Genomics of immune response to typhoid and cholera vaccines

Majumder, Partha P.

doi:10.1098/rstb.2014.0142

Cited by 6 publications

(6 citation statements)

References 43 publications

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“…Supportive evidence includes the intrinsic ability of S. Typhi to down-regulate its own virulence genes to facilitate evasion of human immune signaling pathways [20] and to disrupt host transcription regulation effectively disabling components of the host immune response [21]. Additionally, host characteristics, such as genetic determinants [22,23], prior pathogen exposure [24], and baseline immune cell presence [25] can lead to a muting of immune responses against S. Typhi invasion. In contrast, a murine model using S. Typhimurium has shown that immunity developed after infection does indeed offer protection from a second attack, though this relationship may be specific to the murine host or to the non-typhoid Salmonella pathogen under study [26].…”

Section: Discussionmentioning

confidence: 99%

“…Typhi to down-regulate its own virulence genes to facilitate evasion of human immune signaling pathways [ 20 ] and to disrupt host transcription regulation effectively disabling components of the host immune response [ 21 ]. Additionally, host characteristics, such as genetic determinants [ 22 , 23 ], prior pathogen exposure [ 24 ], and baseline immune cell presence [ 25 ] can lead to a muting of immune responses against S . Typhi invasion.…”

Section: Discussionmentioning

confidence: 99%

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Protection conferred by typhoid fever against recurrent typhoid fever in urban Kolkata

Islam

Kim

et al. 2020

PLoS Negl Trop Dis

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We evaluated the protection conferred by a first documented visit for clinical care of typhoid fever against recurrent typhoid fever prompting a visit. This study takes advantage of multiyear follow-up of a population with endemic typhoid participating in a cluster-randomized control trial of Vi capsular polysaccharide typhoid vaccine in Kolkata, India. A population of 70,566 individuals, of whom 37,673 were vaccinated with one dose of either Vi vaccine or a control (Hepatitis A) vaccine, were observed for four years. Surveillance detected 315 first typhoid visits, among whom 4 developed subsequent typhoid, 3 due to reinfection, defined using genomic criteria and corresponding to-124% (95% CI:-599, 28) protection by the initial illness. Point estimates of protection conferred by an initial illness were negative or negligible in both vaccinated and non-vaccinated subjects, though confidence intervals around the point estimates were wide. These data provide little support for a protective immunizing effect of clinically treated typhoid illness, though modest levels of protection cannot be excluded.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Protection conferred by typhoid fever against recurrent typhoid fever in urban Kolkata

Islam

Kim

et al. 2020

PLoS Negl Trop Dis

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“…"Vaccinomics" encompasses both immunogenomics and immunogenetics as it concerns immune responses to vaccine antigen. 152 The fields of personalized vaccinology and vaccinomics were the products of Phase I of the international HapMap and that of the Human Genome Project. Also, modern molecular assay techniques permitting highthroughput detection of variations at gene level, in particular linkage disequilibrium maps and single nucleotide polymorphism (SNP), played significant roles in the development of personalized vaccinology and vaccinomics.…”

Section: The Subpopulation Levelmentioning

confidence: 99%

“…It has also been shown that polymorphisms at vital immune response genes can bring about differing immune responses to biopharmaceutical products including vaccines. [152][153][154] Newer, accurate, cheap and reproducible sequencing technologies; validated databases containing genotypephenotype data; statistical and bioinformatics tools are needed in order to analyze and interpret data that will help and improve vaccine adverse and immune response quantifiability and predictability. 155 The information will enhance clinical practice and accelerate rational and directed vaccine development.…”

Section: The Subpopulation Levelmentioning

confidence: 99%

<p>Immunoinformatics and Vaccine Development: An Overview</p>

Oli

Obialor

Ifeanyichukwu

et al. 2020

ITT

158

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The use of vaccines have resulted in a remarkable improvement in global health. It has saved several lives, reduced treatment costs and raised the quality of animal and human lives. Current traditional vaccines came empirically with either vague or completely no knowledge of how they modulate our immune system. Even at the face of potential vaccine design advance, immune-related concerns (as seen with specific vulnerable populations, cases of emerging/reemerging infectious disease, pathogens with complex lifecycle and antigenic variability, need for personalized vaccinations, and concerns for vaccines' immunological safety -specifically vaccine likelihood to trigger non-antigen-specific responses that may cause autoimmunity and vaccine allergy) are being raised. And these concerns have driven immunologists toward research for a better approach to vaccine design that will consider these challenges. Currently, immunoinformatics has paved the way for a better understanding of some infectious disease pathogenesis, diagnosis, immune system response and computational vaccinology. The importance of this immunoinformatics in the study of infectious diseases is diverse in terms of computational approaches used, but is united by common qualities related to host-pathogen relationship. Bioinformatics methods are also used to assign functions to uncharacterized genes which can be targeted as a candidate in vaccine design and can be a better approach toward the inclusion of women that are pregnant into vaccine trials and programs. The essence of this review is to give insight into the need to focus on novel computational, experimental and computation-driven experimental approaches for studying of host-pathogen interactions and thus making a case for its use in vaccine development.

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“…The potential for these studies to identify molecular mechanisms of vaccine response and implications for a personalized approach to vaccination are explored. This theme is taken up in the article from Majumder [37], which presents the findings from a study of single nucleotide polymorphisms (SNPs) in regions encoding close to 300 candidate genes and their association with antibody response following administration of injected polysaccharide typhoid vaccine or oral inactivated, whole-cell cholera vaccine. A small number of distinct SNPs are shown to be separately rstb.royalsocietypublishing.org Phil.…”

Section: Human Genetic and Environmental Determinants Of Vaccine Respmentioning

confidence: 99%

Biological challenges to effective vaccines in the developing world

Grassly

Kang

Kampmann

2015

Phil. Trans. R. Soc. B

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One contribution of 15 to a discussion meeting issue 'Biological challenges to effective vaccines in the developing world'. The reason for holding a meeting to discuss biological challenges to vaccines is simple: not all vaccines work equally well in all settings. This special issue reviews the performance of vaccines in challenging environments, summarizes current thinking on the reasons why vaccines underperform and considers what approaches are necessary to understand the heterogeneity in responses and to improve vaccine immunogenicity and efficacy.

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Genomics of immune response to typhoid and cholera vaccines

Cited by 6 publications

References 43 publications

Protection conferred by typhoid fever against recurrent typhoid fever in urban Kolkata

Protection conferred by typhoid fever against recurrent typhoid fever in urban Kolkata

<p>Immunoinformatics and Vaccine Development: An Overview</p>

Biological challenges to effective vaccines in the developing world

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