Your search keyword '"Silvana Gaudieri"' showing total 30 results

1. Nanopore sequencing as a novel method of characterising anorexia nervosa risk loci

Author

Natasha Berthold, Silvana Gaudieri, Sean Hood, Monika Tschochner, Allison L. Miller, Jennifer Jordan, Laura M. Thornton, Cynthia M. Bulik, Patrick Anthony Akkari, and Martin A. Kennedy

Subjects

Eating disorders, Psychiatric genetics, Anorexia nervosa risk loci, Structural variants, Transposable elements, Nanopore sequencing, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Anorexia nervosa (AN) is a polygenic, severe metabopsychiatric disorder with poorly understood aetiology. Eight significant loci have been identified by genome-wide association studies (GWAS) and single nucleotide polymorphism (SNP)-based heritability was estimated to be ~ 11–17, yet causal variants remain elusive. It is therefore important to define the full spectrum of genetic variants in the wider regions surrounding these significantly associated loci. The hypothesis we evaluate here is that unrecognised or relatively unexplored variants in these regions exist and are promising targets for future functional analyses. To test this hypothesis, we implemented a novel approach with targeted nanopore sequencing (Oxford Nanopore Technologies) for 200 kb regions centred on each of the eight AN-associated loci in 10 AN case samples. Our bioinformatics pipeline entailed base-calling and alignment with Dorado and minimap2 software, followed by variant calling with four separate tools, Sniffles2, Clair3, Straglr, and NanoVar. We then leveraged publicly available databases to characterise these loci in putative functional context and prioritise a subset of potentially relevant variants. Results Targeted nanopore sequencing effectively enriched the target regions (average coverage 14.64x). To test our hypothesis, we curated a list of 20 prioritised variants in non-coding regions, poorly represented in the current human reference genome but that may have functional consequences in AN pathology. Notably, we identified a polymorphic SINE-VNTR-Alu like sub-family D element (SVA-D), intergenic with IP6K2 and PRKAR2A, and a poly-T short tandem repeat (STR) in the 3ʹUTR of FOXP1. Conclusions Our results highlight the potential of targeted nanopore sequencing for characterising poorly resolved or complex variation, which may be initially obscured in risk-associated regions detected by GWAS. Some of the variants identified in this way, such as the polymorphic SVA-D and poly-T STR, could contribute to mechanisms of phenotypic risk, through regulation of several neighbouring genes implicated in AN biology, and affect post-transcriptional processing of FOXP1, respectively. This exploratory investigation was not powered to detect functional effects, however, the variants we observed using this method are poorly represented in the current human reference genome and accompanying databases, and further examination of these may provide new opportunities for improved understanding of genetic risk mechanisms of AN.

Published

2024

2. Multiomic single-cell sequencing defines tissue-specific responses in Stevens-Johnson syndrome and toxic epidermal necrolysis

Author

Andrew Gibson, Ramesh Ram, Rama Gangula, Yueran Li, Eric Mukherjee, Amy M. Palubinsky, Chelsea N. Campbell, Michael Thorne, Katherine C. Konvinse, Phuti Choshi, Pooja Deshpande, Sarah Pedretti, Mark W. Fear, Fiona M. Wood, Richard T. O’Neil, Celestine N. Wanjalla, Spyros A. Kalams, Silvana Gaudieri, Rannakoe J. Lehloenya, Samuel S. Bailin, Abha Chopra, Jason A. Trubiano, On behalf of the AUS-SCAR Consortium, Jonny G. Peter, On behalf of the AFRiSCAR Consortium, Simon A. Mallal, and Elizabeth J. Phillips

Subjects

Science

Abstract

Abstract Stevens-Johnson syndrome and toxic epidermal necrolysis (SJS/TEN) is a rare but life-threatening cutaneous drug reaction mediated by human leukocyte antigen (HLA) class I-restricted CD8+ T cells. For unbiased assessment of cellular immunopathogenesis, here we perform single-cell (sc) transcriptome, surface proteome, and T cell receptor (TCR) sequencing on unaffected skin, affected skin, and blister fluid from 15 SJS/TEN patients. From 109,888 cells, we identify 15 scRNA-defined subsets. Keratinocytes express markers indicating HLA class I-restricted antigen presentation and appear to trigger the proliferation of and killing by cytotoxic CD8+ tissue-resident T cells that express granulysin, granzyme B, perforin, LAG3, CD27, and LINC01871, and signal through the PKM, MIF, TGFβ, and JAK-STAT pathways. In affected tissue, cytotoxic CD8+ T cells express private expanded and unexpanded TCRαβ that are absent or unexpanded in unaffected skin, and mixed populations of macrophages and fibroblasts express pro-inflammatory markers or those favoring repair. This data identifies putative cytotoxic TCRs and therapeutic targets.

Published

2024

3. Identification of human progenitors of exhausted CD8+ T cells associated with elevated IFN-γ response in early phase of viral infection

Author

Curtis Cai, Jerome Samir, Mehdi R. Pirozyan, Thiruni N. Adikari, Money Gupta, Preston Leung, Brendan Hughes, Willem Van der Byl, Simone Rizzetto, Auda Elthala, Elizabeth Keoshkerian, Jean-Louis Palgen, Timothy Peters, Thi H. O. Nguyen, Raymond Louie, Katherine Kedzierska, Silvana Gaudieri, Rowena A. Bull, Andrew R. Lloyd, and Fabio Luciani

Subjects

Science

Abstract

The early immune response following exposure to HCV is not fully explored. Here the authors use single cell analysis and immune profiling to relate the infection sequence and immune response to early HCV infection showing that exhausted phenotypes of T cells arise early post infection.

Published

2022

4. Altered subgenomic RNA abundance provides unique insight into SARS-CoV-2 B.1.1.7/Alpha variant infections

Author

Matthew D. Parker, Hazel Stewart, Ola M. Shehata, Benjamin B. Lindsey, Dhruv R. Shah, Sharon Hsu, Alexander J. Keeley, David G. Partridge, Shay Leary, Alison Cope, Amy State, Katie Johnson, Nasar Ali, Rasha Raghei, Joe Heffer, Nikki Smith, Peijun Zhang, Marta Gallis, Stavroula F. Louka, Hailey R. Hornsby, Hatoon Alamri, Max Whiteley, Benjamin H. Foulkes, Stella Christou, Paige Wolverson, Manoj Pohare, Samantha E. Hansford, Luke R. Green, Cariad Evans, Mohammad Raza, Dennis Wang, Andrew E. Firth, James R. Edgar, Silvana Gaudieri, Simon Mallal, The COVID-19 Genomics UK (COG-UK) consortium, Mark O. Collins, Andrew A. Peden, and Thushan I. de Silva

Subjects

Biology (General), QH301-705.5

Abstract

Matthew Parker et al. use the ARTIC network tiled amplicon PCR and Oxford Nanopore sequencing of thousands of SARS-CoV-2 samples to detect subgenomic RNA changes in the B.1.1.7 lineage endemic in the UK in late 2020/early 2021. They discovered higher subgenomic RNA in B.1.1.7 compared to previous lineages, and find a noncanonical subgenomic RNA that could encode ORF9b.

