AI Article Synopsis
- Rickettsiae are Gram-negative parasites that primarily infect blood-feeding arthropods and include human pathogens from transitional, typhus, and spotted fever groups, each with distinct clinical manifestations and genetic characteristics.
- Unlike many organisms, rickettsiae lack glycolysis and rely on stealing metabolites from their host to produce essential components like peptidoglycan and lipopolysaccharide (LPS).
- Recent research using an advanced lipid analysis technique called FLAT has revealed differences in the lipid A structures of spotted fever group rickettsiae, suggesting a divergence in secondary acyl chain lengths that may influence their inflammatory potential and interactions with host receptors.
Article Abstract
Rickettsiae are Gram-negative obligate intracellular parasites of numerous eukaryotes. Human pathogens of the transitional group (TRG), typhus group (TG), and spotted fever group (SFG) rickettsiae infect blood-feeding arthropods, have dissimilar clinical manifestations, and possess unique genomic and morphological attributes. Lacking glycolysis, rickettsiae pilfer numerous metabolites from the host cytosol to synthesize peptidoglycan and lipopolysaccharide (LPS). For LPS, O-antigen immunogenicity varies between SFG and TG pathogens; however, lipid A proinflammatory potential is unknown. We previously demonstrated that (TRG), (TG), and (SFG) produce lipid A with long 2' secondary acyl chains (C16 or C18) compared to short 2' secondary acyl chains (C12) in (SFG) lipid A. To further probe this structural heterogeneity and estimate a time point when shorter 2' secondary acyl chains originated, we generated lipid A structures for two additional SFG rickettsiae ( and ) utilizing fast lipid analysis technique adopted for use with tandem mass spectrometry (FLAT). FLAT allowed analysis of lipid A structure directly from host cell-purified bacteria, providing a substantial improvement over lipid A chemical extraction. FLAT-derived structures indicate SFG rickettsiae diverging after evolved shorter 2' secondary acyl chains. While 2' secondary acyl chain lengths do not distinguish pathogens from non-pathogens, analyses of LpxL late acyltransferases revealed discrete active sites and hydrocarbon rulers for long versus short 2' secondary acyl chain addition. Our collective data warrant determining lipid A inflammatory potential and how structural heterogeneity impacts lipid A-host receptor interactions.IMPORTANCEDeforestation, urbanization, and homelessness lead to spikes in Rickettsioses. Vector-borne human pathogens of transitional group (TRG), typhus group (TG), and spotted fever group (SFG) rickettsiae differ by clinical manifestations, immunopathology, genome composition, and morphology. We previously showed that lipid A (or endotoxin), the membrane anchor of Gram-negative bacterial lipopolysaccharide (LPS), structurally differs in (later-evolving SFG) relative to (basal SFG), (TG), and (TRG). As lipid A structure influences recognition potential in vertebrate LPS sensors, further assessment of lipid A structural heterogeneity is needed. Here, we sidestepped the difficulty of lipid A chemical extraction by utilizing fast lipid analysis technique adopted for use with tandem mass spectrometry, a new procedure for generating lipid A structures directly from host cell-purified bacteria. These data confirm that later-evolving SFG pathogens synthesize structurally distinct lipid A. Our findings impact interpreting immune responses to different pathogens and utilizing lipid A adjuvant or anti-inflammatory properties in vaccinology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10900879 | PMC |
| http://dx.doi.org/10.1128/msphere.00609-23 | DOI Listing |
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