVOIR, 030217 neurology & neurosurgery, CD8

Abstract

Persistence of HIV through integration into host DNA in CD4(+) T cells presents a major barrier to virus eradication. Viral integration may be curtailed when CD8(+) T cells are triggered to kill infected CD4(+) T cells through recognition of histocompatibility leukocyte antigen (HLA) class I-bound peptides derived from incoming virions. However, this has been reported only in individuals with "beneficial'' HLA alleles that are associated with superior HIV control. Through interrogation of the pre-integration immunopeptidome, we obtain proof of early presentation of a virion-derived HLA-A*02:01-restricted epitope, FLGKIWPSH (FH9), located in Gag Spacer Peptide 2 (SP2). FH9-specific CD8(+) T cell responses are detectable in individuals with primary HIV infection and eliminate HIV-infected CD4(+) T cells prior to virus production in vitro. Our data show that non-beneficial HLA class I alleles can elicit an effective antiviral response through early presentation of HIV virion-derived epitopes and also demonstrate the importance of SP2 as an immune target.

Published

2021

3. Incoming HIV virion-derived Gag Spacer Peptide 2 (p1) is a target of effective CD8

Author

Hongbing, Yang, Anuska, Llano, Samandhy, Cedeño, Annette, von Delft, Angelica, Corcuera, Geraldine M, Gillespie, Andrew, Knox, Darren B, Leneghan, John, Frater, Wolfgang, Stöhr, Sarah, Fidler, Beatriz, Mothe, Johnson, Mak, Christian, Brander, Nicola, Ternette, Lucy, Dorrell, and Tammy, Murray

Subjects

Virion, Humans, HIV Infections, CD8-Positive T-Lymphocytes, Peptides, Antiviral Agents

Abstract

Persistence of HIV through integration into host DNA in CD4

Published

2020

4. Incoming HIV Virion-Derived Gag Spacer Peptide 2 (p1) is a Target of Effective CD8+ T Cell Antiviral Responses

Author

Johnson Mak, Geraldine M. Gillespie, Darren B. Leneghan, Lucy Dorrell, Andrew Alexander Knox, Angelica Corcuera, Beatriz Mothe, Nicola Ternette, Samandhy Cedeño, Hongbing Yang, Annette von Delft, Christian Brander, Sarah Fidler, John Frater, Wolfgang Stöhr, Anuska Llano, and River Trial Study Goup

Subjects

medicine.anatomical_structure, Immune system, T cell, Antigen presentation, medicine, Cytotoxic T cell, Human leukocyte antigen, Biology, Virology, CD8, Virus, Epitope

Abstract

Persistence of HIV through integration into host DNA in CD4+ T cells presents a major barrier to virus eradication. Viral integration may be curtailed when CD8+ T cells are triggered to kill infected CD4+ T cells through recognition of HLA class I-bound peptides derived from incoming virions. However, this has been reported only in individuals with ‘beneficial’ HLA alleles that are associated with superior HIV control. Through interrogation of the pre-integration immunopeptidome, we obtained proof of early presentation of a virion-derived HLA-A*02:01-restricted epitope, FLGKIWPSH (FH9), located in Gag spacer peptide 2 (SP2). FH9-specific CD8+ T cell responses were detectable in individuals with primary HIV infection and eliminated HIV-infected CD4+ T cells prior to virus production in vitro. Our data show that non-beneficial HLA class I alleles can elicit an effective antiviral response through early presentation of HIV virion-derived epitopes and also demonstrate the importance of SP2 as an immune target.

Published

2020

5. Novel non-heteroarylpyrimidine (HAP) capsid assembly modifiers have a different mode of action from HAPs in vitro

Author

Andreas Urban, Katharina Stolle, Alexander Birkmann, Ralf Bartenschlager, Stefan Seitz, Angelica Corcuera, Stefan Hillmer, and Ji-Young Lee

Subjects

0301 basic medicine, Hepatitis B virus, 030106 microbiology, Virus Replication, medicine.disease_cause, Antiviral Agents, Benzoates, Cell Line, 570 Life sciences, 03 medical and health sciences, Capsid, Drug Development, stomatognathic system, Antigen, Viral life cycle, Virology, medicine, Humans, Mode of action, Pharmacology, Chemistry, Viral Core Proteins, Virus Assembly, Hepatitis B Core Antigens, In vitro, 3. Good health, HBcAg, Pyrimidines, 030104 developmental biology, Benzamides, Biophysics, Capsid Proteins, Intracellular

Abstract

One of the most promising viral targets in current hepatitis B virus (HBV) drug development is the core protein due to its multiple roles in the viral life cycle. Here we investigated the differences in the mode of action and antiviral activity of representatives of six different capsid assembly modifier (CAM) scaffolds: three from the well-characterized scaffolds heteroarylpyrimidine (HAP), sulfamoylbenzamide (SBA), and phenylpropenamide (PPA), and three from novel scaffolds glyoxamide-pyrrolamide (GPA), pyrazolyl-thiazole (PT), and dibenzo-thiazepin-2-one (DBT). The target activity and antiviral efficacy of the different CAMs were tested in biochemical and cellular assays. Analytical size exclusion chromatography and transmission electron microscopy showed that only the HAP compound induced formation of aberrant non-capsid structures (class II mode of action), while the remaining CAMs did not affect capsid gross morphology (class I mode of action). Intracellular lysates from the HepAD38 cell line, inducibly replicating HBV, showed no reduction in the quantities of intracellular core protein or capsid after treatment with SBA, PPA, GPA, PT, or DBT compounds; however HAP-treatment led to a profound decrease in both. Additionally, immunofluorescence staining of compound-treated HepAD38 cells showed that all non-HAP CAMs led to a shift in the equilibrium of HBV core antigen (HBcAg) towards complete cytoplasmic staining, while the HAP induced accumulation of HBcAg aggregates in the nucleus. Our study demonstrates that the novel scaffolds GPA, PT, and DBT exhibit class I modes of action, alike SBA and PPA, whereas HAP remains the only scaffold belonging to class II inhibitors.

Published

2018

6. An automated microfluidic platform for the screening and characterization of novel hepatitis B virus capsid assembly modulators

Author

Tamás Vermes, Mark Kielpinski, Thomas Henkel, Miquel A. Pericàs, Esther Alza, Angelica Corcuera, Helmut Buschmann, Thomas Goldner, and Andreas Urban

Subjects

0303 health sciences, Hepatitis B virus, General Chemical Engineering, Microfluidics, General Engineering, 010402 general chemistry, 01 natural sciences, Antiviral Agents, 3. Good health, 0104 chemical sciences, Analytical Chemistry, 03 medical and health sciences, Capsid, Organic Chemicals, 030304 developmental biology

Abstract

A fully automated microfluidic system was developed to screen for novel anti-HBV capsid assembly modulators. High-resolution dose–response curves were generated using convection-dominated Taylor–Aris dispersion of the screening compounds.