Published

2022

5. Tracking of activated cTfh cells following sequential influenza vaccinations reveals transcriptional profile of clonotypes driving a vaccine-induced immune response

Author

Jennifer Currenti, Joshua Simmons, Jared Oakes, Silvana Gaudieri, Christian M. Warren, Rama Gangula, Eric Alves, Ramesh Ram, Shay Leary, Jesse D. Armitage, Rita M. Smith, Abha Chopra, Natasha B. Halasa, Mark A. Pilkinton, and Spyros A. Kalams

Subjects

influenza virus, vaccination, cTfh, TCR - T cell receptor, clonal expansion, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionA vaccine against influenza is available seasonally but is not 100% effective. A predictor of successful seroconversion in adults is an increase in activated circulating T follicular helper (cTfh) cells after vaccination. However, the impact of repeated annual vaccinations on long-term protection and seasonal vaccine efficacy remains unclear.MethodsIn this study, we examined the T cell receptor (TCR) repertoire and transcriptional profile of vaccine-induced expanded cTfh cells in individuals who received sequential seasonal influenza vaccines. We measured the magnitude of cTfh and plasmablast cell activation from day 0 (d0) to d7 post-vaccination as an indicator of a vaccine response. To assess TCR diversity and T cell expansion we sorted activated and resting cTfh cells at d0 and d7 post-vaccination and performed TCR sequencing. We also single cell sorted activated and resting cTfh cells for TCR analysis and transcriptome sequencing.Results and discussionThe percent of activated cTfh cells significantly increased from d0 to d7 in each of the 2016-17 (p < 0.0001) and 2017-18 (p = 0.015) vaccine seasons with the magnitude of cTfh activation increase positively correlated with the frequency of circulating plasmablast cells in the 2016-17 (p = 0.0001) and 2017-18 (p = 0.003) seasons. At d7 post-vaccination, higher magnitudes of cTfh activation were associated with increased clonality of cTfh TCR repertoire. The TCRs from vaccine-expanded clonotypes were identified and tracked longitudinally with several TCRs found to be present in both years. The transcriptomic profile of these expanded cTfh cells at the single cell level demonstrated overrepresentation of transcripts of genes involved in the type-I interferon pathway, pathways involved in gene expression, and antigen presentation and recognition. These results identify the expansion and transcriptomic profile of vaccine-induced cTfh cells important for B cell help.

Published

2023

6. Editorial: The interaction of NKG2D and its ligands in health and diseases

Author

Silvana Gaudieri, Hugh T. Reyburn, Mar Vales-Gomez, and Chanvit Leelayuwat

Subjects

NK cells, NKG2D, MIC - major histocompatibility complex (MHC) class I-related chain, ULBP - UL16 binding protein, disease, Immunologic diseases. Allergy, RC581-607

Published

2022

7. Adaptation to HLA-associated immune pressure over the course of HIV infection and in circulating HIV-1 strains.

Author

Eric Alves, Marwah Al-Kaabi, Niamh M Keane, Shay Leary, Coral-Ann M Almeida, Pooja Deshpande, Jennifer Currenti, Abha Chopra, Rita Smith, Alison Castley, Simon Mallal, Spyros A Kalams, Silvana Gaudieri, and Mina John

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Adaptation to human leukocyte antigen (HLA)-associated immune pressure represents a major driver of human immunodeficiency virus (HIV) evolution at both the individual and population level. To date, there has been limited exploration of the impact of the initial cellular immune response in driving viral adaptation, the dynamics of these changes during infection and their effect on circulating transmitting viruses at the population level. Capturing detailed virological and immunological data from acute and early HIV infection is challenging as this commonly precedes the diagnosis of HIV infection, potentially by many years. In addition, rapid initiation of antiretroviral treatment following a diagnosis is the standard of care, and central to global efforts towards HIV elimination. Yet, acute untreated infection is the critical period in which the diversity of proviral reservoirs is first established within individuals, and associated with greater risk of onward transmissions in a population. Characterizing the viral adaptations evident in the earliest phases of infection, coinciding with the initial cellular immune responses is therefore relevant to understanding which changes are of greatest impact to HIV evolution at the population level. In this study, we utilized three separate cohorts to examine the initial CD8+ T cell immune response to HIV (cross-sectional acute infection cohort), track HIV evolution in response to CD8+ T cell-mediated immunity over time (longitudinal chronic infection cohort) and translate the impact of HLA-driven HIV evolution to the population level (cross-sectional HIV sequence data spanning 30 years). Using next generation viral sequencing and enzyme-linked immunospot interferon-gamma recall responses to peptides representing HLA class I-specific HIV T cell targets, we observed that CD8+ T cell responses can select viral adaptations prior to full antibody seroconversion. Using the longitudinal cohort, we uncover that viral adaptations have the propensity to be retained over time in a non-selective immune environment, which reflects the increasing proportion of pre-adapted HIV strains within the Western Australian population over an approximate 30-year period.

Published

2022

8. Reprogramming the anti-tumor immune response via CRISPR genetic and epigenetic editing

Author

Eric Alves, Shahama Taifour, Riccardo Dolcetti, Jonathan Chee, Anna K. Nowak, Silvana Gaudieri, and Pilar Blancafort

Subjects

immune response, clinical trials, CRISPR, genome editing, epigenome engineering, precision medicine, Genetics, QH426-470, Cytology, QH573-671

Abstract

Precise clustered regularly interspaced short palindromic repeats (CRISPR)-mediated genetic and epigenetic manipulation of the immune response has become a promising immunotherapeutic approach toward combating tumorigenesis and tumor progression. CRISPR-based immunologic reprograming in cancer therapy comprises the locus-specific enhancement of host immunity, the improvement of tumor immunogenicity, and the suppression of tumor immunoevasion. To date, the ex vivo re-engineering of immune cells directed to inhibit the expression of immune checkpoints or to express synthetic immune receptors (chimeric antigen receptor therapy) has shown success in some settings, such as in the treatment of melanoma, lymphoma, liver, and lung cancer. However, advancements in nuclease-deactivated CRISPR-associated nuclease-9 (dCas9)-mediated transcriptional activation or repression and Cas13-directed gene suppression present novel avenues for the development of tumor immunotherapies. In this review, the basis for development, mechanism of action, and outcomes from recently published Cas9-based clinical trial (genetic editing) and dCas9/Cas13-based pre-clinical (epigenetic editing) data are discussed. Lastly, we review cancer immunotherapy-specific considerations and barriers surrounding use of these approaches in the clinic.

