Jasmin Quandt scite author profile

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A vaccine targeting mutant IDH1 induces antitumour immunity

Schumacher¹,

Bunse²,

Pusch³

et al. 2014

Nature

620

454

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Monoallelic point mutations of isocitrate dehydrogenase type 1 (IDH1) are an early and defining event in the development of a subgroup of gliomas and other types of tumour. They almost uniformly occur in the critical arginine residue (Arg 132) in the catalytic pocket, resulting in a neomorphic enzymatic function, production of the oncometabolite 2-hydroxyglutarate (2-HG), genomic hypermethylation, genetic instability and malignant transformation. More than 70% of diffuse grade II and grade III gliomas carry the most frequent mutation, IDH1(R132H) (ref. 3). From an immunological perspective, IDH1(R132H) represents a potential target for immunotherapy as it is a tumour-specific potential neoantigen with high uniformity and penetrance expressed in all tumour cells. Here we demonstrate that IDH1(R132H) contains an immunogenic epitope suitable for mutation-specific vaccination. Peptides encompassing the mutated region are presented on major histocompatibility complexes (MHC) class II and induce mutation-specific CD4(+) T-helper-1 (TH1) responses. CD4(+) TH1 cells and antibodies spontaneously occurring in patients with IDH1(R132H)-mutated gliomas specifically recognize IDH1(R132H). Peptide vaccination of mice devoid of mouse MHC and transgenic for human MHC class I and II with IDH1(R132H) p123-142 results in an effective MHC class II-restricted mutation-specific antitumour immune response and control of pre-established syngeneic IDH1(R132H)-expressing tumours in a CD4(+) T-cell-dependent manner. As IDH1(R132H) is present in all tumour cells of these slow-growing gliomas, a mutation-specific anti-IDH1(R132H) vaccine may represent a viable novel therapeutic strategy for IDH1(R132H)-mutated tumours.

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Omicron BA.1 breakthrough infection drives cross-variant neutralization and memory B cell formation against conserved epitopes

et al. 2022

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Omicron is the evolutionarily most distinct SARS-CoV-2 variant of concern (VOC) to date. We report that Omicron BA.1 breakthrough infection in BNT162b2-vaccinated individuals resulted in strong neutralizing activity against Omicron BA.1, BA.2 and previous SARS-CoV-2 VOCs, but not against the Omicron sublineages BA.4 and BA.5. BA.1 breakthrough infection induced a robust recall response, primarily expanding B MEM cells against epitopes shared broadly amongst variants, rather than inducing BA.1-specific B cells. The vaccination-imprinted B MEM cell pool had sufficient plasticity to be remodeled by heterologous SARS-CoV-2 spike glycoprotein exposure. While selective amplification of B MEM cells recognizing shared epitopes allows for effective neutralization of most variants that evade previously established immunity, susceptibility to escape by variants that acquire alterations at hitherto conserved sites may be heightened.

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BNT162b2 induces SARS-CoV-2-neutralising antibodies and T cells in humans

Şahin

Muik

Vogler

et al. 2020

Preprint

158

173

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BNT162b2, a lipid nanoparticle (LNP) formulated nucleoside-modified messenger RNA (mRNA) encoding the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike protein (S) stabilized in the prefusion conformation, has demonstrated 95% efficacy to prevent coronavirus disease 2019 (COVID-19). Recently, we reported preliminary BNT162b2 safety and antibody response data from an ongoing placebo-controlled, observer-blinded phase 1/2 vaccine trial1. We present here antibody and T cell responses from a second, non-randomized open-label phase 1/2 trial in healthy adults, 19-55 years of age, after BNT162b2 prime/boost vaccination at 1 to 30 µg dose levels. BNT162b2 elicited strong antibody responses, with S-binding IgG concentrations above those in a COVID-19 human convalescent sample (HCS) panel. Day 29 (7 days post-boost) SARS-CoV-2 serum 50% neutralising geometric mean titers were 0.3-fold (1 µg) to 3.3-fold (30 µg) those of the HCS panel. The BNT162b2-elicited sera neutralised pseudoviruses with diverse SARS-CoV-2 S variants. Concurrently, in most participants, S-specific CD8+ and T helper type 1 (TH1) CD4+ T cells had expanded, with a high fraction producing interferon-γ (IFNγ). Using peptide MHC multimers, the epitopes recognised by several BNT162b2-induced CD8+ T cells when presented on frequent MHC alleles were identified. CD8+ T cells were shown to be of the early-differentiated effector-memory phenotype, with single specificities reaching 0.01-3% of circulating CD8+ T cells. In summary, vaccination with BNT162b2 at well tolerated doses elicits a combined adaptive humoral and cellular immune response, which together may contribute to protection against COVID-19.

