Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
C1 esterase inhibitor
(C1inh) is a major inhibitor of several pathways of inflammation in humans. In this study, we show that virulent-phase cultures of Bordetella
pertussis
, the etiological agent for whooping cough, but not other Bordetella species specifically recruit C1inh from human serum. Using a spontaneous mutant of B.
pertussis
that was deficient in C1inh binding, we demonstrate that the ability of B.
pertussis
to acquire high levels of human C1inh and wild-type levels of serum resistance are well correlated, suggesting that, in addition to and independent of BrkA expression, acquisition of C1inh is vital to B.
pertussis
resistance to complement-mediated killing.
...
PMID:Bordetella pertussis binds human C1 esterase inhibitor during the virulent phase, to evade complement-mediated killing. 1723 Apr 19
Bordetella
pertussis
causes whooping cough in humans, a highly contagious disease of the upper respiratory tract. An increase in cases of whooping cough in adolescents and adults in many countries has been reported, despite high immunization rates in children. To efficiently colonize the host the bacteria have to resist complement, the first defence line of innate immunity. B.
pertussis
has previously been shown to bind the classical pathway inhibitors C4b-binding protein and
C1-inhibitor
being thereby able to escape the classical pathway of complement. In this study recent clinical isolates of B.
pertussis
and B. parapertussis were found to survive alternative pathway attack in fresh non-immune serum better than the reference B.
pertussis
strain, Tohama I. By using adsorption assays, flow cytometry and a radioligand binding assay we observed that both B.
pertussis
and B. parapertussis bound the alternative pathway inhibitor factor H (FH) from normal human serum. The surface attached FH maintained its complement regulatory activity and promoted factor I-mediated cleavage of C3b. The main binding region was located to the C-terminal part of FH, into short consensus repeat domains 19-20. In contrast, the avian pathogen B. avium did not bind FH and was sensitive to the alternative pathway of human complement. In conclusion, the human pathogens B.
pertussis
and B. parapertussis are able to evade the alternative complement pathway by surface acquisition of the host complement regulator FH.
...
PMID:Interactions between Bordetella pertussis and the complement inhibitor factor H. 2116 5
Bordetella
pertussis
employs numerous strategies to evade the immune system, including the ability to resist killing via complement. Previously we have shown that B.
pertussis
binds a complement regulatory protein,
C1 esterase inhibitor
(C1inh) to its surface in a Bvg-regulated manner (i.e. during its virulence phase), but the B.
pertussis
factor was not identified. Here we set out to identify the B.
pertussis
C1inh-binding factor. Using a serum overlay assay, we found that this factor migrates at approximately 100 kDa on an SDS-PAGE gel. To identify this factor, we isolated proteins of approximately 100 kDa from wild type strain BP338 and from BP347, an isogenic Bvg mutant that does not bind C1inh. Using mass spectrometry and bioinformatics, we identified the autotransporter protein Vag8 as the putative C1inh binding protein. To prove that Vag8 binds C1inh, vag8 was disrupted in two different B.
pertussis
strains, namely BP338 and 18-323, and the mutants were tested for their ability to bind C1inh in a surface-binding assay. Neither mutant strain was capable of binding C1inh, whereas a complemented strain successfully bound C1inh. In addition, the passenger domain of Vag8 was expressed and purified as a histidine-tagged fusion protein and tested for C1inh-binding in an ELISA assay. Whereas the purified Vag8 passenger bound C1inh, the passenger domain of BrkA (a related autotransporter protein) failed to do so. Finally, serum assays were conducted to compare wild type and vag8 mutants. We determined that vag8 mutants from both strains were more susceptible to killing compared to their isogenic wild type counterparts. In conclusion, we have discovered a novel role for the previously uncharacterized protein Vag8 in the immune evasion of B.
pertussis
. Vag8 binds C1inh to the surface of the bacterium and confers serum resistance.
...
