Your search keyword '"immune selection"' showing total 162 results

1. MHC/HLA Class-I Loss and Cancer Immune Escape

Author

Garrido, Federico and Garrido, Federico

Published

2024

2. Broad vaccine protection against Neisseria meningitidis using factor H binding protein

Author

Findlow, Jamie, Bayliss, Christopher D, Beernink, Peter T, Borrow, Ray, Liberator, Paul, and Balmer, Paul

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Clinical Research, Biotechnology, Immunization, Prevention, Vaccine Related, 3.4 Vaccines, Prevention of disease and conditions, and promotion of well-being, Infection, Antigens, Bacterial, Bacterial Proteins, Carrier Proteins, Complement Factor H, Humans, Meningococcal Infections, Meningococcal Vaccines, Neisseria meningitidis, Neisseria meningitidis, Serogroup B, Factor H binding protein, Meningococcal serogroup B vaccine, Immune selection, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Biomedical and clinical sciences, Health sciences

Abstract

Neisseria meningitidis, the causative agent of invasive meningococcal disease (IMD), is classified into different serogroups defined by their polysaccharide capsules. Meningococcal serogroups A, B, C, W, and Y are responsible for most IMD cases, with serogroup B (MenB) causing a substantial percentage of IMD cases in many regions. Vaccines using capsular polysaccharides conjugated to carrier proteins have been successfully developed for serogroups A, C, W, and Y. However, because the MenB capsular polysaccharide is poorly immunogenic, MenB vaccine development has focused on alternative antigens. The 2 currently available MenB vaccines (MenB-4C and MenB-FHbp) both include factor H binding protein (FHbp), a surface-exposed protein harboured by nearly all meningococcal isolates that is important for survival of the bacteria in human blood. MenB-4C contains a nonlipidated FHbp from subfamily B in addition to other antigens, including Neisserial Heparin Binding Antigen, Neisserial adhesin A, and outer membrane vesicles, whereas MenB-FHbp contains a lipidated FHbp from each subfamily (A and B). FHbp is highly immunogenic and a main target of bactericidal activity of antibodies elicited by both licensed MenB vaccines. FHbp is also an important vaccine component, in contrast to some other meningococcal antigens that may have limited cross-protection across strains, as FHbp-specific antibodies can provide broad cross-protection within each subfamily. Limited cross-protection between subfamilies necessitates the inclusion of FHbp variants from both subfamilies to achieve broad FHbp-based vaccine coverage. Additionally, immune responses to the lipidated form of FHbp have a superior cross-reactive profile to those elicited by the nonlipidated form. Taken together, the inclusion of lipidated FHbp variants from both FHbp subfamilies is expected to provide broad protection against the diverse disease-causing meningococcal strains expressing a wide range of FHbp sequence variants. This review describes the development of vaccines for MenB disease prevention, with a focus on the FHbp antigen.

Published

2020

3. Commonly Elicited Antibodies against the Base of the HIV-1 Env Trimer Guide the Population-Level Evolution of a Structure-Regulating Region in gp41.

Author

Rojas Chávez, Roberth Anthony, Boyt, Devlin, Schwery, Nathan, Changze Han, Li Wu, and Haim, Hillel

Subjects

*HIV, *MONOCLONAL antibodies, *VIRAL proteins, *ANTIBODY formation, *BINDING site assay, *IMMUNOGLOBULINS, *GLYCOPROTEINS

Abstract

The antibody response against the HIV-1 envelope glycoproteins (Envs) guides evolution of this protein within each host. Whether antibodies with similar target specificities are elicited in different individuals and affect the population-level evolution of Env is poorly understood. To address this question, we analyzed properties of emerging variants in the gp41 fusion peptide-proximal region (FPPR) that exhibit distinct evolutionary patterns in HIV-1 clade B. For positions 534, 536, and 539 in the FPPR, alanine was the major emerging variant. However, 534A and 536A show a constant frequency in the population between 1979 and 2016, whereas 539A is gradually increasing. To understand the basis for these differences, we introduced alanine substitutions in the FPPR of primary HIV-1 strains and examined their functional and antigenic properties. Evolutionary patterns could not be explained by fusion competence or structural stability of the emerging variants. Instead, 534A and 536A exhibited modest but significant increases in sensitivity to antibodies against the membrane-proximal external region (MPER) and gp120-gp41 interface. These Envs were also more sensitive to poorly neutralizing sera from HIV-1-infected individuals than the clade ancestral form or 539A variant. Competition binding assays confirmed for all sera tested the presence of antibodies against the base of the Env trimer that compete with monoclonal antibodies targeting the MPER and gp120-gp41 interface. Our findings suggest that weakly neutralizing antibodies against the trimer base are commonly elicited; they do not exert catastrophic population size reduction effects on emerging variants but, instead, determine their set point frequencies in the population and historical patterns of change. IMPORTANCE Infection by HIV-1 elicits formation of antibodies that target the viral Env proteins and can inactivate the virus. The specific targets of these antibodies vary among infected individuals. It is unclear whether some target specificities are shared among the antibody responses of different individuals. We observed that antibodies against the base of the Env protein are commonly elicited during infection. The selective pressure applied by such antibodies is weak. As a result, they do not completely eliminate the sensitive forms of the virus from the population, but maintain their frequency at a low level that has not increased since the beginning of the AIDS pandemic. Interestingly, the changes in Env do not occur at the sites targeted by the antibodies, but at a distinct region of Env, the fusion peptide-proximal region, which regulates their exposure. [ABSTRACT FROM AUTHOR]

Published

2022

4. Age-dependent heterogeneity in the antigenic effects of mutations to influenza hemagglutinin.

Author

Welsh, Frances C., Eguia, Rachel T., Lee, Juhye M., Haddox, Hugh K., Galloway, Jared, Van Vinh Chau, Nguyen, Loes, Andrea N., Huddleston, John, Yu, Timothy C., Quynh Le, Mai, Nhat, Nguyen T.D., Thi Le Thanh, Nguyen, Greninger, Alexander L., Chu, Helen Y., Englund, Janet A., Bedford, Trevor, Matsen IV, Frederick A., Boni, Maciej F., and Bloom, Jesse D.

Abstract

Human influenza virus evolves to escape neutralization by polyclonal antibodies. However, we have a limited understanding of how the antigenic effects of viral mutations vary across the human population and how this heterogeneity affects virus evolution. Here, we use deep mutational scanning to map how mutations to the hemagglutinin (HA) proteins of two H3N2 strains, A/Hong Kong/45/2019 and A/Perth/16/2009, affect neutralization by serum from individuals of a variety of ages. The effects of HA mutations on serum neutralization differ across age groups in ways that can be partially rationalized in terms of exposure histories. Mutations that were fixed in influenza variants after 2020 cause greater escape from sera from younger individuals compared with adults. Overall, these results demonstrate that influenza faces distinct antigenic selection regimes from different age groups and suggest approaches to understand how this heterogeneous selection shapes viral evolution. [Display omitted] • Measure how mutations to influenza hemagglutinin affect neutralization by human sera • Compare antigenic effects of mutations on sera from individuals of different ages • Evolution of virus appears to be especially driven by sera from teenagers Welsh et al. measured how mutations to H3N2 influenza hemagglutinin affected neutralization by sera from individuals of different age groups. The mutations that affected neutralization varied among age groups. During its natural evolution, the H3N2 influenza virus especially acquires mutations that escape neutralization by sera from teenagers. [ABSTRACT FROM AUTHOR]

Published

2024

5. HLA Class-I Expression and Cancer Immunotherapy

Author

Garrido, Federico, COHEN, IRUN R., Editorial Board Member, LAJTHA, ABEL, Editorial Board Member, LAMBRIS, JOHN D., Editorial Board Member, PAOLETTI, RODOLFO, Editorial Board Member, REZAEI, NIMA, Editorial Board Member, and Garrido, Federico

Published

2019

6. Comparison of the protective antigen variabilities of prevalent Newcastle disease viruses in response to homologous/heterologous genotype vaccines

Author

Yonghua Li, Zaib Ur Rehman, Mengjiao Li, Zahid Manzoor, Wei Liu, Xusheng Qiu, Yingjie Sun, Ying Liao, Lei Tan, Cuiping Song, Weiwei Liu, Shengqing Yu, Chan Ding, and Chunchun Meng

Subjects

Newcastle disease virus, HN gene, F gene, immune selection, genetic variation, Animal culture, SF1-1100

Abstract

ABSTRACT: The genotype VII Newcastle disease virus (NDV) vaccine has begun to replace the traditional genotype II NDV vaccine and is widely used in the commercial poultry of China. However, the effect of homologous and heterogeneous anti-NDV serum on the evolution of prevalent NDV is unknown. To understand the effect of genotype II and VII anti-NDV serum on the evolution of genotype VII NDV strains, ZJ1 (waterfowl origin) and CH/SD/2008/128 (ND128; chicken origin) were used for serial passage of 30 generations in DF-1 cells without anti-NDV serum or with genotype II and VII anti-NDV serum independently. The F and HN genes of the 2 viruses were amplified for the 10th, 20th, and 30th generations of each serial passage group and compared with their respective original viruses. We found that there was only one mutation at position 248 in the F gene of ZJ1 due to the serum pressure of genotype VII anti-NDV. Similarly, mutations at residue 527 of the F gene, and position 9 and 319 of the HN gene of ND128 were noted in both anti-NDV serum groups. The results show that the nonsynonymous (NS)-to-synonymous (S) ratio of the F gene of ZJ1 virus was 1.6, and for the HN gene, it was 2.5 in the anti-II serum group. In the anti-VII serum group, the NS/S ratio for the F gene was 2.1, and for the HN gene, it was 2.5. The NS/S ratio of the F gene of the ND128 virus was 0.8, and for the HN gene, it was 3 in the anti-II serum group. Furthermore, the NS/S ratio of the F gene was 0.8, and the HN gene was 2.3 in the anti-VII group. Taken together, our findings highlight that there was no significant difference in the variation of protective antigens in genotype VII NDV under the selection pressure of homologous and heterogeneous genotype NDV inactivated vaccines.

