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8 results on '"Jan M. Sobczak"'

1. Correction: Rothen et al. Preclinical Evaluation of Novel Sterically Optimized VLP-Based Vaccines against All Four DENV Serotypes. Vaccines 2024, 12, 874

Author

Dominik A. Rothen, Sudip Kumar Dutta, Pascal S. Krenger, Anne-Cathrine S. Vogt, Ilva Lieknina, Jan M. Sobczak, Albert D. M. E. Osterhaus, Mona O. Mohsen, Monique Vogel, Byron Martina, Kaspars Tars, and Martin F. Bachmann

Subjects
n/a, Medicine
Abstract

The authors would like to make the following corrections to this published paper [...]

Published
2024
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2. Preclinical Evaluation of Novel Sterically Optimized VLP-Based Vaccines against All Four DENV Serotypes

Author

Dominik A. Rothen, Sudip Kumar Dutta, Pascal S. Krenger, Anne-Cathrine S. Vogt, Ilva Lieknina, Jan M. Sobczak, Albert D. M. E. Osterhaus, Mona O. Mohsen, Monique Vogel, Byron Martina, Kaspars Tars, and Martin F. Bachmann

Subjects
virus-like particles, dengue virus, vaccine, Medicine
Abstract

Over the past few decades, dengue fever has emerged as a significant global health threat, affecting tropical and moderate climate regions. Current vaccines have practical limitations, there is a strong need for safer, more effective options. This study introduces novel vaccine candidates covering all four dengue virus (DENV) serotypes using virus-like particles (VLPs), a proven vaccine platform. The dengue virus envelope protein domain III (EDIII), the primary target of DENV-neutralizing antibodies, was either genetically fused or chemically coupled to bacteriophage-derived AP205-VLPs. To facilitate the incorporation of the large EDIII domain, AP205 monomers were dimerized, resulting in sterically optimized VLPs with 90 N- and C-termini. These vaccines induced high-affinity/avidity antibody titers in mice, and confirmed their protective potential by neutralizing different DENV serotypes in vitro. Administration of a tetravalent vaccine induced high neutralizing titers against all four serotypes without producing enhancing antibodies, at least not against DENV2. In conclusion, the vaccine candidates, especially when administered in a combined fashion, exhibit intriguing properties for potential use in the field, and exploring the possibility of conducting a preclinical challenge model to verify protection would be a logical next step.

Published
2024
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3. Identifying Key Drivers of Efficient B Cell Responses: On the Role of T Help, Antigen-Organization, and Toll-like Receptor Stimulation for Generating a Neutralizing Anti-Dengue Virus Response

Author

Jan M. Sobczak, Irena Barkovska, Ina Balke, Dominik A. Rothen, Mona O. Mohsen, Dace Skrastina, Anete Ogrina, Byron Martina, Juris Jansons, Janis Bogans, Monique Vogel, Martin F. Bachmann, and Andris Zeltins

Subjects
virus-like particles, nanostructures, B-cell responses, dengue virus neutralization, Medicine
Abstract

T help (Th), stimulation of toll-like receptors (pathogen-associated molecular patterns, PAMPs), and antigen organization and repetitiveness (pathogen-associated structural patterns, PASPs) were shown numerous times to be important in driving B-cell and antibody responses. In this study, we dissected the individual contributions of these parameters using newly developed “Immune-tag” technology. As model antigens, we used eGFP and the third domain of the dengue virus 1 envelope protein (DV1 EDIII), the major target of virus-neutralizing antibodies. The respective proteins were expressed alone or genetically fused to the N-terminal fragment of the cucumber mosaic virus (CMV) capsid protein—nCMV, rendering the antigens oligomeric. In a step-by-step manner, RNA was attached as a PAMP, and/or a universal Th-cell epitope was genetically added for additional Th. Finally, a PASP was added to the constructs by displaying the antigens highly organized and repetitively on the surface of CMV-derived virus-like particles (CuMV VLPs). Sera from immunized mice demonstrated that each component contributed stepwise to the immunogenicity of both proteins. All components combined in the CuMV VLP platform induced by far the highest antibody responses. In addition, the DV1 EDIII induced high levels of DENV-1-neutralizing antibodies only if displayed on VLPs. Thus, combining multiple cues typically associated with viruses results in optimal antibody responses.

Published
2024
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4. Augmenting the Immune Response against a Stabilized HIV-1 Clade C Envelope Trimer by Silica Nanoparticle Delivery

Author

David Peterhoff, Stefanie Thalhauser, Jan M. Sobczak, Mona O. Mohsen, Christoph Voigt, Nicole Seifert, Patrick Neckermann, Alexandra Hauser, Song Ding, Quentin Sattentau, Martin F. Bachmann, Miriam Breunig, and Ralf Wagner

Subjects
HIV vaccine, silica nanoparticles, stabilized envelope trimer, Env, Medicine
Abstract

The delivery of HIV-1 envelope (Env) trimer-based immunogens on the surface of nanoparticles holds promise to promote immunogenicity with the aim of inducing a potent, durable and broad neutralizing antibody (bnAb) response. Towards that goal, we examined the covalent conjugation of Env to 100 nm and 200 nm silica nanoparticles (SiNPs) to optimize conjugation density and attachment stability. Env was redesigned to enable site-specific cysteine-mediated covalent conjugation while maintaining its structural integrity and antigenicity. Env was anchored to different sized SiNPs with a calculated spacing of 15 nm between adjacent trimers. Both particle sizes exhibited high in vitro stability over a seven-day period. After attachment, 100 nm particles showed better colloidal stability compared to 200 nm particles. Importantly, the antigenic profile of Env was not impaired by surface attachment, indicating that the quaternary structure was maintained. In vitro Env uptake by dendritic cells was significantly enhanced when Env was delivered on the surface of nanoparticles compared to soluble Env. Furthermore, multivalent Env displayed efficiently activated B cells even at Env concentrations in the low nanomolar range. In mice, antibody responses to nanoparticle-coupled Env were stronger compared to the free protein and had equivalent effects at lower doses and without adjuvant.