Published

2021

9. On the Evolutionary Trajectory of SARS-CoV-2: Host Immunity as a Driver of Adaptation in RNA Viruses

Author

Jacob Warger and Silvana Gaudieri

Subjects

RNA viruses, SARS-CoV-2 variants, host immunity, adaptation, viral escape, Microbiology, QR1-502

Abstract

Host immunity can exert a complex array of selective pressures on a pathogen, which can drive highly mutable RNA viruses towards viral escape. The plasticity of a virus depends on its rate of mutation, as well as the balance of fitness cost and benefit of mutations, including viral adaptations to the host’s immune response. Since its emergence, SARS-CoV-2 has diversified into genetically distinct variants, which are characterised often by clusters of mutations that bolster its capacity to escape human innate and adaptive immunity. Such viral escape is well documented in the context of other pandemic RNA viruses such as the human immunodeficiency virus (HIV) and influenza virus. This review describes the selection pressures the host’s antiviral immunity exerts on SARS-CoV-2 and other RNA viruses, resulting in divergence of viral strains into more adapted forms. As RNA viruses obscure themselves from host immunity, they uncover weak points in their own armoury that can inform more comprehensive, long-lasting, and potentially cross-protective vaccine coverage.

Published

2022

10. Cross-Reactivity to Mutated Viral Immune Targets Can Influence CD8+ T Cell Functionality: An Alternative Viral Adaptation Strategy

Author

Jennifer Currenti, Becker M.P. Law, Kai Qin, Mina John, Mark A. Pilkinton, Anju Bansal, Shay Leary, Ramesh Ram, Abha Chopra, Rama Gangula, Ling Yue, Christian Warren, Louise Barnett, Eric Alves, Wyatt J. McDonnell, Anuradha Sooda, Sonya L. Heath, Simon Mallal, Paul Goepfert, Spyros A. Kalams, and Silvana Gaudieri

Subjects

HIV, adaptation, host-viral interactions, T cell receptor, transcriptome, Immunologic diseases. Allergy, RC581-607

Abstract

Loss of T cell immunogenicity due to mutations in virally encoded epitopes is a well-described adaptation strategy to limit host anti-viral immunity. Another described, but less understood, adaptation strategy involves the selection of mutations within epitopes that retain immune recognition, suggesting a benefit for the virus despite continued immune pressure (termed non-classical adaptation). To understand this adaptation strategy, we utilized a single cell transcriptomic approach to identify features of the HIV-specific CD8+ T cell responses targeting non-adapted (NAE) and adapted (AE) forms of epitopes containing a non-classical adaptation. T cell receptor (TCR) repertoire and transcriptome were obtained from antigen-specific CD8+ T cells of chronic (n=7) and acute (n=4) HIV-infected subjects identified by either HLA class I tetramers or upregulation of activation markers following peptide stimulation. CD8+ T cells were predominantly dual tetramer+, confirming a large proportion of cross-reactive TCR clonotypes capable of recognizing the NAE and AE form. However, single-reactive CD8+ T cells were identified in acute HIV-infected subjects only, providing the potential for the selection of T cell clones over time. The transcriptomic profile of CD8+ T cells was dependent on the autologous virus: subjects whose virus encoded the NAE form of the epitope (and who transitioned to the AE form at a later timepoint) exhibited an ‘effective’ immune response, as indicated by expression of transcripts associated with polyfunctionality, cytotoxicity and apoptosis (largely driven by the genes GZMB, IFNɣ, CCL3, CCL4 and CCL5). These data suggest that viral adaptation at a single amino acid residue can provide an alternative strategy for viral survival by modulating the transcriptome of CD8+ T cells and potentially selecting for less effective T cell clones from the acute to chronic phase.

Published

2021

11. Sequencing Directly from Clinical Specimens Reveals Genetic Variations in HCMV-Encoded Chemokine Receptor US28 That May Influence Antibody Levels and Interactions with Human Chemokines

Author

Shelley Waters, Mark Agostino, Silvia Lee, Ibnu Ariyanto, Nina Kresoje, Shay Leary, Kylie Munyard, Silvana Gaudieri, Jessica Gaff, Ashley Irish, Anthony D. Keil, Patricia Price, and Richard J. N. Allcock

Subjects

human cytomegalovirus, chemokine receptor, US28, renal transplant recipients, HIV patients, deep sequencing, Microbiology, QR1-502

Abstract

ABSTRACT Human cytomegalovirus (HCMV) is a beta-herpesvirus carried by ∼80% of the world’s population. Acute infections are asymptomatic in healthy individuals but generate diverse syndromes in neonates, solid organ transplant recipients, and HIV-infected individuals. The HCMV gene US28 encodes a homolog of a human chemokine receptor that is able to bind several chemokines and HIV gp120. Deep sequencing technologies were used to sequence US28 directly from 60 clinical samples from Indonesian HIV patients and Australian renal transplant recipients, healthy adults, and neonates. Molecular modeling approaches were used to predict whether nine nonsynonymous mutations in US28 may alter protein binding to a panel of six chemokines and two variants of HIV gp120. Ninety-two percent of samples contained more than one variant of HCMV, as defined by at least one nonsynonymous mutation. Carriage of these variants differed between neonates and adults, Australian and Indonesian samples, and saliva samples and blood leukocytes. Two nonsynonymous mutations (N170D and R267K) were associated with increased levels of immediate early protein 1 (IE-1) and glycoprotein B (gB) HCMV-reactive antibodies, suggesting a higher viral burden. Seven of the nine mutations were predicted to alter binding of at least one ligand. Overall, HCMV variants are common in all populations and have the potential to affect US28 interactions with human chemokines and/or gp120 and alter responses to the virus. The findings relied on deep sequencing technologies applied directly to clinical samples, so the variants exist in vivo. IMPORTANCE Human cytomegalovirus (HCMV) is a common viral pathogen of solid organ transplant recipients, neonates, and HIV-infected individuals. HCMV encodes homologs of several host genes with the potential to influence viral persistence and/or pathogenesis. Here, we present deep sequencing of an HCMV chemokine receptor homolog, US28, acquired directly from clinical specimens. Carriage of these variants differed between patient groups and was associated with different levels of circulating HCMV-reactive antibodies. These features are consistent with a role for US28 in HCMV persistence and pathogenesis. This was supported by in silico analyses of the variant sequences demonstrating altered ligand-binding profiles. The data delineate a novel approach to understanding the pathogenesis of HCMV and may impact the development of an effective vaccine.