Published

2021

7. Structural patterns of selection and diversity for Plasmodium vivax antigens DBP and AMA1

Author

Andrew J. Guy, Vashti Irani, Jack S. Richards, and Paul A. Ramsland

Subjects

Plasmodium vivax, Protein structure, Immune selection, Malaria, Population genetics, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Plasmodium vivax is a significant contributor to the global malaria burden, and a vaccine targeting vivax malaria is urgently needed. An understanding of the targets of functional immune responses during the course of natural infection will aid in the development of a vaccine. Antibodies play a key role in this process, with responses against particular epitopes leading to immune selection pressure on these epitopes. A number of techniques exist to estimate levels of immune selection pressure on particular epitopes, with a sliding window analysis often used to determine particular regions likely to be under immune pressure. However, such analysis neglects protein three-dimensional structural information. With this in mind, a newly developed tool, BioStructMap, was applied to two key antigens from Plasmodium vivax: PvAMA1 and PvDBP Region II. This tool incorporates structural information into tests of selection pressure. Results Sequences from a number of populations were analysed, examining spatially-derived nucleotide diversity and Tajima’s D over protein structures for PvAMA1 and PvDBP. Structural patterns of nucleotide diversity were similar across all populations examined, with Domain I of PvAMA1 having the highest nucleotide diversity and displaying significant signatures of immune selection pressure (Tajima’s D > 0). Nucleotide diversity for PvDBP was highest bordering the dimerization and DARC-binding interface, although there was less evidence of immune selection pressure on PvDBP compared with PvAMA1. This study supports previous work that has identified Domain I as the main target of immune-mediated selection pressure for PvAMA1, and also supports studies that have identified functional epitopes within PvDBP Region II. Conclusions The BioStructMap tool was applied to leading vaccine candidates from P. vivax, to examine structural patterns of selection and diversity across a number of geographic populations. There were striking similarities in structural patterns of diversity across multiple populations. Furthermore, whilst regions of high diversity tended to surround conserved binding interfaces, a number of protein regions with very low diversity were also identified, and these may be useful targets for further vaccine development, given previous evidence of functional antibody responses against these regions.

Published

2018

8. PNH phenotypes and their genesis.

Author

Luzzatto, Lucio

Subjects

*PAROXYSMAL hemoglobinuria, *PHENOTYPES, *ERYTHROCYTES

Abstract

Keywords: aplastic anemia; immune selection; paroxysmal nocturnal haemoglobinuria; somatic mutations EN aplastic anemia immune selection paroxysmal nocturnal haemoglobinuria somatic mutations 802 805 4 06/08/20 20200601 NES 200601 The phrase I Paroxysmale Hämoglobinurie i was coined in 1882 by Paul Strübing (Strübing, [30]), to describe an acquired haemolytic anaemia that seemed to have unique features [the adjective I nocturnal i was added later (Enneking, [7]): rather unfortunately, since paroxysms can occur at any time of the day or night]. In most of these cases, the provisional diagnosis was probably aplastic anaemia (AA) - the fact that flow cytometry analysis was requested is positive evidence of increasing awareness about the close link between AA and PNH. ([24] B ) b now show that the distribution of the quantity of GPI-negative (PNH-like) blood cells in over 1000 patients with AA and PNH, over a range from 0-1% to over 90%, is a continuum. GLO:1XW/01jun20:bjh16473-fig-0001.jpg PHOTO (COLOR): 1 Flow cytometry helps to understand the pathogenesis of aplastic anaemia (AA) and of paroxysmal nocturnal haemoglobinuria (PNH). [Extracted from the article]

Published

2020

9. Coevolution of Sites under Immune Selection Shapes Epstein–Barr Virus Population Structure.

Author

Wegner, Fanny, Lassalle, Florent, Depledge, Daniel P, Balloux, François, and Breuer, Judith

Abstract

Epstein–Barr virus (EBV) is one of the most common viral infections in humans and persists within its host for life. EBV therefore represents an extremely successful virus that has evolved complex strategies to evade the host's innate and adaptive immune response during both initial and persistent stages of infection. Here, we conducted a comparative genomics analysis on 223 whole genome sequences of worldwide EBV strains. We recover extensive genome-wide linkage disequilibrium (LD) despite pervasive genetic recombination. This pattern is explained by the global EBV population being subdivided into three main subpopulations, one primarily found in East Asia, one in Southeast Asia and Oceania, and the third including most of the other globally distributed genomes we analyzed. Additionally, sites in LD were overrepresented in immunogenic genes. Taken together, our results suggest that host immune selection and local adaptation to different human host populations has shaped the genome-wide patterns of genetic diversity in EBV. [ABSTRACT FROM AUTHOR]

Published

2019

10. An optimized IS-APCPSO algorithm for large scale complex traffic network.

Author

Huang, Ke, Zhang, Hao Lan, and Yang, Gelan

Subjects

*PARTICLE swarm optimization, *CONSTRAINT programming, *MATHEMATICAL optimization, *ALGORITHMS

Abstract

Chaotic particle swarm optimization algorithm is improved by incorporating antibody concentration, adaptive propagation, optimization mechanism of the multi-population evolution strategy, elite particles chaotic traversal mechanism and constraint processing mechanism. In this paper, an improved adaptive propagation chaotic particle swarm optimization algorithm based on immune selection (IS-APCPSO algorithm for short) is proposed. The performance of several algorithms has been compared by multimodal function, functions with high dimensional and complex constraints, bi-level programming function and a classic example of traffic network optimization. The experimental results prove that the proposed algorithm in accelerating convergence rate, increasing the diversity of particles, and preventing premature phenomenon is effective. The novel algorithm is expected to be used in the model solution of large-scale complex traffic network optimization problem. [ABSTRACT FROM AUTHOR]

Published

2019

11. Influence of Respiratory Syncytial Virus Strain Differences on Pathogenesis and Immunity

Author

Melero, José A., Moore, Martin L., Compans, Richard W, Series editor, Cooper, Max D., Series editor, Gleba, Yuri Y., Series editor, Honjo, Tasuku, Series editor, Melchers, Fritz, Series editor, Oldstone, Michael B. A., Series editor, Vogt, Peter K., Series editor, Malissen, Bernard, Series editor, Aktories, Klaus, Series editor, Kawaoka, Yoshihiro, Series editor, Rappuoli, Rino, Series editor, Galan, Jorge E., Series editor, Anderson, Larry J., editor, and Graham, Barney S., editor

Published

2013

12. Antigenic Variation in Giardia

Author

Nash, Theodore E., Luján, Hugo D., editor, and Svärd, Staffan, editor

Published

2011

13. Multiscale Immune Selection and the Transmission-Diversity Feedback in Antigenically Diverse Pathogen Systems.

Author

Holding, Thomas, Valletta, John Joseph, and Recker, Mario

Subjects

*IMMUNITY, *ANTIGENIC variation, *MICROBIAL diversity, *INFECTIOUS disease transmission, *PLASMODIUM falciparum

Abstract

Antigenic diversity is commonly used by pathogens to enhance their transmission success. Within-host clonal antigenic variation helps to maintain long infectious periods, whereas high levels of allelic diversity at the population level significantly expand the pool of susceptible individuals. Diversity, however, is not necessarily a static property of a pathogen population but in many cases is generated by the very act of infection and transmission, and it is therefore expected to respond dynamically to changes in transmission and immune selection. We hypothesized that this coupling creates a positive feedback whereby infection and disease transmission promote the generation of diversity, which itself facilitates immune evasion and further infections. To investigate this link in more detail, we considered the human malaria parasite Plasmodium falciparum , one of the most important antigenically diverse pathogens. We developed an individual-based model in which antigenic diversity emerges as a dynamic property from the underlying transmission processes. Our results show that the balance between stochastic extinction and the generation of new antigenic variants is intrinsically linked to within-host and between-host immune selection. This in turn determines the level of diversity that can be maintained in a given population. Furthermore, the transmission-diversity feedback can lead to temporal lags in the response to natural or intervention-induced perturbations in transmission rates. Our results therefore have important implications for monitoring and assessing the effectiveness of disease control efforts. [ABSTRACT FROM AUTHOR]

Published

2018

14. Amino Acid Substitutions within HLA-B*27-Restricted T Cell Epitopes Prevent Recognition by Hepatitis Delta Virus-Specific CD8+ T Cells.

