Luisanna Zedda scite author profile

Immune responses to vaccination are tested in clinical trials. This process usually requires years especially when immune memory and persistence are analyzed. Markers able to quickly predict the immune response would be very useful, particularly when dealing with emerging diseases that require a rapid response, such as avian influenza. To address this question we vaccinated healthy adults at days 1, 22, and 202 with plain or MF59-adjuvanted H5N1 subunit vaccines and tested both cell-mediated and antibody responses up to day 382. Only the MF59-H5N1 vaccine induced high titers of neutralizing antibodies, a large pool of memory H5N1-specific B lymphocytes, and H5-CD4 ؉ T cells broadly reactive with drifted H5. The CD4 ؉ response was dominated by IL-2 ؉ IFN-␥ ؊ IL-13 ؊ T cells. Remarkably, a 3-fold increase in the frequency of virus-specific total CD4 ؉ T cells, measurable after 1 dose, accurately predicted the rise of neutralizing antibodies after booster immunization and their maintenance 6 months later. We suggest that CD4 ؉ T cell priming might be used as an early predictor of the immunogenicity of prepandemic vaccines.H5N1 influenza vaccine ͉ MF59 adjuvant ͉ prepandemic vaccination ͉ immune memory ͉ protection

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Human circulating influenza-CD4 ⁺ ICOS1 ⁺ IL-21 ⁺ T cells expand after vaccination, exert helper function, and predict antibody responses

Spensieri

Borgogni²,

Zedda³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Protection against influenza is mediated by neutralizing antibodies, and their induction at high and sustained titers is key for successful vaccination. Optimal B cells activation requires delivery of help from CD4 + T lymphocytes. In lymph nodes and tonsils, T-follicular helper cells have been identified as the T cells subset specialized in helping B lymphocytes, with interleukin-21 (IL-21) and inducible costimulatory molecule (ICOS1) playing a central role for this function. We followed the expansion of antigen-specific IL-21 + CD4 + T cells upon influenza vaccination in adults. We show that, after an overnight in vitro stimulation, influenza-specific IL-21 + CD4 + T cells can be measured in human blood, accumulate in the CXCR5 − ICOS1 + population, and increase in frequency after vaccination. The expansion of influenza-specific ICOS1 + IL-21 + CD4 + T cells associates with and predicts the rise of functionally active antibodies to avian H5N1. We also show that blood-derived CXCR5 − ICOS1 + CD4 + T cells exert helper function in vitro and support the differentiation of influenza specific B cells in an ICOS1-and IL-21-dependent manner. We propose that the expansion of antigen-specific ICOS1 + IL-21 + CD4 + T cells in blood is an early marker of vaccine immunogenicity and an important immune parameter for the evaluation of novel vaccination strategies.CD4 help | predictivity | humoral response T o confer protection, human vaccines rely on the induction of neutralizing antibodies and on the generation of a pool of memory lymphocytes able to mount an accelerated response upon encounter with the target pathogen. In recent years, novel vaccines, adjuvants, and delivery systems that are able to improve vaccine immunogenicity while reducing their reactogenicity have been developed. As vaccines are given to healthy subjects, their development is a challenging endeavor that requires extensive studies to assess safety, immunogenicity, and clinical efficacy. To accelerate the screening of novel candidates, research has focused on the identification of early biomarkers, molecular and transcriptional signatures predicting vaccine efficacy (1). Predictors should be easy to test in large clinical trials and have a clear mechanistic relationship with the correlates or surrogates of protection taken as the study endpoint. We have previously shown that an early postvaccination increase in the number of vaccine-specific CD4 + T cells is correlated in a predictive manner with the rise and long-term maintenance of protective antibody titers to avian influenza (2). The aim of the present study was to characterize the CD4 + T cells subset responsible for this function.T follicular helper (Tfh) cells have been identified in lymph nodes and tonsils as the CD4 + T cells subpopulation specialized in providing help to B cells (3-11). The recent identification of a circulating counterpart of this T cells subset in blood led us to investigate whether vaccine-specific IL-21 + CD4 + T cells are detectable in human blood, if their frequency is...

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Approach to discover T- and B-cell antigens of intracellular pathogens applied to the design of Chlamydia trachomatis vaccines

