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Deciphering the influence of Streptococcus pneumoniae global regulators on fitness and virulence
(2019)
Streptococcus pneumoniae (S. pneumoniae; the pneumococcus) is a Gram-positive, aerotolerant, and opportunistic bacteria, which colonizes the upper respiratory tract of human. S. pneumoniae can further migrate to other sterile parts of the body, and causes local as well as fatal infections like, pneumonia, septicaemia and meningitis. Due to incomplete amino acid pathways, pneumococci are auxotrophic for eight different amino acids including glutamine and arginine. The pneumococcus has adapted to the various host environmental conditions and a number of systems are dedicated for the transport and utilization of nutrients such as monosaccharides, amino acids and oligopeptides.
In this study the amino acid metabolism was characterised by 15N-isotopologue profiling in two different pneumococcal strains, D39 and TIGR4. Efficient uptake of a labelled amino acids mixture of 15N-labelled amino acids showed that S. pneumoniae has a preference for the amino acids transport instead of a de novo biosynthesis. It is known that glutamine (Gln) serves as main nitrogen source for S. pneumoniae. The 15N-labelled Gln used in this study demonstrated an efficient 15N-enrichment of Glu, Ala, Pro and Thr. Minor enrichment was seen for the amino acids Asp, Ile, Leu, Phe, Tyr, and Val. Remarkably, labelled Gly and Ser could be determined in strain TIGR4, whereas for strain D39 these two labelled amino acids were not detected. This confirms earlier studies with 13C-labelled glucose, which showed the biosynthesis of Ser out of Gly. Strain TIGR4 was able to grow in chemically-defined medium depleted of Gly confirming that Gly can be synthesized out of serine by the action of the enzyme serine hydroxymethyltransferase (SHMT).
The transcriptional regulator GlnR controls the Gln and Glu metabolism in S. pneumoniae. Hence, the impact of the repressor GlnR on amino acids metabolism was also studied. An increased 15N-enrichment was determined for Ala and Glu in both used pneumococcal strains, while an increased level of Pro was only measured in the isogenic glnR-mutant of non-encapsulated D39.
Arginine can also serve as nitrogen source in strain TIGR4. The arginine deiminase system metabolizes Arg into ornithine, carbamoyl phosphate and CO2 by the generation of 1 ATP and 2 mol NH3. Because of the truncation of the arcA gene strain D39 lacks arginine deiminase activity and has thus no functional ADS system. When 15N-Arg was added for growth, only in strain TIGR4, thirteen (13) labelled amino acids were detected with the highest enrichment for Ala, Glu and Thr. Genes coding for the enzymes of the arginine metabolism and for arginine uptake are regulated by the activator ArgR2 in strain TIGR4. Inactivation of ArgR2 was not accompanied by an enrichment of labelled amino acids, when the argR2-mutant was grown with 15N-labelled Arg indicative of the important role of ArgR2.
The bicistronic operon arcDT encoding the arginine/ornithine transporter ArcD and a putative peptidase ArcT belong to the peptidase family M20. The in silico comparison of structures revealed a significant homology of ArcT to PepV of L. delbrueckii and to Sapep of S. aureus known as carboxypeptidase. ArcT was heterologously expressed in E. coli and purified under reducing conditions. An enzymatic reaction was established and several dipeptides like Ala-Arg, Arg-Ala, and Ala-Asp were used as substrates. In addition, the dependency on divalent cations was analysed. Cleavage of the dipeptide Ala-Arg was detected in the presence of Mn2+ as cofactor under reducing conditions. Reduced peptidase activity was observed when Zn2+ was added. No cleavage of the tripeptide Ala-Ala-Arg could be shown indicating that ArcT acts as dipeptidase with the preference to the Arg residue at the C-terminal end.
Bacterial meningitis caused by S. pneumoniae was studied in an in vivo proteomic analysis. In a mouse meningitis model S. pneumoniae was isolated from the cerebrospinal fluid (CSF) by a filter extraction step. The MS analysis identified AliB and ComDE only from CSF isolated pneumococci indicating that these proteins are expressed under infection conditions. Mice infected with D39 wild-type and isogenic aliB, comDE and aliB-comDE double knockout mutants showed significantly less number of pleocytosis in the CSF and lower bacterial load in the blood compared to the wild-type. The results indicate that AliB and ComDE play an important role during meningitis.