Author

Karimzadeh, Hadi, Kiraithe, Muthamia M., Kosinska, Anna D., Glaser, Manuel, Fiedler, Melanie, Oberhardt, Valerie, Alizei, Elahe Salimi, Hofmann, Maike, Juk Yee Mok, Nguyen, Melanie, van Esch, Wim J. E., Budeus, Bettina, Grabowski, Jan, Homs, Maria, Olivero, Antonella, Keyvani, Hossein, Rodríguez-Frías, Francisco, Tabernero, David, Buti, Maria, and Heinold, Andreas

Subjects

*AMINO acids, *T cells, *EPITOPES, *HEPATITIS D virus, *CD4 antigen

Abstract

Virus-specific CD8 T cell response seems to play a significant role in the outcome of hepatitis delta virus (HDV) infection. However, the HDV-specific T cell epitope repertoire and mechanisms of CD8 T cell failure in HDV infection have been poorly characterized. We therefore aimed to characterize HDV-specific CD8 T cell epitopes and the impacts of viral mutations on immune escape. In this study, we predicted peptide epitopes binding the most frequent human leukocyte antigen (HLA) types and assessed their HLA binding capacities. These epitopes were characterized in HDV-infected patients by intracellular gamma interferon (IFN-γ) staining. Sequence analysis of large hepatitis delta antigen (L-HDAg) and HLA typing were performed in 104 patients. The impacts of substitutions within epitopes on the CD8 T cell response were evaluated experimentally and by in silico studies. We identified two HLA-B*27-restricted CD8 T cell epitopes within L-HDAg. These novel epitopes are located in a relatively conserved region of L-HDAg. However, we detected molecular footprints within the epitopes in HLA-B*27-positive patients with chronic HDV infections. The variant peptides were not cross-recognized in HLA-B*27-positive patients with resolved HDV infections, indicating that the substitutions represent viral escape mutations. Molecular modeling of HLA-B*27 complexes with the L-HDAg epitope and its potential viral escape mutations indicated that the structural and electrostatic properties of the bound peptides differ considerably at the T cell receptor interface, which provides a possible molecular explanation for the escape mechanism. This viral escape from the HLA-B*27-restricted CD8 T cell response correlates with a chronic outcome of hepatitis D infection. T cell failure resulting from immune escape may contribute to the high chronicity rate in HDV infection. IMPORTANCE Hepatitis delta virus (HDV) causes severe chronic hepatitis, which affects 20 million people worldwide. Only a small number of patients are able to clear the virus, possibly mediated by a virus-specific T cell response. Here, we performed a systematic screen to define CD8 epitopes and investigated the role of CD8 T cells in the outcome of hepatitis delta and how they fail to eliminate HDV. Overall the number of epitopes identified was very low compared to other hepatotropic viruses. We identified, two HLA-B*27-restricted epitopes in patients with resolved infections. In HLA-B*27-positive patients with chronic HDV infections, however, we detected escape mutations within these identified epitopes that could lead to viral evasion of immune responses. These findings support evidence showing that HLA-B*27 is important for virus-specific CD8 T cell responses, similar to other viral infections. These results have implications for the clinical prognosis of HDV infection and for vaccine development. [ABSTRACT FROM AUTHOR]

Published

2018

15. Role of Altered Expression of HLA Class I Molecules in Cancer Progression

Author

Aptsiauri, Natalia, Cabrera, Teresa, Mendez, Rosa, Garcia-Lor, Angel, Ruiz-Cabello, Francisco, Garrido, Federico, Shurin, Michael R., editor, and Smolkin, Yuri S., editor

Published

2007

16. Diversity and dynamism of IgA−microbiota interactions

Author

Charisse Petersen, Kelsey E. Huus, and B. Brett Finlay

Subjects

0301 basic medicine, History, media_common.quotation_subject, Context (language use), Biology, medicine.disease, Computer Science Applications, Education, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Antigenic Specificity, Overnutrition, Bacterial colonization, Immune selection, Intestinal mucosa, Evolutionary biology, medicine, Dynamism, 030215 immunology, Diversity (politics), media_common

Abstract

IgA mediates microbial homeostasis at the intestinal mucosa. Within the gut, IgA acts in a context-dependent manner to both prevent and promote bacterial colonization and to influence bacterial gene expression, thus providing exquisite control of the microbiota. IgA-microbiota interactions are highly diverse across individuals and populations, yet the factors driving this variation remain poorly understood. In this Review, we summarize evidence for the host, bacterial and environmental factors that influence IgA-microbiota interactions. Recent advances have helped to clarify the antigenic specificity and immune selection of intestinal IgA and have highlighted the importance of microbial glycan recognition. Furthermore, emerging evidence suggests that diet and nutrition play an important role in shaping IgA recognition of the microbiota. IgA-microbiota interactions are disrupted during both overnutrition and undernutrition and may be altered dynamically in response to diet, with potential implications for host health. We situate this research in the context of outstanding questions and future directions in order to better understand the fascinating paradigm of IgA-microbiota homeostasis.

Published

2021

17. Broad vaccine protection against Neisseria meningitidis using factor H binding protein

Author

Paul A. Liberator, Jamie Findlow, Ray Borrow, Paul Balmer, Peter T. Beernink, and Christopher D. Bayliss

Subjects

and promotion of well-being, Subfamily, Neisseria meningitidis, Neisseria meningitidis, Serogroup B, medicine.disease_cause, Medical and Health Sciences, 0302 clinical medicine, 030212 general & internal medicine, biology, Bacterial, Biological Sciences, Infectious Diseases, 3.4 Vaccines, Complement Factor H, Molecular Medicine, Immune selection, Antibody, Infection, Bacterial outer membrane, Biotechnology, Serogroup B, 030231 tropical medicine, Meningococcal Vaccines, Article, Microbiology, Vaccine Related, 03 medical and health sciences, Immune system, Bacterial Proteins, Antigen, Clinical Research, Virology, medicine, Humans, Antigens, Antigens, Bacterial, Agricultural and Veterinary Sciences, General Veterinary, General Immunology and Microbiology, Prevention, Binding protein, Public Health, Environmental and Occupational Health, Prevention of disease and conditions, Meningococcal Infections, Bacterial adhesin, Meningococcal serogroup B vaccine, biology.protein, Immunization, Factor H binding protein, Carrier Proteins

Abstract

Neisseria meningitidis, the causative agent of invasive meningococcal disease (IMD), is classified into different serogroups defined by their polysaccharide capsules. Meningococcal serogroups A, B, C, W, and Y are responsible for most IMD cases, with serogroup B (MenB) causing a substantial percentage of IMD cases in many regions. Vaccines using capsular polysaccharides conjugated to carrier proteins have been successfully developed for serogroups A, C, W, and Y. However, because the MenB capsular polysaccharide is poorly immunogenic, MenB vaccine development has focused on alternative antigens. The 2 currently available MenB vaccines (MenB-4C and MenB-FHbp) both include factor H binding protein (FHbp), a surface-exposed protein harboured by nearly all meningococcal isolates that is important for survival of the bacteria in human blood. MenB-4C contains a nonlipidated FHbp from subfamily B in addition to other antigens, including Neisserial Heparin Binding Antigen, Neisserial adhesin A, and outer membrane vesicles, whereas MenB-FHbp contains a lipidated FHbp from each subfamily (A and B). FHbp is highly immunogenic and a main target of bactericidal activity of antibodies elicited by both licensed MenB vaccines. FHbp is also an important vaccine component, in contrast to some other meningococcal antigens that may have limited cross-protection across strains, as FHbp-specific antibodies can provide broad cross-protection within each subfamily. Limited cross-protection between subfamilies necessitates the inclusion of FHbp variants from both subfamilies to achieve broad FHbp-based vaccine coverage. Additionally, immune responses to the lipidated form of FHbp have a superior cross-reactive profile to those elicited by the nonlipidated form. Taken together, the inclusion of lipidated FHbp variants from both FHbp subfamilies is expected to provide broad protection against the diverse disease-causing meningococcal strains expressing a wide range of FHbp sequence variants. This review describes the development of vaccines for MenB disease prevention, with a focus on the FHbp antigen.

