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Streptococcus pneumoniaeinfections lead to high morbidity and mortality rates worldwide.Pneumococcal polysaccharide conjugate vaccines significantly reduce the burden of disease but havea limited range of protection, which encourages the development of a broadly protective protein-basedalternative. We and others have shown that immunization with pneumococcal lipoproteins that lackthe lipid anchor protects against colonization. Since immunity againstS. pneumoniaeis mediatedthrough Toll-like receptor 2 signaling induced by lipidated proteins, we investigated the effects ofa lipid modification on the induced immune responses in either intranasally or subcutaneouslyvaccinated mice. Here, we demonstrate that lipidation of recombinant lipoproteins DacB and PnrAstrongly improves their immunogenicity. Mice immunized with lipidated proteins showed enhancedantibody concentrations and different induction kinetics. The induced humoral immune responsewas modulated by lipidation, indicated by increased IgG2/IgG1 subclass ratios related to Th1-typeimmunity. In a mouse model of colonization, immunization with lipidated antigens led to a moderatebut consistent reduction of pneumococcal colonization as compared to the non-lipidated proteins,indicating that protein lipidation can improve the protective capacity of the coupled antigen. Thus,protein lipidation represents a promising approach for the development of a serotype-independentpneumococcal vaccine.
Alongside biological, psychological, and social risk factors, psychotic syndromes may berelated to disturbances of neuronal migration. This highly complex process characterizesthe developing brain of the fetus, the early postnatal brain, and the adult brain, as reflectedby changes within the subventricular zone and the dentate gyrus of the hippocampus,where neurogenesis persists throughout life. Psychosis also appears to be linked tohuman cytomegalovirus (HCMV) infection. However, little is known about the connectionbetween psychosis, HCMV infection, and disruption of neuronal migration. The presentstudy addresses the hypothesis that HCMV infection may lead to mental disordersthrough mechanisms of autoimmune cross-reactivity. Searching for common peptidesthat underlie immune cross-reactions, the analyses focus on HCMV and human proteinsinvolved in neuronal migration. Results demonstrate a large overlap of viral peptides withhuman proteins associated with neuronal migration, such as ventral anterior homeobox 1and cell adhesion molecule 1 implicated in GABAergic and glutamatergicneurotransmission. The presentfindings support the possibility of immune cross-reactivity between HCMV and human proteins that—when altered, mutated, orimproperly functioning—may disrupt normal neuronal migration. In addition, thesefindings are consistent with a molecular and mechanistic framework for pathologicalsequences of events, beginning with HCMV infection, followed by immune activation,cross-reactivity, and neuronal protein variations that may ultimately contribute to theemergence of mental disorders, including psychosis