Published

2021

12. Manipulating the NKG2D Receptor-Ligand Axis Using CRISPR: Novel Technologies for Improved Host Immunity

Author

Eric Alves, Emily McLeish, Pilar Blancafort, Jerome D. Coudert, and Silvana Gaudieri

Subjects

NKG2D, CRISPR, precision medicine, NK cells, viral infection, cancer, Immunologic diseases. Allergy, RC581-607

Abstract

The activating immune receptor natural killer group member D (NKG2D) and its cognate ligands represent a fundamental surveillance system of cellular distress, damage or transformation. Signaling through the NKG2D receptor-ligand axis is critical for early detection of viral infection or oncogenic transformation and the presence of functional NKG2D ligands (NKG2D-L) is associated with tumor rejection and viral clearance. Many viruses and tumors have developed mechanisms to evade NKG2D recognition via transcriptional, post-transcriptional or post-translational interference with NKG2D-L, supporting the concept that circumventing immune evasion of the NKG2D receptor-ligand axis may be an attractive therapeutic avenue for antiviral therapy or cancer immunotherapy. To date, the complexity of the NKG2D receptor-ligand axis and the lack of specificity of current NKG2D-targeting therapies has not allowed for the precise manipulation required to optimally harness NKG2D-mediated immunity. However, with the discovery of clustered regularly interspaced short palindromic repeats (CRISPRs) and CRISPR-associated (Cas) proteins, novel opportunities have arisen in the realm of locus-specific gene editing and regulation. Here, we give a brief overview of the NKG2D receptor-ligand axis in humans and discuss the levels at which NKG2D-L are regulated and dysregulated during viral infection and oncogenesis. Moreover, we explore the potential for CRISPR-based technologies to provide novel therapeutic avenues to improve and maximize NKG2D-mediated immunity.

Published

2021

13. Generation of a Novel SARS-CoV-2 Sub-genomic RNA Due to the R203K/G204R Variant in Nucleocapsid: Homologous Recombination has Potential to Change SARS-CoV-2 at Both Protein and RNA Level

Author

Shay Leary, Silvana Gaudieri, Matthew Parker, Abha Chopra, Ian James, Suman Pakala, Eric Alves, Mina John, Benjamin Lindsey, Alexander Keeley, Sarah Rowland-Jones, Maurice Swanson, David Ostrov, Jodi Bubenik, Suman Das, John Sidney, Alessandro Sette, COVID-19 Genomics UK (COG-UK) consortium, Thushan de Silva, Elizabeth Phillips, and Simon Mallal

Subjects

COVID-19, SARS-CoV-2, homologous recombination, sub-genomic RNA transcript, transcription-regulating sequence, viral polymorphism, Pathology, RB1-214, Immunologic diseases. Allergy, RC581-607

Abstract

Background: Genetic variations across the SARS-CoV-2 genome may influence transmissibility of the virus and the host’s anti-viral immune response, in turn affecting the frequency of variants over time. In this study, we examined the adjacent amino acid polymorphisms in the nucleocapsid (R203K/G204R) of SARS-CoV-2 that arose on the background of the spike D614G change and describe how strains harboring these changes became dominant circulating strains globally. Methods: Deep-sequencing data of SARS-CoV-2 from public databases and from clinical samples were analyzed to identify and map genetic variants and sub-genomic RNA transcripts across the genome. Results: Sequence analysis suggests that the 3 adjacent nucleotide changes that result in the K203/R204 variant have arisen by homologous recombination from the core sequence of the leader transcription-regulating sequence (TRS) rather than by stepwise mutation. The resulting sequence changes generate a novel sub-genomic RNA transcript for the C-terminal dimerization domain of nucleocapsid. Deep-sequencing data from 981 clinical samples confirmed the presence of the novel TRS-CS-dimerization domain RNA in individuals with the K203/R204 variant. Quantification of sub-genomic RNA indicates that viruses with the K203/R204 variant may also have increased expression of sub-genomic RNA from other open reading frames. Conclusions: The finding that homologous recombination from the TRS may have occurred since the introduction of SARS-CoV-2 in humans, resulting in both coding changes and novel sub-genomic RNA transcripts, suggests this as a mechanism for diversification and adaptation within its new host.

Published

2021

14. Dynamic changes to tissue-resident immunity after MHC-matched and MHC-mismatched solid organ transplantation

Author

Amy Prosser, Wen Hua Huang, Liu Liu, Sarah Dart, Monalyssa Watson, Bastiaan de Boer, Philip Kendrew, Andrew Lucas, Irma Larma-Cornwall, Silvana Gaudieri, Gary P. Jeffrey, Luc Delriviere, Axel Kallies, and Michaela Lucas

Subjects

liver transplantation, heart transplantation, tissue-resident lymphocyte, innate lymphoid cell, unconventional T cell, Biology (General), QH301-705.5

Abstract

Summary: The heterogeneous pool of tissue-resident lymphocytes in solid organs mediates infection responses and supports tissue integrity and repair. Their vital functions in normal physiology suggest an important role in solid organ transplantation; however, their detailed examination in this context has not been performed. Here, we report the fate of multiple lymphocyte subsets, including T, B, and innate lymphoid cells, after murine liver and heart transplantation. In major histocompatibility complex (MHC)-matched transplantation, donor lymphocytes are retained in liver grafts and peripheral lymphoid organs of heart and liver transplant recipients. In MHC-mismatched transplantation, increased infiltration of the graft by recipient cells and depletion of donor lymphocytes occur, which can be prevented by removal of recipient T and B cells. Recipient lymphocytes fail to recreate the native organs’ phenotypically diverse tissue-resident lymphocyte composition, even in MHC-matched models. These post-transplant changes may leave grafts vulnerable to infection and impair long-term graft function.

