Thomas Höfler scite author profile

Safe and effective vaccines are urgently needed to stop the pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We constructed a series of live attenuated vaccine candidates by large-scale recoding of the SARS-CoV-2 genome, and assessed their safety and efficacy in Syrian hamsters. Animals were vaccinated with a single dose of the respective recoded virus and challenged 21 days later. Two of the tested viruses did not cause clinical symptoms, but were highly immunogenic and induced strong protective immunity. Attenuated viruses replicated efficiently in the upper but not in the lower airways, causing only mild pulmonary histopathology. After challenge, hamsters developed no signs of disease and rapidly cleared challenge virus: at no time could infectious virus be recovered from the lungs of infected animals. The ease with which attenuated virus candidates can be produced and administered favors their further development as vaccines to combat the ongoing pandemic.

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Host stimuli and operator binding sites controlling protein interactions between virulence master regulator ToxR and ToxS in Vibrio cholerae

Lembke

Höfler

Walter

et al. 2020

Molecular Microbiology

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Prokaryotes are unicellular organisms that require sensory networks for their survival in rapidly changing habitats. In the course of evolution, transmembrane signaling systems have evolved to transmit signals from the extracellular environment across the cytoplasmic membrane into the cell. One-component signaling systems represent the oldest and simplest solution for such signal transmission, whereas two-component systems are evolutionarily younger (Ulrich et al., 2005). Although one-component systems are widely distributed among bacteria, only 3% are directly integrated into cytoplasmic membranes (Ulrich et al., 2005). A literature search revealed a non-exhaustive list of signaling molecules that includes ToxRS,

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Longitudinal omics in Syrian hamsters integrated with human data unravel complexity of moderate immune responses to SARS-CoV-2

Nouailles

Wyler

Pennitz

et al. 2020

Preprint

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In COVID-19, the immune response largely determines disease severity and is key to therapeutic strategies. Cellular mechanisms contributing to inflammatory lung injury and tissue repair in SARS-CoV-2 infection, particularly endothelial cell involvement, remain ill-defined. We performed detailed spatiotemporal analyses of cellular and molecular processes in SARS-CoV-2 infected Syrian hamsters. Comparison of hamster single-cell sequencing and proteomics with data sets from COVID-19 patients demonstrated inter-species concordance of cellular and molecular host-pathogen interactions. In depth vascular and pulmonary compartment analyses (i) supported the hypothesis that monocyte-derived macrophages dominate inflammation, (ii) revealed endothelial inflammation status and T-cell attraction, and (iii) showed that CD4+ and CD8+ cytotoxic T-cell responses precede viral elimination. Using the Syrian hamster model of self-limited moderate COVID-19, we defined the specific roles of endothelial and epithelial cells, among other myeloid and non-myeloid lung cell subtypes, for determining the disease course.

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Development of Safe and Highly Protective Live-Attenuated SARS-CoV-2 Vaccine Candidates by Genome Recoding

et al. 2021

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σ^E controlled regulation of porin OmpU in Vibrio cholerae

Pennetzdorfer

Höfler

Wölflingseder

et al. 2021

Molecular Microbiology

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Bile resistance is essential for enteric pathogens, as exemplified by Vibrio cholerae, the causative agent of cholera. The outer membrane porin OmpU confers bacterial survival and colonization advantages in the presence of host‐derived antimicrobial peptides as well as bile. Expression of ompU is controlled by the virulence regulator ToxR. rpoE knockouts are accompanied by suppressor mutations causing ompU downregulation. Therefore, OmpU constitutes an intersection of the ToxR regulon and the σE‐pathway in V. cholerae. To understand the mechanism by which the sigma factor σE regulates OmpU synthesis, we performed transcription studies using ompU reporter fusions and immunoblot analysis. Our data revealed an increase in ompU promoter activity in ΔrpoE strains, as well as in a ΔompU background, indicating a negative feedback regulation circuit of ompU expression. This regulation seems necessary, since elevated lethality rates of ΔrpoE strains occur upon ompU overexpression. Manipulation of OmpU’s C‐terminal portion revealed its relevance for protein stability and potency of σE release. Furthermore, ΔrpoE strains are still capable of elevating OmpU levels under membrane stress conditions triggered by the bile salt sodium deoxycholate. This study provides new details about the impact of σE on ompU regulation, which is critical to the pathogen’s intestinal survival.

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Thomas Höfler

Development of safe and highly protective live-attenuated SARS-CoV-2 vaccine candidates by genome recoding

Host stimuli and operator binding sites controlling protein interactions between virulence master regulator ToxR and ToxS in Vibrio cholerae

Longitudinal omics in Syrian hamsters integrated with human data unravel complexity of moderate immune responses to SARS-CoV-2

Development of Safe and Highly Protective Live-Attenuated SARS-CoV-2 Vaccine Candidates by Genome Recoding

σ^E controlled regulation of porin OmpU in Vibrio cholerae

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Thomas Höfler

Development of safe and highly protective live-attenuated SARS-CoV-2 vaccine candidates by genome recoding

Host stimuli and operator binding sites controlling protein interactions between virulence master regulator ToxR and ToxS in Vibrio cholerae

Longitudinal omics in Syrian hamsters integrated with human data unravel complexity of moderate immune responses to SARS-CoV-2

Development of Safe and Highly Protective Live-Attenuated SARS-CoV-2 Vaccine Candidates by Genome Recoding

σE controlled regulation of porin OmpU in Vibrio cholerae

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Product

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σ^E controlled regulation of porin OmpU in Vibrio cholerae