Published

2020

18. Applying Unique Molecular Identifiers in Next Generation Sequencing Reveals a Constrained Viral Quasispecies Evolution under Cross-Reactive Antibody Pressure Targeting Long Alpha Helix of Hemagglutinin

Author

Nastasja C. Hauck, Josiane Kirpach, Christina Kiefer, Sophie Farinelle, Sophie Maucourant, Stephen A. Morris, William Rosenberg, Feng Q. He, Claude P. Muller, and I-Na Lu

Subjects

influenza, next generation sequencing, unique molecular identifiers, virus evolution, immune selection, immune pressure, bottleneck effect, vaccine, Microbiology, QR1-502

Abstract

To overcome yearly efforts and costs for the production of seasonal influenza vaccines, new approaches for the induction of broadly protective and long-lasting immune responses have been developed in the past decade. To warrant safety and efficacy of the emerging crossreactive vaccine candidates, it is critical to understand the evolution of influenza viruses in response to these new immune pressures. Here we applied unique molecular identifiers in next generation sequencing to analyze the evolution of influenza quasispecies under in vivo antibody pressure targeting the hemagglutinin (HA) long alpha helix (LAH). Our vaccine targeting LAH of hemagglutinin elicited significant seroconversion and protection against homologous and heterologous influenza virus strains in mice. The vaccine not only significantly reduced lung viral titers, but also induced a well-known bottleneck effect by decreasing virus diversity. In contrast to the classical bottleneck effect, here we showed a significant increase in the frequency of viruses with amino acid sequences identical to that of vaccine targeting LAH domain. No escape mutant emerged after vaccination. These results not only support the potential of a universal influenza vaccine targeting the conserved LAH domains, but also clearly demonstrate that the well-established bottleneck effect on viral quasispecies evolution does not necessarily generate escape mutants.

Published

2018

19. Core Protein Evolution After Selection of Hepatitis B Precore Mutants and Correlation with Disease Severity

Author

Carman, William F., McIntyre, Graham, Hadziyannis, Stephanos, Fattovich, Giovanna, Alberti, Alfredo, Thomas, Howard C., Nishioka, K., editor, Suzuki, H., editor, Mishiro, S., editor, and Oda, T., editor

Published

1994

20. Selection patterns of B-cell receptors and the natural history of follicular lymphoma.

Author

Scherer, Florian, Burgt, Marlon, Kiełbasa, Szymon M., Bertinetti ‐ Lapatki, Cristina, Dühren von Minden, Marcus, Mikesch, Kristina, Zirlik, Katja, Wreede, Liesbeth, Veelken, Hendrik, and Navarrete, Marcelo A.

Subjects

*LYMPHOMAS, *IMMUNOGLOBULIN class switching, *B cell receptors, *PROGNOSIS, *BIOMARKERS

Abstract

The article focuses on immunoglobulin class switch recombination (CSR) of B-cell receptors (BCR) in follicular lymphoma (FL), particularly on the impact of class switching on a more aggressive FL. Topics discussed include procedure observed in BCR selection, prognostic significance of N-glycosylation sites found in most FL, and BCR as a stable immunobiological feature of FL.

Published

2016

21. Generation of MHC class I diversity in primary tumors and selection of the malignant phenotype.

Author

Garrido, Federico, Romero, Irene, Aptsiauri, Natalia, and Garcia‐Lora, Angel M.

Abstract

Intratumor heterogeneity among cancer cells is promoted by reversible or irreversible genetic alterations and by different microenvironmental factors. There is considerable experimental evidence of the presence of a variety of malignant cell clones with a wide diversity of major histocompatibility class I (MHC-I) expression during early stages of tumor development. This variety of MHC-I phenotypes may define the evolution of a particular tumor. Loss of MHC-I molecules frequently results in immune escape of MHC-negative or -deficient tumor cells from the host T cell-mediated immune response. We review here the results obtained by our group and other researchers in animal models and humans, showing how MHC-I intratumor heterogeneity may affect local oncogenicity and metastatic progression. In particular, we summarize the data obtained in an experimental mouse cancer model of a methylcholanthrene-induced fibrosarcoma (GR9), in which isolated clones with different MHC-I expression patterns demonstrated distinct local tumor growth rates and metastatic capacities. The observed "explosion of diversity" of MHC-I phenotypes in primary tumor clones and the molecular mechanism ("hard"/irreversible or "soft"/reversible) responsible for a given MHC-I alteration might determine not only the metastatic capacity of the cells but also their response to immunotherapy. We also illustrate the generation of further MHC heterogeneity during metastatic colonization and discuss different strategies to favor tumor rejection by counteracting MHC-I loss. Finally, we highlight the role of MHC-I genes in tumor dormancy and cell cycle control. [ABSTRACT FROM AUTHOR]

Published

2016

22. In Vivo and In Vitro Selection of Equine Infectious Anemia Virus Variants

Author

Carpenter, Susan, Evans, Leonard H., Sevoian, Martin, Chesebro, Bruce, Kurstak, Edouard, editor, Marusyk, R. G., editor, Murphy, F. A., editor, and Van Regenmortel, M. H. V., editor

Published

1990

23. Coevolution of Sites under Immune Selection Shapes Epstein–Barr Virus Population Structure

Author

Daniel P. Depledge, Florent Lassalle, Fanny Wegner, Judith Breuer, and Francois Balloux

Subjects

Linkage disequilibrium, Population, Biology, 0601 Biochemistry and Cell Biology, Genetic recombination, Genome, Virus, virus-host coevolution, Epstein–Barr virus, 03 medical and health sciences, 0302 clinical medicine, 0603 Evolutionary Biology, Genetics, education, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Discoveries, 030304 developmental biology, Comparative genomics, Evolutionary Biology, 0604 Genetics, 0303 health sciences, education.field_of_study, Genetic diversity, immune selection, Acquired immune system, 3. Good health, 030220 oncology & carcinogenesis, linkage disequilibrium

Abstract

Epstein–Barr virus (EBV) is one of the most common viral infections in humans and persists within its host for life. EBV therefore represents an extremely successful virus that has evolved complex strategies to evade the host’s innate and adaptive immune response during both initial and persistent stages of infection. Here, we conducted a comparative genomics analysis on 223 whole genome sequences of worldwide EBV strains. We recover extensive genome-wide linkage disequilibrium (LD) despite pervasive genetic recombination. This pattern is explained by the global EBV population being subdivided into three main subpopulations, one primarily found in East Asia, one in Southeast Asia and Oceania, and the third including most of the other globally distributed genomes we analyzed. Additionally, sites in LD were overrepresented in immunogenic genes. Taken together, our results suggest that host immune selection and local adaptation to different human host populations has shaped the genome-wide patterns of genetic diversity in EBV.

Published

2019

24. Mutations associated with occult hepatitis B in HIV-positive South Africans.

Author

Powell, Eleanor A., Gededzha, Maemu P., Rentz, Michael, Rakgole, Nare J., Selabe, Selokela G., Seleise, Tebogo A., Mphahlele, M. Jeffrey, and Blackard, Jason T.

Abstract

Occult hepatitis B is characterized by the absence of hepatitis B surface antigen (HBsAg) but the presence of HBV DNA. Because diagnosis of hepatitis B virus (HBV) typically includes HBsAg detection, occult HBV remains largely undiagnosed. Occult HBV is associated with increased risk of hepatocellular carcinoma, reactivation to chronic HBV during immune suppression, and transmission during blood transfusion and liver transplant. The mechanisms leading to occult HBV infection are unclear, although viral mutations are likely a significant factor. In this study, sera from 394 HIV-positive South Africans were tested for HBV DNA and HBsAg. For patients with detectable HBV DNA, the overlapping surface and polymerase open reading frames (ORFs) were sequenced. Occult-associated mutations-those mutations found exclusively in individuals with occult HBV infection but not in individuals with chronic HBV infection from the same cohort or GenBank references-were identified. Ninety patients (22.8%) had detectable HBV DNA. Of these, 37 had detectable HBsAg, while 53 lacked detectable surface antigen. The surface and polymerase ORFs were cloned successfully for 19 patients with chronic HBV and 30 patients with occult HBV. In total, 235 occult-associated mutations were identified. Ten occult-associated mutations were identified in more than one patient. Additionally, 15 amino acid positions had two distinct occult-associated mutations at the same residue. Occult-associated mutations were common and present in all regions of the surface and polymerase ORFs. Further study is underway to determine the effects of these mutations on viral replication and surface antigen expression in vitro. J. Med. Virol. 87:388-400, 2015. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

25. Immune selection of tumor cells in TCR β-chain transgenic mice.

Author

Silaeva, Yulia Yu., Grinenko, Tatyana S., Vagida, Murad S., Kalinina, Anastasia A., Khromykh, Ludmila M., and Kazansky, Dmitry B.

