Fabian Pohl scite author profile

The rapid development, approval, and production of vaccines against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in less than 1 year after the first reports of a new infectious disease was a real game changer, providing 80%–90% efficacy in preventing severe etiopathologies of the coronavirus disease 2019 (COVID-19). These vaccines induce an immune response against the SARS-CoV-2 spike (S) protein located on the surface of the virus particle. Antibodies (Abs) recognizing the S-protein can inhibit binding of the virus via the S-protein to the angiotensin-converting enzyme-2 (ACE-2) receptor expressed on different human cells, especially when these Abs bind to the interaction site, the so-called receptor-binding domain (RBD). We have expressed the RBDs of wild-type SARS-CoV-2 and five variants of concern (VOCs) to test the immune response in people before vaccination with mRNA vaccines BNT162b2 and mRNA-1273 and after up to three vaccinations using in-house ELISA and inhibition assays. The methods of both assays are provided. Both vaccines initiated similarly high IgG titers after two vaccinations against the wild-type and even two VOC-RBDs (alpha and delta) and strongly inhibited the corresponding RBD-ACE-2 binding. The IgG titers and inhibition of ACE-2 binding were lower for beta and gamma RBDs and much lower for omicron RBD. The third vaccination after 6 months strongly increased both the IgG titers and the neutralizing effect against all variants, especially for omicron, leading to 63% ± 13% neutralization potential. Importantly, neutralization linearly increased with the IgG titers.

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Structural basis of GAIN domain autoproteolysis and cleavage-resistance in the adhesion G-protein coupled receptors

Pohl

Seufert

Chung

et al. 2023

Preprint

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The GAIN domain is a hallmark of adhesion G-protein coupled receptors (aGPCRs) as this extracellular domain contains an integral agonistic sequence (Stachel) for activation via binding to the 7-transmembrane helical (7TM) domain of the receptor. Many aGPCRs are autoproteolytically cleaved at the GPCR proteolysis site (GPS) site within the GAIN domain formed HXS/T sequence motif. However, other aGPCR can be activated without GPS cleavage. We determined the crystal structure of the human AD-GRB2/BAI2 hormone receptor (HormR) and GPCR autoproteolysis-inducing (GAIN) domains and found that this aGPCR is resistant to autoproteolysis despite the presence of a canonical HLS sequence motif at the GPS. We used structural comparisons and molecular dynamics (MD) simulations to identify structural determinants that are important for autocleavage beyond the canonical HXS/T motif. These studies charac-terized a conserved glycine residue and an edge-π interaction of the histidine base of the GPS sequence with a phenylalanine residue that is highly conserved in cleavage-competent aGPCRs. The MD simulations showed that this interaction is important to position the imidazole group of the histidine for deprotonation of the serine or threonine nucleophile. Removal of this interaction reduced autoproteolytic activity in the ADGRL1 receptor and restored cleavage competence of the ADGRB3 receptor in a R866H/L821F double mutant. Conservation analysis indicates that wild-type ADGRB2 and ADGRB3 are autocleavage-incompetent receptors.

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Fabian Pohl

Cross-Reactivity of IgG Antibodies and Virus Neutralization in mRNA-Vaccinated People Against Wild-Type SARS-CoV-2 and the Five Most Common SARS-CoV-2 Variants of Concern

Structural basis of GAIN domain autoproteolysis and cleavage-resistance in the adhesion G-protein coupled receptors

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