Published

2021

15. Vitamin C supplementation reduces expression of circulating miR-451a in subjects with poorly controlled type 2 diabetes mellitus and high oxidative stress

Author

Laongthip Ruknarong, Chongchira Boonthongkaew, Nisa Chuangchot, Amonrat Jumnainsong, Naruemon Leelayuwat, Apinya Jusakul, Silvana Gaudieri, and Chanvit Leelayuwat

Subjects

Vitamin C, miRNA, Type 2 diabetes, Oxidative stress, miRNA array, Medicine, Biology (General), QH301-705.5

Abstract

Background Vitamin C is an essential element required for normal metabolic function. We investigated the effect of vitamin C supplementation on circulating miRNA (miR) expression in subjects with poorly controlled type 2 diabetes mellitus (T2DM). Changes in miR expression were also correlated with clinical measures of disease. Methods Pre- and post-vitamin C supplementation samples from five participants who had increased vitamin C levels, improved oxidative status and polymorphonuclear (PMN) function after receiving 1,000 mg of vitamin C daily for six weeks were screened for miRNA expression using the NanoString miRNA assay. Differences in miRNA expression identified from the miRNA screen were validated by qRT-PCR. Results Four miRNAs showed significantly different expression post-vitamin C supplementation relative to baseline, including the down-regulation of miR-451a (−1.72 fold change (FC), p = 0.036) and up-regulation of miR-1253 (0.62 FC, p = 0.027), miR-1290 (0.53 FC, p = 0.036) and miR-644a (0.5 FC, p = 0.042). The validation study showed only miR-451a expression was significantly different from baseline with vitamin C supplementation. MiR-451a expression was negatively correlated with vitamin C levels (r = − 0.497, p = 0.049) but positively correlated with levels of malondialdehyde (MDA) (r = 0.584, p = 0.017), cholesterol (r = 0.564, p = 0.022) and low-density lipoproteins (LDL) (r = 0.522, p = 0.037). Bioinformatics analysis of the putative target genes of miR-451a indicated gene functions related to signaling pathways involved in cellular processes, such as the mammalian target of rapamycin (mTOR) signaling pathway. Conclusions Vitamin C supplementation altered circulating miR-451a expression. The results from this pilot study suggest that miRNAs could be used as biomarkers to indicate oxidative status in subjects with T2DM and with poor glycemic control and could lead to a novel molecular strategy to reduce oxidative stress in T2DM.

Published

2021

16. Evidence of CD4+ T cell-mediated immune pressure on the Hepatitis C virus genome

Author

Michaela Lucas, Pooja Deshpande, Ian James, Andri Rauch, Katja Pfafferott, Elouise Gaylard, Shahzma Merani, Anne Plauzolles, Andrew Lucas, Wyatt McDonnell, Spyros Kalams, Mark Pilkinton, Cody Chastain, Louise Barnett, Amy Prosser, Simon Mallal, Karen Fitzmaurice, Heidi Drummer, M. Azim Ansari, Vincent Pedergnana, Ellie Barnes, Mina John, Dermot Kelleher, Paul Klenerman, and Silvana Gaudieri

Subjects

Medicine, Science

Abstract

Abstract Hepatitis C virus (HCV)-specific T cell responses are critical for immune control of infection. Viral adaptation to these responses, via mutations within regions of the virus targeted by CD8+ T cells, is associated with viral persistence. However, identifying viral adaptation to HCV-specific CD4+ T cell responses has been difficult although key to understanding anti-HCV immunity. In this context, HCV sequence and host genotype from a single source HCV genotype 1B cohort (n = 63) were analyzed to identify viral changes associated with specific human leucocyte antigen (HLA) class II alleles, as these variable host molecules determine the set of viral peptides presented to CD4+ T cells. Eight sites across the HCV genome were associated with HLA class II alleles implicated in infection outcome in this cohort (p ≤ 0.01; Fisher’s exact test). We extended this analysis to chronic HCV infection (n = 351) for the common genotypes 1A and 3A. Variation at 38 sites across the HCV genome were associated with specific HLA class II alleles with no overlap between genotypes, suggestive of genotype-specific T cell targets, which has important implications for vaccine design. Here we show evidence of HCV adaptation to HLA class II-restricted CD4+ T cell pressure across the HCV genome in chronic HCV infection without a priori knowledge of CD4+ T cell epitopes.

Published

2018

17. Shared peptide binding of HLA Class I and II alleles associate with cutaneous nevirapine hypersensitivity and identify novel risk alleles

Author

Rebecca Pavlos, Elizabeth J. McKinnon, David A. Ostrov, Bjoern Peters, Soren Buus, David Koelle, Abha Chopra, Ryan Schutte, Craig Rive, Alec Redwood, Susana Restrepo, Austin Bracey, Thomas Kaever, Paisley Myers, Ellen Speers, Stacy A. Malaker, Jeffrey Shabanowitz, Yuan Jing, Silvana Gaudieri, Donald F. Hunt, Mary Carrington, David W. Haas, Simon Mallal, and Elizabeth J. Phillips

Subjects

Medicine, Science

Abstract

Abstract Genes of the human leukocyte antigen (HLA) system encode cell-surface proteins involved in regulation of immune responses, and the way drugs interact with the HLA peptide binding groove is important in the immunopathogenesis of T-cell mediated drug hypersensitivity syndromes. Nevirapine (NVP), is an HIV-1 antiretroviral with treatment-limiting hypersensitivity reactions (HSRs) associated with multiple class I and II HLA alleles. Here we utilize a novel analytical approach to explore these multi-allelic associations by systematically examining HLA molecules for similarities in peptide binding specificities and binding pocket structure. We demonstrate that primary predisposition to cutaneous NVP HSR, seen across ancestral groups, can be attributed to a cluster of HLA-C alleles sharing a common binding groove F pocket with HLA-C*04:01. An independent association with a group of class II alleles which share the HLA-DRB1-P4 pocket is also observed. In contrast, NVP HSR protection is afforded by a cluster of HLA-B alleles defined by a characteristic peptide binding groove B pocket. The results suggest drug-specific interactions within the antigen binding cleft can be shared across HLA molecules with similar binding pockets. We thereby provide an explanation for multiple HLA associations with cutaneous NVP HSR and advance insight into its pathogenic mechanisms.

Published

2017

18. Deep sequence analysis of HIV adaptation following vertical transmission reveals the impact of immune pressure on the evolution of HIV.

Author

Jennifer Currenti, Abha Chopra, Mina John, Shay Leary, Elizabeth McKinnon, Eric Alves, Mark Pilkinton, Rita Smith, Louise Barnett, Wyatt J McDonnell, Michaela Lucas, Francine Noel, Simon Mallal, Joseph A Conrad, Spyros A Kalams, and Silvana Gaudieri

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Human immunodeficiency virus (HIV) can adapt to an individual's T cell immune response via genomic mutations that affect antigen recognition and impact disease outcome. These viral adaptations are specific to the host's human leucocyte antigen (HLA) alleles, as these molecules determine which peptides are presented to T cells. As HLA molecules are highly polymorphic at the population level, horizontal transmission events are most commonly between HLA-mismatched donor/recipient pairs, representing new immune selection environments for the transmitted virus. In this study, we utilised a deep sequencing approach to determine the HIV quasispecies in 26 mother-to-child transmission pairs where the potential for founder viruses to be pre-adapted is high due to the pairs being haplo-identical at HLA loci. This scenario allowed the assessment of specific HIV adaptations following transmission in either a non-selective immune environment, due to recipient HLA mismatched to original selecting HLA, or a selective immune environment, mediated by matched donor/recipient HLA. We show that the pattern of reversion or fixation of HIV adaptations following transmission provides insight into the replicative cost, and likely compensatory networks, associated with specific adaptations in vivo. Furthermore, although transmitted viruses were commonly heavily pre-adapted to the child's HLA genotype, we found evidence of de novo post-transmission adaptation, representing new epitopes targeted by the child's T cell response. High-resolution analysis of HIV adaptation is relevant when considering vaccine and cure strategies for individuals exposed to adapted viruses via transmission or reactivated from reservoirs.