Published
2021
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6. A scalable and highly immunogenic virus-like particle-based vaccine against SARS-CoV-2

Author

Kevin Plattner, Anne-Cathrine S. Vogt, Aleksandra Nonic, Xinyue Chang, Romano Josi, Lee-Anne Brand, Villija Zeltina, Byron E. E. Martina, Katja Nuss, Xuelan Liu, Pascal Krenger, Thomas M. Kündig, Simon Zinkhan, Joana J. da Costa, Mona O. Mohsen, Senta M. Walton, Martin F. Bachmann, Ina Balke, Gary T. Jennings, Dominik Rothen, Jan M. Sobczak, Zahra Gharailoo, Gilles Sousa Augusto, Monique Vogel, Daniel E. Speiser, Marianne Zwicker, Andris Zeltins, Salony Roongta, and Virology

Subjects
COVID-19 Vaccines, High avidity, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Immunology, 610 Medicine & health, Biology, SARS‐CoV‐2, Virus, Cucumber mosaic virus, Mice, Virus-like particle, SDG 3 - Good Health and Well-being, COVID‐19, vaccine, Pandemic, Animals, Humans, Immunology and Allergy, Vaccines, Virus-Like Particle, SARS-CoV-2, COVID-19, Original Articles, Antibodies, Neutralizing, Virology, Antibody response, Antibody Formation, Communicable Disease Control, biology.protein, Original Article, Rabbits, Antibody, virus‐like particles
Abstract

Background SARS‐CoV‐2 caused one of the most devastating pandemics in the recent history of mankind. Due to various countermeasures, including lock‐downs, wearing masks, and increased hygiene, the virus has been controlled in some parts of the world. More recently, the availability of vaccines, based on RNA or adenoviruses, has greatly added to our ability to keep the virus at bay; again, however, in some parts of the world only. While available vaccines are effective, it would be desirable to also have more classical vaccines at hand for the future. Key feature of vaccines for long‐term control of SARS‐CoV‐2 would be inexpensive production at large scale, ability to make multiple booster injections, and long‐term stability at 4℃. Methods Here, we describe such a vaccine candidate, consisting of the SARS‐CoV‐2 receptor‐binding motif (RBM) grafted genetically onto the surface of the immunologically optimized cucumber mosaic virus, called CuMVTT‐RBM. Results Using bacterial fermentation and continuous flow centrifugation for purification, the yield of the production process is estimated to be >2.5 million doses per 1000‐litre fermenter run. We demonstrate that the candidate vaccine is highly immunogenic in mice and rabbits and induces more high avidity antibodies compared to convalescent human sera. The induced antibodies are more cross‐reactive to mutant RBDs of variants of concern (VoC). Furthermore, antibody responses are neutralizing and long‐lived. In addition, the vaccine candidate was stable for at least 14 months at 4℃. Conclusion Thus, the here presented VLP‐based vaccine may be a good candidate for use as conventional vaccine in the long term., In this study, we describe a novel conventional COVID‐19 vaccine that consists of the RBM of SARS‐CoV‐2 genetically grafted onto the surface of our optimized cucumber‐mosaic virus‐like particles. We demonstrate that the vaccine candidate (mCuMVTT‐RBM) is highly immunogenic in mice and rabbits, can efficiently neutralize SARS‐CoV‐2, and is stable and highly scalable. The induced antibodies show cross‐reactivity with VoC.

Published
2022
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7. A Sensorimotor Circuit in Mouse Cortex for Visual Flow Predictions

Author

Georg B. Keller, Alexander Attinger, Daniel R. Ward, Marcus Leinweber, and Jan M. Sobczak

Subjects
0301 basic medicine, Male, Posterior parietal cortex, Sensory system, Mice, Transgenic, Visual system, Visual processing, 03 medical and health sciences, Mice, 0302 clinical medicine, Visual memory, Feedback, Sensory, Cortex (anatomy), Neural Pathways, medicine, Animals, Visual Cortex, General Neuroscience, Motor Cortex, 030104 developmental biology, Visual cortex, medicine.anatomical_structure, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Locomotion, Motor cortex
Abstract

The cortex is organized as a hierarchical processing structure. Feedback from higher levels of the hierarchy, known as top-down signals, have been shown to be involved in attentional and contextual modulation of sensory responses. Here we argue that top-down input to the primary visual cortex (V1) from A24b and the adjacent secondary motor cortex (M2) signals a prediction of visual flow based on motor output. A24b/M2 sends a dense and topographically organized projection to V1 that targets most neurons in layer 2/3. By imaging the activity of A24b/M2 axons in V1 of mice learning to navigate a 2D virtual environment, we found that their activity was strongly correlated with locomotion and resulting visual flow feedback in an experience-dependent manner. When mice were trained to navigate a left-right inverted virtual environment, correlations of neural activity with behavior reversed to match visual flow. These findings are consistent with a predictive coding interpretation of visual processing.

Published
2016

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