PMID:Bordetella pertussis autotransporter Vag8 binds human C1 esterase inhibitor and confers serum resistance. 2169 23
Whooping cough, or
pertussis
, is a contagious disease of the respiratory tract that is re-emerging worldwide despite high vaccination coverage. The causative agent of this disease is the Gram-negative Bordetella
pertussis
. Knowledge on complement evasion strategies of this pathogen is limited. However, this is of great importance for future vaccine development as it has become apparent that a novel
pertussis
vaccine is needed. Here, we unravel the effect of Virulence associated gene 8 (Vag8) of B.
pertussis
on the human complement system at the molecular level. We show that both recombinant and endogenously secreted Vag8 inhibit complement deposition on the bacterial surface at the level of C4b. We reveal that Vag8 binding to human
C1-inhibitor
(C1-inh) interferes with the binding of C1-inh to C1s, C1r and MASP-2, resulting in the release of active proteases that subsequently cleave C2 and C4 away from the bacterial surface. We demonstrate that the depletion of these complement components in the bacterial surrounding and subsequent decreased deposition on B.
pertussis
leads to less complement-mediated bacterial killing. Vag8 is the first protein described that specifically prevents C1s, C1r and MASP-2 binding to C1-inh and thereby mediates complement consumption away from the bacterial surface. Unravelling the mechanism of this unique complement evasion strategy of B.
pertussis
is one of the first steps towards understanding the interactions between the first line of defense complement and B.
pertussis
.
...
PMID:Acquisition of C1 inhibitor by Bordetella pertussis virulence associated gene 8 results in C2 and C4 consumption away from the bacterial surface. 2874 39
Whooping cough is a re-emerging respiratory tract infection. It has become clear that there is a need for better understanding of protective immune responses and variation between Bordetella
pertussis
strains to aid the development of improved vaccines. In order to survive in the host, B.
pertussis
has evolved mechanisms to evade complement-mediated killing, including the ability to bind complement-regulatory proteins. Here we evaluate the variation in interactions with the complement system among recently isolated strains. Isolates whose genomes appear highly similar and cluster together on a SNP-based dendrogram were found to vary significantly in resistance to complement-mediated killing and in the deposition of C3b/iC3b, C5b-9 and
C1 esterase inhibitor
(
C1-INH
). The key role of Vag8 as a receptor for
C1-INH
was confirmed and its expression was shown to vary in a panel of isolates. A Vag8 knockout mutant showed increased sensitivity to complement-mediated killing. Antibodies in convalescent sera blocked
C1-INH
binding to B.
pertussis
and may play an important role in natural immunity.
...
PMID:Bordetella pertussis isolates vary in their interactions with human complement components. 2973 22
Bordetella
pertussis
is a Gram-negative bacterium and the causative agent of whooping cough. Whooping cough is currently re-emerging worldwide and, therefore, still poses a continuous global health threat.
B.
pertussis
expresses several virulence factors that play a role in evading the human immune response. One of these virulence factors is virulence associated gene 8 (Vag8). Vag8 is a complement evasion molecule that mediates its effects by binding to the complement regulator
C1 inhibitor
(
C1-INH
). This regulatory protein is a fluid phase serine protease that controls proenzyme activation and enzyme activity of not only the complement system but also the contact system. Activation of the contact system results in the generation of bradykinin, a pro-inflammatory peptide. Here, the activation of the contact system by
B.
pertussis
was explored. We demonstrate that recombinant as well as endogenous Vag8 enhanced contact system activity by binding
C1-INH
and attenuating its inhibitory function. Moreover, we show that
B.
pertussis
itself is able to activate the contact system. This activation was dependent on Vag8 production as a Vag8 knockout
B.
pertussis
strain was unable to activate the contact system. These findings show a previously overlooked interaction between the contact system and the respiratory pathogen
B.
pertussis
. Activation of the contact system by
B.
pertussis
may contribute to its pathogenicity and virulence.
...
PMID:Virulence Associated Gene 8 of
Bordetella pertussis
Enhances Contact System Activity by Inhibiting the Regulatory Function of Complement Regulator C1 Inhibitor. 2991 76
An autotransporter of Bordetella
pertussis
, virulence-associated gene 8 (Vag8), binds and inactivates the complement regulator,
C1 inhibitor
(C1-Inh), and plays a role in evasion of the complement system. However, the molecular interaction between Vag8 and C1-Inh remains unclear. Here, we localized the minimum region of Vag8 required for interaction with C1-Inh by examining the differently truncated Vag8 derivatives for the ability to bind and inactivate C1-Inh. The truncated Vag8 containing amino-acid residues 102-548, but not 102-479 and 202-648, showed the full activity of intact Vag8, suggesting that the separate 102-202 and 548-648 amino-acid regions of Vag8 mediate the interaction with C1-Inh.
...
PMID:Identification of the minimum region of Bordetella pertussis Vag8 required for interaction with C1 inhibitor. 3239 37