Published

2019

19. Comparison of HLA allelic imputation programs.

Author

Jason H Karnes, Christian M Shaffer, Lisa Bastarache, Silvana Gaudieri, Andrew M Glazer, Heidi E Steiner, Jonathan D Mosley, Simon Mallal, Joshua C Denny, Elizabeth J Phillips, and Dan M Roden

Subjects

Medicine, Science

Abstract

Imputation of human leukocyte antigen (HLA) alleles from SNP-level data is attractive due to importance of HLA alleles in human disease, widespread availability of genome-wide association study (GWAS) data, and expertise required for HLA sequencing. However, comprehensive evaluations of HLA imputations programs are limited. We compared HLA imputation results of HIBAG, SNP2HLA, and HLA*IMP:02 to sequenced HLA alleles in 3,265 samples from BioVU, a de-identified electronic health record database coupled to a DNA biorepository. We performed four-digit HLA sequencing for HLA-A, -B, -C, -DRB1, -DPB1, and -DQB1 using long-read 454 FLX sequencing. All samples were genotyped using both the Illumina HumanExome BeadChip platform and a GWAS platform. Call rates and concordance rates were compared by platform, frequency of allele, and race/ethnicity. Overall concordance rates were similar between programs in European Americans (EA) (0.975 [SNP2HLA]; 0.939 [HLA*IMP:02]; 0.976 [HIBAG]). SNP2HLA provided a significant advantage in terms of call rate and the number of alleles imputed. Concordance rates were lower overall for African Americans (AAs). These observations were consistent when accuracy was compared across HLA loci. All imputation programs performed similarly for low frequency HLA alleles. Higher concordance rates were observed when HLA alleles were imputed from GWAS platforms versus the HumanExome BeadChip, suggesting that high genomic coverage is preferred as input for HLA allelic imputation. These findings provide guidance on the best use of HLA imputation methods and elucidate their limitations.

Published

2017

20. Abacavir-reactive memory T cells are present in drug naïve individuals.

Author

Andrew Lucas, Michaela Lucas, Anette Strhyn, Niamh M Keane, Elizabeth McKinnon, Rebecca Pavlos, Ellen M Moran, Viola Meyer-Pannwitt, Silvana Gaudieri, Lloyd D'Orsogna, Spyros Kalams, David A Ostrov, Søren Buus, Bjoern Peters, Simon Mallal, and Elizabeth Phillips

Subjects

Medicine, Science

Abstract

BACKGROUND:Fifty-five percent of individuals with HLA-B*57:01 exposed to the antiretroviral drug abacavir develop a hypersensitivity reaction (HSR) that has been attributed to naïve T-cell responses to neo-antigen generated by the drug. Immunologically confirmed abacavir HSR can manifest clinically in less than 48 hours following first exposure suggesting that, at least in some cases, abacavir HSR is due to re-stimulation of a pre-existing memory T-cell population rather than priming of a high frequency naïve T-cell population. METHODS:To determine whether a pre-existing abacavir reactive memory T-cell population contributes to early abacavir HSR symptoms, we studied the abacavir specific naïve or memory T-cell response using HLA-B*57:01 positive HSR patients or healthy controls using ELISpot assay, intra-cellular cytokine staining and tetramer labelling. RESULTS:Abacavir reactive CD8+ T-cell responses were detected in vitro in one hundred percent of abacavir unexposed HLA-B*57:01 positive healthy donors. Abacavir-specific CD8+ T cells from such donors can be expanded from sorted memory, and sorted naïve, CD8+ T cells without need for autologous CD4+ T cells. CONCLUSIONS:We propose that these pre-existing abacavir-reactive memory CD8+ T-cell responses must have been primed by earlier exposure to another foreign antigen and that these T cells cross-react with an abacavir-HLA-B*57:01-endogenous peptide ligand complex, in keeping with the model of heterologous immunity proposed in transplant rejection.

Published

2015

21. Anti-hepatitis C virus T-cell immunity in the context of multiple exposures to the virus.

Author

Katja Pfafferott, Pooja Deshpande, Elizabeth McKinnon, Shahzma Merani, Andrew Lucas, David Heckerman, Simon Mallal, Mina John, Silvana Gaudieri, and Michaela Lucas

Subjects

Medicine, Science

Abstract

Characterisation of Hepatitis C virus (HCV)-specific CD8+ T-cell responses in the context of multiple HCV exposures is critical to identify broadly protective immune responses necessary for an effective HCV vaccine against the different HCV genotypes. However, host and viral genetic diversity complicates vaccine development. To compensate for the observed variation in circulating autologous viruses and host molecules that restrict antigen presentation (human leucocyte antigens; HLA), this study used a reverse genomics approach that identified sites of viral adaptation to HLA-restricted T-cell immune pressure to predict genotype-specific HCV CD8+ T-cell targets. Peptides representing these putative HCV CD8+ T-cell targets, and their adapted form, were used in individualised IFN-γ ELISpot assays to screen for HCV-specific T-cell responses in 133 HCV-seropositive subjects with high-risk of multiple HCV exposures. The data obtained from this study i) confirmed that genetic studies of viral evolution is an effective approach to detect novel in vivo HCV T-cell targets, ii) showed that HCV-specific T-cell epitopes can be recognised in their adapted form and would not have been detected using wild-type peptides and iii) showed that HCV-specific T-cell (but not antibody) responses against alternate genotypes in chronic HCV-infected subjects are readily found, implying clearance of previous alternate genotype infection. In summary, HCV adaptation to HLA Class I-restricted T-cell responses plays a central role in anti-HCV immunity and multiple HCV genotype exposure is highly prevalent in at-risk exposure populations, which are important considerations for future vaccine design.

Published

2015

22. Correction: Analysis of FOXP3 Regulatory T Cells That Display Apparent Viral Antigen Specificity during Chronic Hepatitis C Virus Infection.

