Functional protein serotonylation is a newly recognized post-translational modification with the primary biogenic monoamine (PBMA) serotonin (5-HT). This covalent protein modification is catalyzed by transglutaminases (TGs) and, for example, acts in the constitutive activation of small GTPases. Multiple physiological roles have been identified since its description in 2003 and, importantly, deregulated serotonylation was shown in the etiology of bleeding disorders, primary pulmonary hypertension and diabetes. The PBMAs 5-HT, histamine, dopamine, and norepinephrine all act as neurotransmitters in the nervous system and as hormones in non-neuronal tissues, which points out their physiological importance. In analogy to serotonylation we have found that also the other PBMAs act through the TG-catalyzed mechanisms of 'histaminylation', 'dopaminylation' and 'norepinephrinylation'. Therefore, PBMAs deploy a considerable portion of their effects via protein monoaminylation in addition to their canonical receptor-mediated signaling. Here, the implications of these newly identified post-translational modifications are presented and discussed. Furthermore, the potential regulatory roles of protein monoaminylation in small GTPase, heterotrimeric G-protein and lipid signaling, as well as in modulating metabolic enzymes and nuclear processes, are critically assessed.
Highlights► Histamine is covalently attached to protein-integrated glutamine residues. ► Transglutaminase II (TGM2) is catalyzing protein histaminylation in P815 mast cells. ► Histaminylation of a catalytic glutamine activates G proteins Gαq, Gαo1 and Cdc42. ► Histaminylation is a novel posttranslational modification belonging to the class of protein monoaminylations.
SARS-CoV-2, the coronavirus, spread across Germany within just a short period of time. Seroepidemiological studies are able to estimate the proportion of the population with antibodies against SARS-CoV-2 infection (seroprevalence) as well as the level of undetected infections, which are not captured in official figures. In the seroepidemiological study Corona Monitoring Nationwide (RKI-SOEP-2), biospecimens and interview data were collected in a nationwide population-based subsample of the Socio-Economic Panel (SOEP). By using laboratory-analyzed blood samples to detect antibodies to the SARS-CoV-2 virus, we were able to identify a history of vaccination or infection in study participants. By combining these results with survey data, we were able to identify groups within the population that are at increased risk of infection. By linking the RKI-SOEP-2 survey data with data from other waves of the SOEP survey, we will be able to examine the medium- to long-term impacts of the COVID-19 pandemic, including effects of long COVID, in diverse areas of life. Furthermore, the data provide insight into the population’s willingness to be vaccinated as well as related attitudes and conditions. In sum, the RKI-SOEP-2 survey data offer a better understanding of the scope of the epidemic in Germany and can help in identifying target groups for infection control in the present and future pandemics.
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