Subjects

*TOLL-like receptors, *CANCER invasiveness, *CANCER cell proliferation, *LABORATORY mice, *LYMPHOCYTES, *MAJOR histocompatibility complex

Abstract

The concept of immunological surveillance implies that immunogenic variants of tumor cells arising in the organism can be recognized by the immune system. Tumor progression is provided by somatic evolution of tumor cells under the pressure of the immune system. The loss of MHC Class I molecules on the surface of tumor cells is one of the most known outcomes of immune selection. This study developed a model of immune selection based on the immune response of TCR 1d1 single β-chain transgenic B10.D2(R101) (KdIdDb) mice to allogeneic EL4 (H-2b) thymoma cells. In wild-type B10.D2(R101) mice, immunization with EL4 cells induced a vigorous CTL response targeted to the H-2Kb molecule and results in full rejection of the tumor cells. In contrast, transgenic mice developed a compromised proliferative response in mixed-lymphocyte response assays and were unable to reject transplanted allogeneic EL4 cells. During the immune response to EL4 cells, CD8+ T-lymphocytes with endogenous β-chains accumulated predominantly in the spleen of transgenic mice and only a small part of the T-lymphocytes expressing transgenic β-chains became CD8+CD44+CD62L− effectors. Then, instead of a full elimination of tumor cells as in wild-type mice, a reproducible prolonged equilibrium phase and subsequent escape was observed in transgenic mice that resulted in death of 90% of the mice in 40-60 days after grafting. Prolonged exposure of tumor cells to the pressure of the immune system in transgenic mice in vivo resulted in a stable loss of H-2Kb molecules on the EL4 cell surface. Genetic manipulation of the T-lymphocyte repertoire was sufficient to reproduce the classic pattern of interactions between tumor cells and the immune system, usually observed in reliable syngeneic models of anti-tumor immunity. This newly-developed model could be used in further studies of immunoregulatory circuits common for transplantational and anti-tumor immune responses. [ABSTRACT FROM AUTHOR]

Published

2014

26. Population structuring of multi-copy, antigen-encoding genes in Plasmodium falciparum

Author

Yael Artzy-Randrup, Mary M Rorick, Karen Day, Donald Chen, Andrew P Dobson, and Mercedes Pascual

Subjects

parasite population structure, epidemiological dynamic, antigenic diversity, immune selection, Plasmodium falciparum, var multi-gene family, Medicine, Science, Biology (General), QH301-705.5

Abstract

The coexistence of multiple independently circulating strains in pathogen populations that undergo sexual recombination is a central question of epidemiology with profound implications for control. An agent-based model is developed that extends earlier ‘strain theory’ by addressing the var gene family of Plasmodium falciparum. The model explicitly considers the extensive diversity of multi-copy genes that undergo antigenic variation via sequential, mutually exclusive expression. It tracks the dynamics of all unique var repertoires in a population of hosts, and shows that even under high levels of sexual recombination, strain competition mediated through cross-immunity structures the parasite population into a subset of coexisting dominant repertoires of var genes whose degree of antigenic overlap depends on transmission intensity. Empirical comparison of patterns of genetic variation at antigenic and neutral sites supports this role for immune selection in structuring parasite diversity.

Published

2012

27. Mathematics and malaria

Author

Prabhat Jha

Subjects

parasite population structure, epidemiological dynamic, antigenic diversity, immune selection, Plasmodium falciparum, var multi-gene family, Medicine, Science, Biology (General), QH301-705.5

Abstract

Populations of malaria parasites are strongly influenced by their interactions with human immunity, and a better understanding of these interactions can help to explain why the risks from this potentially lethal disease vary according to location and age.

Published

2012

28. Structural patterns of selection and diversity for Plasmodium vivax antigens DBP and AMA1

Author

Jack S. Richards, Vashti Irani, Andrew J. Guy, and Paul A. Ramsland

Subjects

0301 basic medicine, lcsh:Arctic medicine. Tropical medicine, Population genetics, lcsh:RC955-962, 030231 tropical medicine, Plasmodium vivax, Antigens, Protozoan, Epitope, Nucleotide diversity, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, Antigen, Malaria, Vivax, lcsh:RC109-216, Selection, Genetic, Apical membrane antigen 1, Selection (genetic algorithm), Natural selection, biology, Research, Genetic Variation, biology.organism_classification, 3. Good health, Malaria, 030104 developmental biology, Infectious Diseases, Evolutionary biology, Protein structure, Parasitology, Immune selection

Abstract

Background Plasmodium vivax is a significant contributor to the global malaria burden, and a vaccine targeting vivax malaria is urgently needed. An understanding of the targets of functional immune responses during the course of natural infection will aid in the development of a vaccine. Antibodies play a key role in this process, with responses against particular epitopes leading to immune selection pressure on these epitopes. A number of techniques exist to estimate levels of immune selection pressure on particular epitopes, with a sliding window analysis often used to determine particular regions likely to be under immune pressure. However, such analysis neglects protein three-dimensional structural information. With this in mind, a newly developed tool, BioStructMap, was applied to two key antigens from Plasmodium vivax: PvAMA1 and PvDBP Region II. This tool incorporates structural information into tests of selection pressure. Results Sequences from a number of populations were analysed, examining spatially-derived nucleotide diversity and Tajima’s D over protein structures for PvAMA1 and PvDBP. Structural patterns of nucleotide diversity were similar across all populations examined, with Domain I of PvAMA1 having the highest nucleotide diversity and displaying significant signatures of immune selection pressure (Tajima’s D > 0). Nucleotide diversity for PvDBP was highest bordering the dimerization and DARC-binding interface, although there was less evidence of immune selection pressure on PvDBP compared with PvAMA1. This study supports previous work that has identified Domain I as the main target of immune-mediated selection pressure for PvAMA1, and also supports studies that have identified functional epitopes within PvDBP Region II. Conclusions The BioStructMap tool was applied to leading vaccine candidates from P. vivax, to examine structural patterns of selection and diversity across a number of geographic populations. There were striking similarities in structural patterns of diversity across multiple populations. Furthermore, whilst regions of high diversity tended to surround conserved binding interfaces, a number of protein regions with very low diversity were also identified, and these may be useful targets for further vaccine development, given previous evidence of functional antibody responses against these regions. Electronic supplementary material The online version of this article (10.1186/s12936-018-2324-3) contains supplementary material, which is available to authorized users.

Published

2018

29. An ordeal that does not heal: understanding barriers to a cure for HIV-1 infection.

Author

Lichterfeld M, Gao C, and Yu XG

Subjects

CD4-Positive T-Lymphocytes, Humans, Proviruses, Virus Latency, HIV Infections drug therapy, HIV-1

Abstract

With more than 38 million people living with HIV-1 (PLWH) worldwide, developing a cure for HIV-1 remains a major global health priority. Lifelong persistence of HIV-1 is frequently attributed to a pool of stable, transcriptionally silent HIV-1 proviruses, which are unaffected by currently available antiretroviral therapy (ART) or host immune activity. In this opinion article, we propose a more dynamic interpretation of HIV-1 reservoir cell biology and argue that HIV-1 proviruses frequently display residual viral transcriptional activity, making them vulnerable to longitudinal immune-mediated selection processes. Such mechanisms may, over extended periods of ART, induce an attenuated viral reservoir profile characterized by intact proviruses preferentially integrated into heterochromatin locations. We suggest that intensifying and accelerating naturally occurring selection mechanisms might represent a promising strategy for finding a potential cure for HIV-1 infection., Competing Interests: Declaration of interests The authors have no interests to declare., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

30. HLA antigen and NK cell activating ligand expression in malignant cells: a story of loss or acquisition.

Author

Campoli, Michael and Ferrone, Soldano

Subjects

*HLA histocompatibility antigens, *LIGANDS (Biochemistry), *KILLER cells, *CANCER treatment, *IMMUNE system

Abstract

Malignant transformation of cells is often associated with changes in classical and non-classical HLA class I antigen, HLA class II antigen as well as NK cell activating ligand (NKCAL) expression. These changes are believed to play a role in the clinical course of the disease since these molecules are critical to the interactions between tumor cells and components of both innate and adaptive immune system. For some time, it has been assumed that alterations in the expression profile of HLA antigens and NKCAL on malignant cells represented loss of classical HLA class I antigen and induction of HLA class II antigen, non-classical HLA class I antigen and/or NKCAL expression. In contrast to these assumptions, experimental evidence suggests that in some cases dysplastic and malignant cells can acquire classical HLA class I antigen expression and/or lose the ability to express HLA class II antigens. In light of the latter findings as well as of the revival of the cancer immune surveillance theory, a reevaluation of the interpretation of changes in HLA antigen and NKCAL expression in malignant lesions is warranted. In this article, we first briefly describe the conventional types of changes in HLA antigen and NKCAL expression that have been identified in malignant cells to date. Second, we discuss the evidence indicating that, in at least some cell types, classical HLA class I antigen expression can be acquired and/or the ability to express HLA class II antigens is lost. Third, we review the available evidence for the role of immune selective pressure in the generation of malignant lesions with changes in HLA antigen expression. This information contributes to our understanding of the role of the immune system in the control of tumor development and to the optimization of the design of immunotherapeutic strategies for the treatment of cancer. [ABSTRACT FROM AUTHOR]

Published

2011

31. Epitope variation in the Newcastle disease virus HN gene under antibody immune selective pressure in cell culture.

Author

Gong, YanYan and Cui, ZhiZhong

Abstract

The influence of antibody immune selective pressure on Newcastle disease virus (NDV) HN and F gene mutations was studied in cell cultures. NDV field strain TZ060107 was inoculated into chicken embryo fibroblast cells and continuously passaged with (group A) or without (group B) anti-NDV monospecific serum. Each group contained three independent passage series. HN and F genes were amplified and sequenced for the 10th, 20th, 30th, 40th and 50th generations of each serial passage, and compared with the original strain. The results demonstrated that increased HN gene mutations were observed in group A with the antibody than in group B without the antibody. The nonsynonymous (NS) to synonymous (S) mutations ratio was 6 for group A, significantly higher than 3.4 in group B. In group A with the antibody, there were five stable NS mutations in HN gene, three of which (related to aa#353, 521 and 568) were related to known epitopes. There were two stable NS mutations in F gene in group A, but no stable NS mutations in group B. The NS/S ratios of F gene were less than 2.5 for both groups A and B. Our results suggested that the antibody strongly influenced HN gene mutations, while the F gene was less influenced by the same antibody. [ABSTRACT FROM AUTHOR]

Published

2011

32. Testing the theory of immune selection in cancers that break the rules of transplantation.

Author

Fassati, Ariberto and Mitchison, N. Avrion

Subjects

*CANCER cells, *TUMORS, *IMMUNE system, *IMMUNOLOGY, *BIOCHEMISTRY

Abstract

Modification of cancer cells likely to reduce their immunogenicity, including loss or down-regulation of MHC molecules, is now well documented and has become the main support for the concept of immune surveillance. The evidence that these modifications, in fact, result from selection by the immune system is less clear, since the possibility that they may result from reorganized metabolism associated with proliferation or from cell de-differentiation remains. Here, we (a) survey old and new transplantation experiments that test the possibility of selection and (b) survey how transmissible tumours of dogs and Tasmanian devils provide naturally evolved tests of immune surveillance. [ABSTRACT FROM AUTHOR]

Published

2010

33. Immune Selection

Author

Rédei, George P.

