Minor Modifications to the Phosphate Groups and the C3′ Acyl Chain Length of Lipid A in Two Bordetella pertussis Strains, BP338 and 18-323, Independently Affect Toll-like Receptor 4 Protein Activation

Shah, Nita R.; Albitar-Nehme, Sami; Kim, Emma; Marr, Nico; Новиков, А. В.; Caroff, Martine; Fernandez, Rachel C.

doi:10.1074/jbc.m112.434365

Cited by 35 publications

(42 citation statements)

References 39 publications

(45 reference statements)

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“…Using mass spectrometry, we showed that this lipid A alteration described for the B1121/18-323 strain also occurs in the clinical B. pertussis isolates B1120 and B0442. Furthermore, a mutation in the lpxLA gene, leading to an S173ϾL substitution, as also described recently for B. pertussis 18-323 by Shah et al (31), was observed in these two strains. This substitution likely explains the presence of C 10 -OH or C 12 -OH acyl chains instead of C 14 -OH at the C-3= position of the lipid A molecule.…”

Section: Discussionmentioning

confidence: 59%

“…Besides the alteration in the length of the acyl chain on the C-3= position, a lack of GlcN modification was also found with all three isolates. Surprisingly, for the isolates B0442 and B1120, no mutations were found in the genes involved in GlcN modification, unlike a deletion mutation in the lgmB gene described for the B1121/18-323 strain (31). In the Bvg ϩ or virulent phase of the bacterium, the genes involved in the GlcN modifications are transcribed, leading to the addition of GlcN to the lipid A moieties (63).…”

Section: Discussionmentioning

confidence: 99%

“…To determine whether the structural changes found in the LOS of the B0442, B1120, and B1121 isolates correspond to alterations in the genes involved in LOS synthesis (45), the sequences of these genes were analyzed and compared to the gene sequence of the Tohama I strain (Table 2). Shah et al described for the B1121/18-323 strain a substitution of a leucine for a serine at amino acid 173 (S173ϾL) in the LpxA protein (31). This is the first enzyme of the LPS biosynthesis pathway, and it catalyzes acylation of the C-3 position of the UDP N-acetylglucosamine backbone, forming UDP-3-O-acyl N-acetylglucosamine (46).…”

Section: Resultsmentioning

confidence: 99%

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Bordetella pertussis Naturally Occurring Isolates with Altered Lipooligosaccharide Structure Fail To Fully Mature Human Dendritic Cells

et al. 2015

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bBordetella pertussis is a Gram-negative bacterium and the causative agent of whooping cough. Despite high vaccination coverage, outbreaks are being increasingly reported worldwide. Possible explanations include adaptation of this pathogen, which may interfere with recognition by the innate immune system. Here, we describe innate immune recognition and responses to different B. pertussis clinical isolates. By using HEK-Blue cells transfected with different pattern recognition receptors, we found that 3 out of 19 clinical isolates failed to activate Toll-like receptor 4 (TLR4). These findings were confirmed by using the monocytic MM6 cell line. Although incubation with high concentrations of these 3 strains resulted in significant activation of the MM6 cells, it was found to occur mainly through interaction with TLR2 and not through TLR4. When using live bacteria, these 3 strains also failed to activate TLR4 on HEK-Blue cells, and activation of MM6 cells or human monocyte-derived dendritic cells was significantly lower than activation induced by the other 16 strains. Mass spectrum analysis of the lipid A moieties from these 3 strains indicated an altered structure of this molecule. Gene sequence analysis revealed mutations in genes involved in lipid A synthesis. Findings from this study indicate that B. pertussis isolates that do not activate TLR4 occur naturally and that this phenotype may give this bacterium an advantage in tempering the innate immune response and establishing infection. Knowledge on the strategies used by this pathogen in evading the host immune response is essential for the improvement of current vaccines or for the development of new ones.T he innate immune system is the first line of defense against invading pathogens. In order to recognize these microorganisms, innate immune cells express multiple pathogen recognition receptors (PRR) consisting of various receptor families, including the most-studied Toll-like receptors (TLRs) (1). Evasion of this first recognition can be critical for the pathogen establishing infection. Additionally, the innate immune system is essential for the induction and regulation of the adaptive response. For example, dendritic cells (DCs) can produce interleukin-12p70 (IL12p70), which is associated with the differentiation of T helper 1 (Th1) cells or cytotoxic T cells (2, 3) and IL-1␤, IL-6, and IL-23, which are required for differentiation and survival of Th17 cells (4, 5). Pathogen adaptation, through changes in the structure or expression of molecules which interact with the host, might allow the pathogen to escape the host immune responses.Pertussis, also referred to as whooping cough, is a humanspecific respiratory disease caused by the Gram-negative bacterium Bordetella pertussis. It has been shown that B. pertussis is able to activate both TLR2 and TLR4 signaling on innate immune cells, which is essential for inducing protective immunity against this bacterium (6-9). A well-defined ligand for TLR4 is lipopolysaccharide (LPS), which is produced by Gram-nega...