Author

Shuo Li, Stefan Floess, Alf Hamann, Silvana Gaudieri, Andrew Lucas, Margaret Hellard, Stuart Roberts, Geza Paukovic, Magdalena Plebanski, Bruce E. Loveland, Campbell Aitken, Simon Barry, Louis Schofield, and Eric J. Gowans

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2012

23. Genetic variations in IL28B and allergic disease in children.

Author

Silvana Gaudieri, Michaela Lucas, Andrew Lucas, Elizabeth McKinnon, Hiba Albloushi, Andri Rauch, Julia di Iulio, David Martino, Susan L Prescott, and Meri K Tulic

Subjects

Medicine, Science

Abstract

Environmental changes affecting the relationship between the developing immune system and microbial exposure have been implicated in the epidemic rise of allergic disease in developed countries. While early developmental differences in T cell function are well-recognised, there is now emerging evidence that this is related to developmental differences in innate immune function. In this study we sought to examine if differences associated with innate immunity contribute to the altered immune programming recognised in allergic children. Here, we describe for the first time, the association of carriage of the T allele of the tagging single nucleotide polymorphism rs12979860 3 kb upstream of IL28B, encoding the potent innate immune modulator type III interferon lambda (IFN-λ3), and allergy in children (p = 0.004; OR 4.56). Strikingly, the association between rs12979860 genotype and allergic disease is enhanced in girls. Furthermore, carriage of the T allele at rs12979860 correlates with differences in the pro-inflammatory profile during the first five years of life suggesting this contributes to the key differences in subsequent innate immune development in children who develop allergic disease. In the context of rising rates of disease, these immunologic differences already present at birth imply very early interaction between genetic predisposition and prenatal environmental influences.

Published

2012

24. IL28B, HLA-C, and KIR variants additively predict response to therapy in chronic hepatitis C virus infection in a European Cohort: a cross-sectional study.

Author

Vijayaprakash Suppiah, Silvana Gaudieri, Nicola J Armstrong, Kate S O'Connor, Thomas Berg, Martin Weltman, Maria Lorena Abate, Ulrich Spengler, Margaret Bassendine, Gregory J Dore, William L Irving, Elizabeth Powell, Margaret Hellard, Stephen Riordan, Gail Matthews, David Sheridan, Jacob Nattermann, Antonina Smedile, Tobias Müller, Emma Hammond, David Dunn, Francesco Negro, Pierre-Yves Bochud, Simon Mallal, Golo Ahlenstiel, Graeme J Stewart, Jacob George, David R Booth, and International Hepatitis C Genetics Consortium (IHCGC)

Subjects

Medicine

Abstract

BackgroundTo date, drug response genes have not proved as useful in clinical practice as was anticipated at the start of the genomic era. An exception is in the treatment of chronic hepatitis C virus (HCV) genotype 1 infection with pegylated interferon-alpha and ribavirin (PegIFN/R). Viral clearance is achieved in 40%-50% of patients. Interleukin 28B (IL28B) genotype predicts treatment-induced and spontaneous clearance. To improve the predictive value of this genotype, we studied the combined effect of variants of IL28B with human leukocyte antigen C (HLA-C), and its ligands the killer immunoglobulin-like receptors (KIR), which have previously been implicated in HCV viral control.Methods and findingsWe genotyped chronic hepatitis C (CHC) genotype 1 patients with PegIFN/R treatment-induced clearance (n = 417) and treatment failure (n = 493), and 234 individuals with spontaneous clearance, for HLA-C C1 versus C2, presence of inhibitory and activating KIR genes, and two IL28B SNPs, rs8099917 and rs12979860. All individuals were Europeans or of European descent. IL28B SNP rs8099917 "G" was associated with absence of treatment-induced clearance (odds ratio [OR] 2.19, p = 1.27×10(-8), 1.67-2.88) and absence of spontaneous clearance (OR 3.83, p = 1.71×10(-14), 2.67-5.48) of HCV, as was rs12979860, with slightly lower ORs. The HLA-C C2C2 genotype was also over-represented in patients who failed treatment (OR 1.52, p = 0.024, 1.05-2.20), but was not associated with spontaneous clearance. Prediction of treatment failure improved from 66% with IL28B to 80% using both genes in this cohort (OR 3.78, p = 8.83×10(-6), 2.03-7.04). There was evidence that KIR2DL3 and KIR2DS2 carriage also altered HCV treatment response in combination with HLA-C and IL28B.ConclusionsGenotyping for IL28B, HLA-C, and KIR genes improves prediction of HCV treatment response. These findings support a role for natural killer (NK) cell activation in PegIFN/R treatment-induced clearance, partially mediated by IL28B.

Published

2011

25. Sequential bottlenecks drive viral evolution in early acute hepatitis C virus infection.

Author

Rowena A Bull, Fabio Luciani, Kerensa McElroy, Silvana Gaudieri, Son T Pham, Abha Chopra, Barbara Cameron, Lisa Maher, Gregory J Dore, Peter A White, and Andrew R Lloyd

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Hepatitis C is a pandemic human RNA virus, which commonly causes chronic infection and liver disease. The characterization of viral populations that successfully initiate infection, and also those that drive progression to chronicity is instrumental for understanding pathogenesis and vaccine design. A comprehensive and longitudinal analysis of the viral population was conducted in four subjects followed from very early acute infection to resolution of disease outcome. By means of next generation sequencing (NGS) and standard cloning/Sanger sequencing, genetic diversity and viral variants were quantified over the course of the infection at frequencies as low as 0.1%. Phylogenetic analysis of reassembled viral variants revealed acute infection was dominated by two sequential bottleneck events, irrespective of subsequent chronicity or clearance. The first bottleneck was associated with transmission, with one to two viral variants successfully establishing infection. The second occurred approximately 100 days post-infection, and was characterized by a decline in viral diversity. In the two subjects who developed chronic infection, this second bottleneck was followed by the emergence of a new viral population, which evolved from the founder variants via a selective sweep with fixation in a small number of mutated sites. The diversity at sites with non-synonymous mutation was higher in predicted cytotoxic T cell epitopes, suggesting immune-driven evolution. These results provide the first detailed analysis of early within-host evolution of HCV, indicating strong selective forces limit viral evolution in the acute phase of infection.