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Concurrent human antibody and T_H1 type T-cell responses elicited by a COVID-19 RNA vaccine

Şahin

Muik

Derhovanessian

et al. 2020

Preprint

105

127

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An effective vaccine is needed to halt the spread of the SARS-CoV-2 pandemic. Recently, we reported safety, tolerability and antibody response data from an ongoing placebo-controlled, observer-blinded phase 1/2 COVID-19 vaccine trial with BNT162b1, a lipid nanoparticle (LNP) formulated nucleoside-modified messenger RNA encoding the receptor binding domain (RBD) of the SARS-CoV-2 spike protein. Here we present antibody and T cell responses after BNT162b1 vaccination from a second, non-randomized open-label phase 1/2 trial in healthy adults, 18-55 years of age. Two doses of 1 to 50 μg of BNT162b1 elicited robust CD4+ and CD8+ T cell responses and strong antibody responses, with RBD-binding IgG concentrations clearly above those in a COVID-19 convalescent human serum panel (HCS). Day 43 SARS-CoV-2 serum neutralising geometric mean titers were 0.7-fold (1 μg) to 3.5-fold (50 μg) those of HCS. Immune sera broadly neutralised pseudoviruses with diverse SARS-CoV-2 spike variants. Most participants had TH1 skewed T cell immune responses with RBD-specific CD8+ and CD4+ T cell expansion. Interferon (IFN)γ was produced by a high fraction of RBD-specific CD8+ and CD4+ T cells. The robust RBD-specific antibody, T-cell and favourable cytokine responses induced by the BNT162b1 mRNA vaccine suggest multiple beneficial mechanisms with potential to protect against COVID-19.

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TCF-1 and HEB cooperate to establish the epigenetic and transcription profiles of CD4+CD8+ thymocytes

et al. 2018

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Thymocyte development requires a complex orchestration of multiple factors. Ablating either Tcf-1 or HEB in CD4+CD8+-thymocytes elicits similar developmental outcomes including increased proliferation, decreased survival, and reduced late Tcra rearrangements. Here, we provide a mechanistic explanation for these similarities by showing that Tcf-1 and HEB share ~7000 DNA binding-sites genome- wide and promote chromatin accessibility. The binding of both Tcf-1 and HEB is required at these shared sites for epigenetic and transcriptional gene regulation. Binding of Tcf-1 and HEB to their conserved motifs in enhancer regions of T-cell differentiation and survival genes promotes their expression. Binding to sites that lack conserved motifs in promoter regions of cell-cycle genes limits proliferation. Tcf-1 alone displaces nucleosomes to allow for chromatin accessibility. Importantly, Tcf-1 inhibits Notch-signaling to protect HEB from Notch mediated proteasomal degradation. Thus, Tcf-1 shifts nucleosomes and safeguards HEB to enable their cooperation in establishing the epigenetic and transcription profile of CD4+CD8+-thymocytes.

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Publisher Correction: COVID-19 vaccine BNT162b1 elicits human antibody and TH1 T cell responses

Şahin

Muik

Derhovanessian

et al. 2021

Nature

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12 3

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Jasmin Quandt

COVID-19 vaccine BNT162b1 elicits human antibody and TH1 T cell responses

BNT162b2 vaccine induces neutralizing antibodies and poly-specific T cells in humans

A vaccine targeting mutant IDH1 induces antitumour immunity

Omicron BA.1 breakthrough infection drives cross-variant neutralization and memory B cell formation against conserved epitopes

BNT162b2 induces SARS-CoV-2-neutralising antibodies and T cells in humans

Concurrent human antibody and T_H1 type T-cell responses elicited by a COVID-19 RNA vaccine

TCF-1 and HEB cooperate to establish the epigenetic and transcription profiles of CD4+CD8+ thymocytes

Publisher Correction: COVID-19 vaccine BNT162b1 elicits human antibody and TH1 T cell responses

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Jasmin Quandt

COVID-19 vaccine BNT162b1 elicits human antibody and TH1 T cell responses

BNT162b2 vaccine induces neutralizing antibodies and poly-specific T cells in humans

A vaccine targeting mutant IDH1 induces antitumour immunity

Omicron BA.1 breakthrough infection drives cross-variant neutralization and memory B cell formation against conserved epitopes

BNT162b2 induces SARS-CoV-2-neutralising antibodies and T cells in humans

Concurrent human antibody and TH1 type T-cell responses elicited by a COVID-19 RNA vaccine

TCF-1 and HEB cooperate to establish the epigenetic and transcription profiles of CD4+CD8+ thymocytes

Publisher Correction: COVID-19 vaccine BNT162b1 elicits human antibody and TH1 T cell responses

Contact Info

Product

Resources

About

Concurrent human antibody and T_H1 type T-cell responses elicited by a COVID-19 RNA vaccine