Published

2008

34. Comparison of the protective antigen variabilities of prevalent Newcastle disease viruses in response to homologous/heterologous genotype vaccines

Author

Mengjiao Li, Yingjie Sun, Chan Ding, Zahid Manzoor, Wei Liu, Cuiping Song, Ying Liao, Li Yonghua, Lei Tan, Zaib Ur Rehman, Shengqing Yu, Chunchun Meng, Xusheng Qiu, and Weiwei Liu

Subjects

China, animal structures, Genotype, F gene, Newcastle Disease, animal diseases, viruses, Newcastle disease virus, medicine.disease_cause, SF1-1100, Newcastle disease, Virus, 03 medical and health sciences, Antigen, Serial passage, IMMUNOLOGY, HEALTH AND DISEASE, Genetic variation, medicine, Animals, Gene, Poultry Diseases, 030304 developmental biology, 0303 health sciences, Mutation, biology, immune selection, HN gene, 0402 animal and dairy science, Viral Vaccines, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, 040201 dairy & animal science, Virology, Animal culture, genetic variation, embryonic structures, Animal Science and Zoology, Chickens

Abstract

The genotype VII Newcastle disease virus (NDV) vaccine has begun to replace the traditional genotype II NDV vaccine and is widely used in the commercial poultry of China. However, the effect of homologous and heterogeneous anti-NDV serum on the evolution of prevalent NDV is unknown. To understand the effect of genotype II and VII anti-NDV serum on the evolution of genotype VII NDV strains, ZJ1 (waterfowl origin) and CH/SD/2008/128 (ND128; chicken origin) were used for serial passage of 30 generations in DF-1 cells without anti-NDV serum or with genotype II and VII anti-NDV serum independently. The F and HN genes of the 2 viruses were amplified for the 10th, 20th, and 30th generations of each serial passage group and compared with their respective original viruses. We found that there was only one mutation at position 248 in the F gene of ZJ1 due to the serum pressure of genotype VII anti-NDV. Similarly, mutations at residue 527 of the F gene, and position 9 and 319 of the HN gene of ND128 were noted in both anti-NDV serum groups. The results show that the nonsynonymous (NS)-to-synonymous (S) ratio of the F gene of ZJ1 virus was 1.6, and for the HN gene, it was 2.5 in the anti-II serum group. In the anti-VII serum group, the NS/S ratio for the F gene was 2.1, and for the HN gene, it was 2.5. The NS/S ratio of the F gene of the ND128 virus was 0.8, and for the HN gene, it was 3 in the anti-II serum group. Furthermore, the NS/S ratio of the F gene was 0.8, and the HN gene was 2.3 in the anti-VII group. Taken together, our findings highlight that there was no significant difference in the variation of protective antigens in genotype VII NDV under the selection pressure of homologous and heterogeneous genotype NDV inactivated vaccines.

Published

2021

35. Different evolutionary pathways of HIV-1 between fetus and mother perinatal transmission pairs indicate unique immune selection in fetuses

Author

Feng Gao, Xiaojun Li, Sallie R. Permar, Liping Feng, Amit Kumar, David R. Martinez, Joshua J. Tu, Michael Mengual, Elena E. Giorgi, Ethan Romero-Severson, and Manukumar Honnayakanahalli Marichannegowda

Subjects

Adult, Adolescent, Placenta, viruses, Mothers, HIV Infections, Article, General Biochemistry, Genetics and Molecular Biology, Cell Line, in utero transmission, Young Adult, Fetus, Immune system, Neutralization Tests, Pregnancy, Humans, Nucleotide Motifs, Gene, Phylogeny, Selection (genetic algorithm), Genetics, Base Sequence, biology, Phylogenetic tree, immune selection, Infant, Newborn, env Gene Products, Human Immunodeficiency Virus, Genetic Variation, Acquired immune system, Biological Evolution, Infectious Disease Transmission, Vertical, mother to child transmission, Viral evolution, Host-Pathogen Interactions, HIV-1, biology.protein, Female, neonate, Antibody, signature

Abstract

Summary Study of evolution and selection pressure on HIV-1 in fetuses will lead to a better understanding of the role of immune responses in shaping virus evolution and vertical transmission. Detailed genetic analyses of HIV-1 env gene from 12 in utero transmission pairs show that most infections (67%) occur within 2 months of childbirth. In addition, the env sequences from long-term-infected fetuses are highly divergent and form separate phylogenetic lineages from their cognate maternal viruses. Host-selection sites unique to neonate viruses are identified in regions frequently targeted by neutralizing antibodies and T cell immune responses. Identification of unique selection sites in the env gene of fetal viruses indicates that the immune system in fetuses is capable of exerting selection pressure on viral evolution. Studying selection and evolution of HIV-1 or other viruses in fetuses can be an alternative approach to investigate adaptive immunity in fetuses., Graphical abstract, Highlights Most in utero HIV-1 transmission occurs within 2 months of childbirth The HIV-1 env gene sequences from long-term-infected fetuses are highly divergent Selection sites unique to fetal viruses are found in regions targeted by immunity Presence of selection sites indicates active adaptive immune responses in fetuses, Marichannegowda et al. find that in utero transmission of HIV-1 usually occurs within 2 months of childbirth. Analysis of the env gene sequences from long-term-infected fetuses identifies host-selection signatures that are unique to viruses in infants, suggesting that the fetal immune system can exert selection pressure on viral evolution.

Published

2021

36. Role of Cytotoxic T-Lymphocyte—Mediated Immune Selection in a Dominant Human Leu kocyte Antigen- B8—Restricted Cytotoxic 1-Lymphocyte Epitope in Nef.

Author

Maurer, Katja, Harrer, Ellen G., Goldwich, Andreas, Eismann, Kathrin, Bergmann, Silke, Schmitt-Haendle, Matthias, Spriewald, Bernd, Mueller, Sandra M., and Harrer, Thomas

Subjects

*HIV infections, *T cells, *HLA histocompatibility antigens, *EPITOPES, *GENETIC mutation

Abstract

The article discusses a study which examines the role of cytotoxic T-lymphocyte (CTL) escape for disease progression in HIV-1 infection. The CTL response to a dominant human leukocyte antigen-B8-restricted CTL epitope in HIV-1 Nef was investigated. The study demonstrates a strong CTL selection pressure on the immunodominant HLA-B8-restricted CTL epitope. The association of the epitope mutations with lower CD4 cell counts indicates an important role of CTL escape mutations disease progression.

Published

2008

37. Immune selection during chronic hepadnavirus infection.

Author

Mason, William, Litwin, Sam, and Jilbert, Allison

Abstract

Late-stage outcomes of chronic hepatitis B virus (HBV) infection, including fibrosis, cirrhosis, and hepatocellular carcinoma (HCC) result from persistent liver injury mediated by HBV antigen specific cytotoxic T lymphocytes (CTLs). Two other outcomes that often accompany chronic infection, the emergence of mutant viruses, including HBe-antigen negative (HBeAg (−)) HBV, and a reduction over time in the fraction of hepatocytes productively infected with HBV, may also result from persistent immune attack by antiviral CTLs. To gain insights into how these latter changes take place, we employed computer simulations of the chronically infected liver. Computational programs were used to model the emergence of both virus-free hepatocytes and mutant strains of HBV. The computer modeling predicted that if cell-to-cell spread of virus is an efficient process during chronic infections, an HBV mutant that replicated significantly more efficiently than the wild type would emerge as the prevalent virus in a few years, much more rapidly than observed, while a mutant that replicated with the same or lower efficiency would fail to emerge. Thus, either cell-to-cell spread is inefficient or mutants do not replicate appreciably more efficiently than wild type. In contrast, with immune selection and a higher rate of killing of hepatocytes infected with wild-type virus, emergence of mutant virus can be explained without the need for a higher replication rate. Immune selection could also explain the emergence of virus-free hepatocytes that are unable to support HBV infection, since they should have a lower turnover rate than infected hepatocytes. [ABSTRACT FROM AUTHOR]

Published

2008

38. More effective purifying selection on RNA viruses than in DNA viruses

Author

Hughes, Austin L. and Hughes, Mary Ann K.