Finco

Frigimelica

Buricchi

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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Natural immunity against obligate and/or facultative intracellular pathogens is usually mediated by both humoral and cellular immunity. The identification of those antigens stimulating both arms of the immune system is instrumental for vaccine discovery. Although high-throughput technologies have been applied for the discovery of antibody-inducing antigens, few examples of their application for T-cell antigens have been reported. We describe how the compilation of the immunome, here defined as the pool of immunogenic antigens inducing T- and B-cell responses in vivo, can lead to vaccine candidates against Chlamydia trachomatis . We selected 120 C. trachomatis proteins and assessed their immunogenicity using two parallel high-throughput approaches. Protein arrays were generated and screened with sera from C. trachomatis -infected patients to identify antibody-inducing antigens. Splenocytes from C. trachomatis -infected mice were stimulated with 79 proteins, and the frequency of antigen-specific CD4 + /IFN-γ + T cells was analyzed by flow cytometry. We identified 21 antibody-inducing antigens, 16 CD4 + /IFN-γ + –inducing antigens, and five antigens eliciting both types of responses. Assessment of their protective activity in a mouse model of Chlamydia muridarum lung infection led to the identification of seven antigens conferring partial protection when administered with LTK63/CpG adjuvant. Protection was largely the result of cellular immunity as assessed by CD4 + T-cell depletion. The seven antigens provided robust additive protection when combined in four-antigen combinations. This study paves the way for the development of an effective anti- Chlamydia vaccine and provides a general approach for the discovery of vaccines against other intracellular pathogens.

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Efficacy, immunogenicity, and safety of a parenteral vaccine against Helicobacter pylori in healthy volunteers challenged with a Cag-positive strain: a randomised, placebo-controlled phase 1/2 study

Malfertheiner

Selgrad

Wex

et al. 2018

The Lancet Gastroenterology & Hepatology

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Early Rise of Blood T Follicular Helper Cell Subsets and Baseline Immunity as Predictors of Persisting Late Functional Antibody Responses to Vaccination in Humans

et al. 2016

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CD4+ T follicular helper cells (TFH) have been identified as the T-cell subset specialized in providing help to B cells for optimal activation and production of high affinity antibody. We recently demonstrated that the expansion of peripheral blood influenza-specific CD4+IL-21+ICOS1+ T helper (TH) cells, three weeks after vaccination, associated with and predicted the rise of protective neutralizing antibodies to avian H5N1. In this study, healthy adults were vaccinated with plain seasonal trivalent inactivated influenza vaccine (TIIV), MF59®-adjuvanted TIIV (ATIIV), or saline placebo. Frequencies of circulating CD4+ TFH1 ICOS+ TFH cells and H1N1-specific CD4+IL-21+ICOS+ CXCR5+ TFH and CXCR5- TH cell subsets were determined at various time points after vaccination and were then correlated with hemagglutination inhibition (HI) titers. All three CD4+ T cell subsets expanded in response to TIIV and ATIIV, and peaked 7 days after vaccination. To demonstrate that these TFH cell subsets correlated with functional antibody titers, we defined an alternative endpoint metric, decorrelated HI (DHI), which removed any correlation between day 28/day 168 and day 0 HI titers, to control for the effect of preexisting immunity to influenza vaccine strains. The numbers of total circulating CD4+ TFH1 ICOS+ cells and of H1N1-specific CD4+IL-21+ICOS+ CXCR5+, measured at day 7, were significantly associated with day 28, and day 28 and 168 DHI titers, respectively. Altogether, our results show that CD4+ TFH subsets may represent valuable biomarkers of vaccine-induced long-term functional immunity.Trial RegistrationClinicalTrials.gov NCT01771367

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Luisanna Zedda

Adjuvanted H5N1 vaccine induces early CD4⁺T cell response that predicts long-term persistence of protective antibody levels

Human circulating influenza-CD4 ⁺ ICOS1 ⁺ IL-21 ⁺ T cells expand after vaccination, exert helper function, and predict antibody responses

Approach to discover T- and B-cell antigens of intracellular pathogens applied to the design of Chlamydia trachomatis vaccines

Efficacy, immunogenicity, and safety of a parenteral vaccine against Helicobacter pylori in healthy volunteers challenged with a Cag-positive strain: a randomised, placebo-controlled phase 1/2 study

Early Rise of Blood T Follicular Helper Cell Subsets and Baseline Immunity as Predictors of Persisting Late Functional Antibody Responses to Vaccination in Humans

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Luisanna Zedda

Adjuvanted H5N1 vaccine induces early CD4+T cell response that predicts long-term persistence of protective antibody levels

Human circulating influenza-CD4 + ICOS1 + IL-21 + T cells expand after vaccination, exert helper function, and predict antibody responses

Approach to discover T- and B-cell antigens of intracellular pathogens applied to the design of Chlamydia trachomatis vaccines

Efficacy, immunogenicity, and safety of a parenteral vaccine against Helicobacter pylori in healthy volunteers challenged with a Cag-positive strain: a randomised, placebo-controlled phase 1/2 study

Early Rise of Blood T Follicular Helper Cell Subsets and Baseline Immunity as Predictors of Persisting Late Functional Antibody Responses to Vaccination in Humans

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Product

Resources

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Adjuvanted H5N1 vaccine induces early CD4⁺T cell response that predicts long-term persistence of protective antibody levels

Human circulating influenza-CD4 ⁺ ICOS1 ⁺ IL-21 ⁺ T cells expand after vaccination, exert helper function, and predict antibody responses