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Section: Discussionmentioning

confidence: 59%

Section: Discussionmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Bordetella pertussis Naturally Occurring Isolates with Altered Lipooligosaccharide Structure Fail To Fully Mature Human Dendritic Cells

et al. 2015

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“…The modification of phosphate groups with aminoarabinose decreases the net negative charge on LPS and renders S. Typhimurium resistant to the antimicrobial cationic peptide, polymyxin (15). In B. pertussis, the ArnT activity of the homologue LgmB is induced in the Bvg ϩ phase and mediates the addition of GlcN to both terminal phosphate groups of the lipid A, which is associated with increased stimulation of TLR4 activity in an HEK-Blue assay and upon infection of human macrophages (10,11,16 3OH-C14 3OH-C14 3OH-C14 3OH-C14 3OH-C14 3OH-C14 C14 3OH-C14 C16 C12 C14 C12 C12 C14 3OH-C14 3OH- killing by polymyxin B (10). ArnT-mediated addition of GlcN has also been reported for B. parapertussis (17) and B. bronchiseptica strain 4650 (11).…”

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Enzymatic Modification of Lipid A by ArnT Protects Bordetella bronchiseptica against Cationic Peptides and Is Required for Transmission

et al. 2014

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“…One of the best illustrated examples of structure to activity relationships, related to the low number and short length of FA carbon chains, is that of B. pertussis, displaying mixtures of tetra-and penta-acyl molecular lipid A species. This example has been extensively studied (20,39,45) and compared with standard LPS as well as to closely related structures differing by only two carbons in a single FA at C3′ or the presence of GlcN on both phosphate groups. Both B. pertussis lipids A were hypo-acylated with tetra-and penta-acyl molecular species.…”

Section: Discussionmentioning

confidence: 99%

Structural and biological characteristics of different forms of V. filiformis lipid A: use of MS to highlight structural discrepancies

Breton

Новиков

Martin

et al. 2017

Journal of Lipid Research

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bacterium. This is a signature for which each small detail may exert important differences on LPS recognition by host cells and signal transduction (2). LPS does not necessarily induce a toxic response, so all LPSs are not endotoxins, but endotoxins are always composed of LPSs. LPSs are the first nonsecreted toxins found to interact with host innate immunity, generating cytokine production, immune cell recruitment, and specific host-cell responses leading, at higher doses, to multiple organ failure and septic shock (3). The smallest change in the structures of LPSs or their hydrophobic moiety, named lipid A, is directly linked to innate immune recognition and development of a specific host response. The interaction between LPS molecules and their innate receptor, the MD-2/TLR4 complex, is greatly affected by the fine details of LPS structures. First, LPS molecules are recognized by the LPS binding protein and presented as monomers to the soluble or membrane CD14 receptors. Then, the LPS is transferred to the MD-2/TLR4 complex (2, 4) allowing its dimerization of the receptor through ionic and hydrophobic interactions and activation of the cellular signaling pathways. Among these, the activation of the NFB pathway directly induces rapid pro-inflammatory cytokine production. Secreted cytokines are ultimately central to the generation of efficient responses to pathogens and the activation of the adaptive immune system (5, 6).The Neisseriaceae family members, including the Vitreoscilla genus, are obligate aerobic bacteria described for the first time in 1949 by E. G. Pringsheim (7) as colorless gliding filamentous organisms. Similar organisms were in fact described earlier by Cohn (8) in 1870. They are known as the first genus in which bacterial hemoglobin (VHb) was discovered (9).Abstract Vitreoscilla filiformis is a Gram-negative bacterium isolated from spa waters and described for its beneficial effects on the skin. We characterized the detailed structure of its lipopolysaccharide (LPS) lipid A moiety, an active component of the bacterium that contributes to the observed skin activation properties. Two different batches differing in postculture cell recovery were tested. Chemical analyses and mass spectra, obtained before and after mild-alkali treatments, revealed that these lipids A share the common bisphosphorylated - (1→6) Lipopolysaccharides (LPSs) are the main components of the outer-membrane of Gram-negative bacteria, representing about 10 6 molecules per bacterium (1). They are also major antigens displaying unique structures for each

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Minor Modifications to the Phosphate Groups and the C3′ Acyl Chain Length of Lipid A in Two Bordetella pertussis Strains, BP338 and 18-323, Independently Affect Toll-like Receptor 4 Protein Activation

Cited by 35 publications

References 39 publications

Bordetella pertussis Naturally Occurring Isolates with Altered Lipooligosaccharide Structure Fail To Fully Mature Human Dendritic Cells

Bordetella pertussis Naturally Occurring Isolates with Altered Lipooligosaccharide Structure Fail To Fully Mature Human Dendritic Cells

Enzymatic Modification of Lipid A by ArnT Protects Bordetella bronchiseptica against Cationic Peptides and Is Required for Transmission

Structural and biological characteristics of different forms of V. filiformis lipid A: use of MS to highlight structural discrepancies

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