Subjects

*RNA viruses, *DNA viruses, *NUCLEIC acids, *MICROORGANISMS

Abstract

Abstract: Analysis of the pattern of nucleotide diversity in 222 independent viral sequence datasets showed the prevalence of purifying selection. In spite of the higher mutation rate of RNA viruses, our analyses revealed stronger evidence of the action of purifying selection in RNA viruses than in DNA viruses. The ratio of nonsynonymous to synonymous nucleotide diversity was significantly lower in RNA viruses than in DNA viruses, indicating that nonsynonymous mutations have been removed at a greater rate (relative to the mutation rate) in the former than in the latter. Moreover, statistics that measure the occurrence of rare polymorphisms revealed significantly a greater excess of rare nonsynonymous polymorphisms in RNA viruses than in DNA viruses but no difference with respect to synonymous polymorphisms. Since rare nonsynonymous polymorphisms are likely to be undergoing the effects of purifying selection acting to eliminate them, this result implies a stronger signature of ongoing purifying selection in RNA viruses than in DNA viruses. Across datasets from both DNA viruses and RNA viruses, we found a negatively allometric relationship between nonsynonymous and synonymous nucleotide diversity; in other words, nonsynonymous nucleotide diversity increased with synonymous nucleotide diversity at a less than linear rate. These findings are most easily explained by the occurrence of slightly deleterious mutations. The fact that the negative allometry was more pronounced in RNA viruses than in DNA viruses provided additional evidence that purifying selection is more effective in the former than in the latter. [Copyright &y& Elsevier]

Published

2007

39. Hepatocyte turnover in transient and chronic hepadnavirus infections.

Author

Mason, W. S., Litwin, S., Xu, C., and Jilbert, A. R.

Subjects

*LIVER cells, *HEPATITIS viruses, *HEPATITIS B virus, *HEPATITIS B, *VIRAL hepatitis, *LEUCOCYTES, *LYMPHOCYTES, *LIVER diseases

Abstract

Hepatocyte turnover appears to be an important feature in the resolution of transient and progression of chronic hepadnavirus infections. Hepatocyte death, initiated through attack by antiviral cytotoxic T-lymphocytes (CTL), and compensatory hepatocyte proliferation, are both believed to be major contributing factors in the loss of virus DNA during immune resolution of transient infections. Noncytopathic curing of hepatocytes is also suggested to occur, though this mechanism does not prevent the death of large numbers of hepatocytes. Hepatocyte death, proliferation and curing are also important features of chronic infections, though the outcomes are different. In particular, immune selection due to persistent attack by antiviral CTL is thought to play a role in the emergence of hepatocytes infected with mutant strains of hepatitis B virus (HBV) (e.g. HBV e antigen-negative strains) and in the emergence of hepatocytes that appear refractory to HBV infection. In both instances, clonal expansion of subpopulations of hepatocytes may be inferred to have taken place. Interestingly, foci of altered hepatocytes and hepatocellular carcinomas (HCC) typically do no support virus replication. Thus, immune selection of hepatocytes by antiviral CTL, by inducing clonal expansion, may also play an important role in the progression to HCC. In this review, we discuss the evidence in support of roles for hepatocyte turnover in the resolution of transient and progression of chronic HBV infections. [ABSTRACT FROM AUTHOR]

Published

2007

40. Positively Selected Codons in Immune-Exposed Loops of the Vaccine Candidate OMP-P1 of Haemophilus influenzae.

Author

Mes, Ted H. M. and Van Putten, Jos P. M.

Subjects

*EPITOPES, *HAEMOPHILUS influenzae, *POLYPROPYLENE, *ESCHERICHIA coli, *HOMOLOGY (Biology), *GENETICS

Abstract

The high levels of variation in surface epitopes can be considered as an evolutionary hallmark of immune selection. New computational tools enable analysis of this variation by identifying codons that exhibit high rates of amino acid changes relative to the synonymous substitution rate. In the outer membrane protein P1 of Haemophilus influenzae, a vaccine candidate for nontypeable strains, we identified four codons with this attribute in domains that did not correspond to known or assumed B- and T-cell epitopes of OMP-P1. These codons flank hypervariable domains and do not appear to be false positives as judged from parsimony and maximum likelihood analyses. Some closely spaced positively selected codons have been previously considered part of a transmembrane domain, which would render this region unsuited for inclusion in a vaccine. Secondary structure analysis, three-dimensional structural database searches, and homology modeling using FadL of E. coli as a structural homologue, however, revealed that all positively selected codons are located in or near extracellular looping domains. The spacing and level of diversity of these positively selected and exposed codons in OMP-P1 suggest that vaccine targets based on these and conserved flanking residues may provide broad coverage in H. influenzae. [ABSTRACT FROM AUTHOR]

Published

2007

41. Immune selective pressure and HLA class I antigen defects in malignant lesions.

Author

Chang, Chien-Chung and Ferrone, Soldano

Subjects

*CELL tumors, *IMMUNE system, *IMMUNOTHERAPY, *HUMAN abnormality genetics, *HLA histocompatibility antigens, *MHC antibodies, *T cells

Abstract

The revived cancer immune surveillance theory has emphasized the active role the immune system plays in eliminating tumor cells and in facilitating the emergence of their immunoresistant variants. MHC class I molecule abnormalities represent, at least in part, the molecular phenotype of these escape variants, given the crucial role of MHC class I molecules in eliciting tumor antigen-specific T cell responses, the high frequency of HLA class I antigen abnormalities in malignant lesions and their association with a poor clinical course of the disease. Here, we present evidence for this possibility and review the potential mechanisms by which T cell selective pressure participates in the generation of tumor cells with MHC class I molecule defects. Furthermore, we discuss the strategies to counteract tumor cell immune evasion. [ABSTRACT FROM AUTHOR]

Published

2007

42. Cross resistance of melanoma to trail-induced apoptosis and chemotherapy.

Author

Zhang, Xu Dong, Wu, Jing Jing, Gillespie, Susan, Borrow, Jodie, and Hersey, Peter

Subjects

NEUROENDOCRINE tumors, APOPTOSIS, DRUG therapy, MELANOMA

Abstract

Abstract: Melanoma is frequently resistant to a wide range of chemotherapeutic and biologic agents. In its early stages, it is also very immunogenic and gives rise to both T cell and antibody responses. Killing of melanoma by T cells involves induction of apoptosis through the mitochondrial pathway and shares common apoptotic pathways to that induced by chemotherapy. We considered it was therefore possible that prolonged exposure to the immune system may generate escape variants that are resistant to apoptosis induced by the immune system or by chemotherapy. This hypothesis was tested by generating melanoma cells that were resistant to TNF-related apoptosis inducing ligand (TRAIL), which is one of the mediators of apoptosis used by the immune system. Melanoma cells selected in this way were found to be resistant to apoptosis induced by cisplatin, vincristine and a histone deacetylase inhibitor. Melanoma cells resistant to these agents had low levels of pro-apoptotic Bcl-2 (BH3 only) proteins and high levels of activated ERK1/2 and Akt signal pathways. Inhibition of the latter pathways partially overcame some of the resistance to the chemotherapy agents but not to TRAIL. These results support the view that selection by the immune system may in part be responsible for resistance of melanoma to some chemotherapy commonly used against melanoma. Further study of the resistant mechanisms involved may provide insights into new treatment approaches in melanoma. [Copyright &y& Elsevier]

Published

2006

43. Molecular analysis of light-chain switch and acute lymphoblastic leukemia transformation in two follicular lymphomas: Implications for lymphomagenesis.

Author

Kobrin, Carol, Cha, Soung-Chul, Qin, Hong, Raffeld, Mark, Fend, Falko, Quintanilla-Martinez, Leticia, Grove, Sheldon, Jaffe, Elaine S., and Kwak, Larry W.

Subjects

*IMMUNOGLOBULINS, *RECEPTOR antibodies, *ANTI-idiotypic vaccines, *IMMUNE response, *LYMPHOBLASTIC leukemia

Abstract

We observed novel transformations of follicular lymphoma (FL), first, a switch in immunoglobulin (Ig) light chain, and second, transformation of FL to acute lymphoblastic leukemia (ALL). Each set of tumors shared a common clonal origin, as demonstrated by expression of identical, unique CDR IIIH sequences, shared somatic mutations in J H , and identical bcl-2 translocation breakpoints of microdissected ALL cells. Molecular analysis of lambda V-gene expression demonstrated lambda-bearing cells in the original kappa tumor, while expansion of the lambda subclone at relapse occurred after active immunotherapy targeting the Ig receptor. These exceptional cases are compatible with a more contemporary model of lymphomagenesis in which critical events originate from genetic mechanisms which normally occur in germinal center (GC) B cells and challenge the current paradigm of parallel generation of subclones from an early, pre-GC precursor. It is also possible that the outgrowth of these variants was a consequence of immunoselection. [ABSTRACT FROM AUTHOR]

Published

2006

44. Theileria parva and the bovine CTL response: down but not out?

Author

McKeever, D. J.