Phenotypic characterization was carried out to identify differences between the wild-type and the aliB-, comDE- and aliB-comDE double mutants. Oxidative stress conditions were induced by the application of hydrogen peroxide or paraquat during growth in a chemically-defined medium similar to the CSF. No alteration in growth and survival of these mutants compared to the wild-type was observed suggesting that oxygen radicals play not an important role during the progression of meningitis. In addition, no differences of AliB expression was detected in the ComDE deficient D39. No impact of aliB and comDE-mutation on the expression of different virulence factors like pneumolysin or proteins involved in capsular biosynthesis was detected.
In vitro proteome analysis was performed to compare the wild-type to the AliB, and ComDE deficient D39 in the early and mid logarithmic growth phase. More than 70 % of theoretically expressed proteins were identified. In the aliB-mutant 33 proteins were differentally expressed in the early growth phase and 50 proteins differed during mid log growth. For the comDE mutant 24 and 11 proteins differed in expression in these two growth phases. Interestingly, high level of AliA expression was identified in all samples. The aliB-mutant had a decreased abundance of the proteins resembling an oligopeptide ABC transporter (AmiA, AmiC, AmiD, AmiE). In addition, another ABC transporter for iron transport encoded by spd_1607 to spd_ 1610 was higher expressed in the aliB-mutant. In the ComDE deficient mutant lower abundance of the Ami transporter sytem was identified. An increased abundance of proteins involved in the pyrimidine metabolism (PyrF, PyrE, PyrDb, PyrB and PyrR) was recognized only in the early growth phase of the comDE-mutant. These analyses demonstrate the marginal changes in protein synthesis during growth of S. pneumoniae. These studies demonstrated the adaptation of the proteome of S. pneumoniae to different growth conditions and the impact of regulatory proteins on the availability of carbon and nitrogen sources.
Immunogenicity and protectivity of surface-localized lipoproteins of Streptococcus pneumoniae
(2019)
Steptococcus pneumoniae (pneumococcus) represents a common colonizer of the human upper respiratory tract (URT). However, under certain conditions, for example following viral infections, or in indiciduals with a weakened immune system, including young children, elderly and immunocompromised persons, it can cause a wide range of life-threatening diseases, such as pneumonia, meningitis or sepsis. Based on the polysaccharide capsule that surrounds the bacterium, pneumococci are classified into so far 98 different serotypes. Prevention of S. pneumoniae infections was achieved by the development of pneumococcal polysaccharide-based (PPSV) vaccines. However, these vaccines have important limitations, including high manufacturing costs and restricted serotype coverage facilitating replacement by non-vaccine serotypes. Aiming for the development of a serotype-independent vaccine, the potential of surface-exposed and highly conserved pneumococcal lipoproteins was evaluated for being targeted as a future protein-based vaccine. Therefore, selected lipoproteins were examined i) for their surface abundance and accessibility, ii) for their presence in clinically relevant S. pneumoniae strains, and iii) for their immunogenicity. Finally, based on these initial screenings, the most promising candidates were selected to analyze their protective efficacy in a moude model of colonization. DacB and PnrA were identified as highly abundant lipoproteins on the pneumococcal surface. They showed to be immunogenic both during natural infection using convalescent patient sera and when given to mice as a subunit vaccine formulation. Following intranasal immunization and challenge of mice with two heterologous S. pneumoniae strains, both proteins reduced the pneumococcal load in the nasopharynx. The protection correlated with increased production of IL-17A indicative for a Th17-mediated immunity, which is strongly suggested to play a critical role in preventing pneumococcal colonization and infection. Lipoproteins are triggering innate receptors on antigen-presenting cells, thereby linking innate with adaptive immune responses. Therefore, lipidated proteins were evaluated for their potential to be used as an adjuvant for vaccination. Lipidation clearly enhanced humoral immune responses to DacB and PnrA without the need of an additional adjuvant. However, an additional adjuvant was required to confer protection against pneumococcal colonization. In conclusion, Lipoproteins are interesting candidates for future protein-based vaccine strategies because they are highly conserved, abundant and immunogenic. PnrA and DacB were identified as potential candidates, since they induced protection against pneumococcal colonization, which in turn may lead to a decline in infections and transmission.