Published

2011

26. Constrained pattern of viral evolution in acute and early HCV infection limits viral plasticity.

Author

Katja Pfafferott, Silvana Gaudieri, Axel Ulsenheimer, Ian James, Malte Heeg, David Nolan, Mina John, Andri Rauch, Simon Mallal, Andrew Lucas, Paul Klenerman, Helmut M Diepolder, and Michaela Lucas

Subjects

Medicine, Science

Abstract

Cellular immune responses during acute Hepatitis C virus (HCV) and HIV infection are a known correlate of infection outcome. Viral adaptation to these responses via mutation(s) within CD8+ T-cell epitopes allows these viruses to subvert host immune control. This study examined HCV evolution in 21 HCV genotype 1-infected subjects to characterise the level of viral adaptation during acute and early HCV infection. Of the total mutations observed 25% were within described CD8+ T-cell epitopes or at viral adaptation sites. Most mutations were maintained into the chronic phase of HCV infection (75%). The lack of reversion of adaptations and high proportion of silent substitutions suggests that HCV has structural and functional limitations that constrain evolution. These results were compared to the pattern of viral evolution observed in 98 subjects during a similar phase in HIV infection from a previous study. In contrast to HCV, evolution during acute HIV infection is marked by high levels of amino acid change relative to silent substitutions, including a higher proportion of adaptations, likely reflecting strong and continued CD8+ T-cell pressure combined with greater plasticity of the virus. Understanding viral escape dynamics for these two viruses is important for effective T cell vaccine design.

Published

2011

27. Analysis of FOXP3+ regulatory T cells that display apparent viral antigen specificity during chronic hepatitis C virus infection.

Author

Shuo Li, Stefan Floess, Alf Hamann, Silvana Gaudieri, Andrew Lucas, Margaret Hellard, Stuart Roberts, Geza Paukovic, Magdalena Plebanski, Bruce E Loveland, Campbell Aitken, Simon Barry, Louis Schofield, and Eric J Gowans

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

We reported previously that a proportion of natural CD25(+) cells isolated from the PBMC of HCV patients can further upregulate CD25 expression in response to HCV peptide stimulation in vitro, and proposed that virus-specific regulatory T cells (Treg) were primed and expanded during the disease. Here we describe epigenetic analysis of the FOXP3 locus in HCV-responsive natural CD25(+) cells and show that these cells are not activated conventional T cells expressing FOXP3, but hard-wired Treg with a stable FOXP3 phenotype and function. Of approximately 46,000 genes analyzed in genome wide transcription profiling, about 1% were differentially expressed between HCV-responsive Treg, HCV-non-responsive natural CD25(+) cells and conventional T cells. Expression profiles, including cell death, activation, proliferation and transcriptional regulation, suggest a survival advantage of HCV-responsive Treg over the other cell populations. Since no Treg-specific activation marker is known, we tested 97 NS3-derived peptides for their ability to elicit CD25 response (assuming it is a surrogate marker), accompanied by high resolution HLA typing of the patients. Some reactive peptides overlapped with previously described effector T cell epitopes. Our data offers new insights into HCV immune evasion and tolerance, and highlights the non-self specific nature of Treg during infection.

Published

2009

28. Tracking virus-specific CD4+ T cells during and after acute hepatitis C virus infection.

Author

Michaela Lucas, Axel Ulsenheimer, Katja Pfafferot, Malte H J Heeg, Silvana Gaudieri, Norbert Grüner, Andri Rauch, J Tilman Gerlach, Maria-Christina Jung, Reinhart Zachoval, Gerd R Pape, Winfried Schraut, Teresa Santantonio, Hans Nitschko, Martin Obermeier, Rodney Phillips, Thomas J Scriba, Nasser Semmo, Cheryl Day, Jonathan N Weber, Sarah Fidler, Robert Thimme, Anita Haberstroh, Thomas F Baumert, Paul Klenerman, and Helmut M Diepolder

Subjects

Medicine, Science

Abstract

CD4+ T cell help is critical in maintaining antiviral immune responses and such help has been shown to be sustained in acute resolving hepatitis C. In contrast, in evolving chronic hepatitis C CD4+ T cell helper responses appear to be absent or short-lived, using functional assays.Here we used a novel HLA-DR1 tetramer containing a highly targeted CD4+ T cell epitope from the hepatitis C virus non-structural protein 4 to track number and phenotype of hepatitis C virus specific CD4+ T cells in a cohort of seven HLA-DR1 positive patients with acute hepatitis C in comparison to patients with chronic or resolved hepatitis C. We observed peptide-specific T cells in all seven patients with acute hepatitis C regardless of outcome at frequencies up to 0.65% of CD4+ T cells. Among patients who transiently controlled virus replication we observed loss of function, and/or physical deletion of tetramer+ CD4+ T cells before viral recrudescence. In some patients with chronic hepatitis C very low numbers of tetramer+ cells were detectable in peripheral blood, compared to robust responses detected in spontaneous resolvers. Importantly we did not observe escape mutations in this key CD4+ T cell epitope in patients with evolving chronic hepatitis C.During acute hepatitis C a CD4+ T cell response against this epitope is readily induced in most, if not all, HLA-DR1+ patients. This antiviral T cell population becomes functionally impaired or is deleted early in the course of disease in those where viremia persists.

Published

2007

29. Vertebrate Species Profiling in One Step Using a Single Primer.

Author

Rebecca Laird, Silvana Gaudieri, Jemma Berry, Joseph Williamson, Jui-Sen Yang, and Roger Dawkins

Subjects

FORENSIC sciences, VERTEBRATES, POLYMERASE chain reaction, DNA polymerases, GENE amplification

Abstract

Current species profiling techniques usually require several steps to identify anunknown species in quarantine cases and other forensic applications. Here we havedeveloped a species profiling test that produces unique profiles for all vertebratespecies tested using a single primer in a polymerase chain reaction. Samples testedincluded a range of mammals and other vertebrates such as fish and marsupials; agroup of animals yet to be characterized with molecular speciation techniques.Species-specific profiles were shown to be reproducible and able to be generatedfrom less than 10 ng of total DNA, comparable to DNA quantities used in conventionalspecies profiling techniques. A case study demonstrates the utility of the technique by distinguishing between commercial and protected species of theMacropodidae (kangaroo) superfamily. [ABSTRACT FROM AUTHOR]

Published

2006

30. The impact of visa status and Medicare eligibility on people diagnosed with HIV in Western Australia: a qualitative report.

Author

Herrmann, Susan, Wardrop, Joan, John, Mina, Silvana, Gaudieri, Lucas, Michaela, Mallal, Simon, and Nolan, David

Abstract

The article presents a study which examined the impact of visa status and Medicare eligibility on people diagnosed with HIV in Western Australia. It states that temporary visa holders in Australia are not eligible for Medicare and subsidised antiretroviral drugs. It adds that HIV testing is not required for visas unless applicants want to work in the health sector. It mentions that efforts to ensure that the human rights of HIV-positive people are respected and protected need to be reinforced to make sure that their voices are heard.

Published

2012