Subjects

*THEILERIA parva, *TICK-borne diseases in animals, *CATTLE parasites, *LYMPHOCYTES, *ERYTHROCYTES, *IMMUNITY

Abstract

Theileria parva is a tick-borne intracellular protozoan of cattle, with obligate sequential differentiation stages in lymphocytes and erythrocytes. Immunity is mediated by cytotoxic T lymphocytes (CTL) that target and clear parasitized lymphocytes but allow persistence of infected erythrocytes, which are required for transmission to the tick. The life cycle of T. parva is haploid with the exception of a brief diploid stage in the tick vector during which sexual recombination occurs. There is evidence for antigenic diversity in field parasite populations, although broad immunity can be acquired following exposure to a limited number of strains. The CTL response in individual animals is tightly focused and its specificity is strongly influenced by major histocompatibility complex (MHC) phenotype. This review discusses the issue of how CTL immunity is likely to impact on parasite population structure in the light of available information on diversity of the parasite and its ability to recombine. [ABSTRACT FROM AUTHOR]

Published

2006

45. Virus evolution within patients increases pathogenicity

Author

Iwasa, Yoh, Michor, Franziska, and Nowak, Martin A.

Subjects

*HEPATITIS C virus, *HIV infections, *LENTIVIRUS diseases, *HIV

Abstract

Viruses like the human immunodeficiency virus (HIV), the hepatitis B virus (HBV), the hepatitis C virus (HCV) and many others undergo numerous rounds of inaccurate reproduction within an infected host. The resulting viral quasispecies is heterogeneous and sensitive to any selection pressure. Here we extend earlier work by showing that for a wide class of models describing the interaction between the virus population and the immune system, virus evolution has a well-defined direction toward increased pathogenicity. In particular, we study virus-induced impairment of the immune response and certain cross-reactive stimulation of specific immune responses. For eight different mathematical models, we show that virus evolution reduces the equilibrium abundance of uninfected cells and increases the rate at which uninfected cells are infected. Thus, in general, virus evolution makes things worse. An idea for combating HIV infection, however, is constructing a virus mutant that could outcompete the existing infection without being pathogenic itself. [Copyright &y& Elsevier]

Published

2005

46. Some basic properties of immune selection

Author

Iwasa, Yoh, Michor, Franziska, and Nowak, Martin

Subjects

*IMMUNITY, *MECHANICS (Physics), *EQUILIBRIUM, *IMMUNOLOGY

Abstract

We analyze models for the evolutionary dynamics of viral or other infectious agents within a host. We study how the invasion of a new strain affects the composition and diversity of the viral population. We show that—under strain-specific immunity—the equilibrium abundance of uninfected cells declines during viral evolution. In addition, for cytotoxic immunity the absolute force of infection, and for non-cytotoxic immunity the absolute cellular virulence increases during viral evolution. We prove global stability by means of Lyapunov functions. These unidirectional trends of virus evolution under immune selection do not hold for general cross-reactive immune responses, which introduce frequency-dependent selection among viral strains. Therefore, appropriate cross-reactive immunity can lead to a viral evolution within a host which limits the extent of the disease. [Copyright &y& Elsevier]

Published

2004

47. Positive and negative selection during B lymphocyte development.

Author

Monroe, John, Bannish, Gregory, Fuentes-Panana, Ezequiel, King, Leslie, Sandel, Peter, Chung, James, and Sater, Richard

Abstract

Our laboratory is interested in a variety of issues related to lymphocyte development. More specifically, we have focused on the processes that regulate the decision to commit to the B lymphocyte (B cell) lineage, then the subsequent signals that are involved in maintaining this commitment to the B cell lineage. These signals result in the positive selection of those B cells that properly execute the complex genetic changes associated with B cell development, then trigger the elimination of B cells that are responsive to self-antigens and, therefore, possess the potential to mediate autoimmune disease. Our general experimental approach has been to address these issues from the perspective of signal transduction. Our goal is to define the biochemical and genetic processes that are integrated in order to accomplish these selection processes. To do so, we employ in vivo animal models as well as more defined in vitro studies, using both primary and transformed cell lines. For the past several years, we have been primarily interested in the precise mechanisms by which the B cell antigen receptor (BCR), and intermediate forms of this receptor, regulate these complex developmental processes. We have used the ongoing studies described below as two representative examples of how we are approaching these issues and some of the insights that we have made. To place both of these studies in context, we will begin with a brief introduction into B cell development. [ABSTRACT FROM AUTHOR]

Published

2003

48. Variable Immune-Driven Natural Selection in the Attachment (G) Glycoprotein of Respiratory Syncytial Virus (RSV).

Author

Woelk, Christopher H. and Holmes, Edward C.

Subjects

NATURAL selection, BIOLOGICAL evolution, HEREDITY, BIOLOGICAL variation, PARAMYXOVIRUSES, RESPIRATORY syncytial virus, MEMBRANE proteins, EPITOPES, G proteins

Abstract

A maximum-likelihood analysis of selection pressures acting on the attachment (G) glycoprotein gene of respiratory syncytial virus (RSV) from humans (HRSV) and bovines (BRSV) is presented. Six positively selected sites were identified in both group A and group B of HRSV, although only one site was common between them, while no positively selected sites were detected in BRSV. All positively selected sites were located within the ectodomain of the G protein and showed some association with positions of immunoglobulin (Ig) epitopes and sites of O-glycosylation. These results suggest that immune (antibody)-driven natural selection is an important determinant of RSV evolution and that this selection pressure differs among strains. The passage histories of RSV strains were also shown to affect the distribution of positively selected sites, particularly in HRSV B, and should be considered whenever retrospective analysis of adaptive evolution is undertaken. [ABSTRACT FROM AUTHOR]

Published

2001

49. PNH phenotypes and their genesis

Author

Lucio Luzzatto

Subjects

business.industry, Hemoglobinuria, Paroxysmal, Anemia, Aplastic, Hematology, medicine.disease, Flow Cytometry, Phenotype, Immunophenotyping, Immune selection, Immunology, Medicine, Humans, Paroxysmal nocturnal haemoglobinuria, Aplastic anemia, business

Published

2019

50. Quantifying immune-based counterselection of somatic mutations

Author

Hidewaki Nakagawa, Frederick P. Roth, Dae-Kyum Kim, Shuto Hayashi, Lincoln D. Stein, Fan Yang, and Seiya Imoto

Subjects

Cancer Research, Physiology, Somatic cell, medicine.medical_treatment, Protein Expression, Gene Expression, QH426-470, medicine.disease_cause, Biochemistry, Major Histocompatibility Complex, 0302 clinical medicine, Immune Physiology, Medicine and Health Sciences, Genetics (clinical), Genetics, Antigen Presentation, 0303 health sciences, Mutation, Immune System Proteins, biology, integumentary system, 3. Good health, Gene types, Immune selection, 030220 oncology & carcinogenesis, Research Article, Immunology, Antigen presentation, Mutation, Missense, MHC class I genes, Research and Analysis Methods, Major histocompatibility complex, 03 medical and health sciences, Immune system, Germline mutation, Antigen, Antigens, Neoplasm, Gene Expression and Vector Techniques, medicine, Humans, Antigens, Allele, Molecular Biology Techniques, Molecular Biology, Gene, Alleles, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Molecular Biology Assays and Analysis Techniques, Histocompatibility Antigens Class I, MHC Class I Gene, Biology and Life Sciences, Proteins, Cancer, Immunotherapy, medicine.disease, Genetic Loci, biology.protein, Somatic Mutation, Clinical Immunology, Clinical Medicine, Peptides, 030217 neurology & neurosurgery

Abstract

Somatic mutations in protein-coding regions can generate ‘neoantigens’ causing developing cancers to be eliminated by the immune system. Quantitative estimates of the strength of this counterselection phenomenon have been lacking. We quantified the extent to which somatic mutations are depleted in peptides that are predicted to be displayed by major histocompatibility complex (MHC) class I proteins. The extent of this depletion depended on expression level of the neoantigenic gene, and on whether the patient had one or two MHC-encoding alleles that can display the peptide, suggesting MHC-encoding alleles are incompletely dominant. This study provides an initial quantitative understanding of counter-selection of identifiable subclasses of neoantigenic somatic variation., Author summary Cancer immunotherapy and personalized cancer vaccines depend on clearance of cancer and pre-cancer cells by the immune system. However, little is known about the strength of this phenomenon as it acts on the cell populations which give rise to tumors. Here we provide an initial quantitative estimate of the fraction of neo-antigen-containing cells in this population that are cleared by the MHC class I-dependent immune system. The impacts of both neo-antigenic gene expression and the number of neo-antigen-displaying MHC alleles on this clearance phenomenon were examined. A more complete understanding of immune clearance of neoantigenic cells and how this phenomenon varies between patients and cancers, has the potential to guide immunotherapy and cancer vaccines.

Published

2019