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Query: UMLS:C0348321 (
Haemophilus
)
15,372
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Many Moraxella catarrhalis strains are resistant to the bactericidal activity of normal human serum (NHS). The UspA2 protein of the serum-resistant strain O35E has previously been shown to be directly involved in conferring serum resistance on this strain. Testing of 11 additional serum-resistant M. catarrhalis wild-type isolates and their uspA1 and uspA2 mutants showed that the uspA1 mutants of all 11 strains were consistently serum resistant and that the uspA2 mutants of these same 11 strains were always serum sensitive. Analysis of complement deposition on four different serum-resistant M. catarrhalis strains and their serum-sensitive uspA2 mutants showed that, for three of these four strain sets, the wild-type and mutant strains bound similar amounts of early complement components. In contrast, there was a significant reduction in the amount of the polymerized C9 on the wild-type strains relative to that on the uspA2 mutants. These same three wild-type strains bound more vitronectin than did their uspA2 mutants. UspA2 proteins from these three strains, when expressed in
Haemophilus
influenzae, bound vitronectin and conferred serum resistance on this organism. Furthermore, vitronectin-depleted NHS exhibited bactericidal activity against these same three serum-resistant wild-type strains; addition of purified vitronectin to this serum restored serum resistance. In contrast, binding of the complement regulator
C4b-binding protein
by the M. catarrhalis strains used in this study was found to be highly variable and did not appear to correlate with the serum-resistant phenotype. These results indicate that binding of vitronectin by UspA2 is involved in the serum resistance of M. catarrhalis; this represents the first example of vitronectin-mediated serum resistance on a microbe.
...
PMID:Binding of vitronectin by the Moraxella catarrhalis UspA2 protein interferes with late stages of the complement cascade. 1649 31
We have previously shown that C3 binding to serum-resistant nontypeable
Haemophilus
influenzae (NTHi) strain R2866 is slower than C3 binding to a serum-sensitive strain. Ab-dependent classical pathway activation is required for complement-dependent killing of NTHi. To further characterize the mechanism(s) of serum resistance of R2866, we compared binding of complement component
C4b
to R2866 with a serum-sensitive variant, R3392. We show that
C4b
binding to R2866 relative to R3392 was delayed, suggesting regulation of the classical pathway of complement. Increased
C4b
deposition on R3392 was independent of the amount and subclass of Ab binding, suggesting that an impediment to
C4b
binding existed on R2866. Immunoblotting and mass spectrometry indicated that lipooligosaccharide and outer membrane proteins P2 and P5 were targets for
C4b
. P2 and P5 sequences and expression levels were similar in both strains. Insertional inactivation of the phase-variable lipooligosaccharide biosynthesis gene lgtC in R2866 augmented
C4b
deposition to levels seen with R3392 and rendered the bacteria sensitive to serum and whole blood. These results suggest a direct role of lgtC expression in the inhibition of
C4b
deposition and consequent serum resistance of R2866. Alteration of surface glycans of NTHi may be a critical event in determining the ability of a strain to evade host defenses and cause disseminated infection.
...
PMID:lgtC expression modulates resistance to C4b deposition on an invasive nontypeable Haemophilus influenzae. 1720 63
Complement evasion by various mechanisms is important for microbial virulence and survival in the host. One strategy used by some pathogenic bacteria is to bind the complement inhibitor of the classical pathway,
C4b-binding protein
(
C4BP
). In this study, we have identified a novel interaction between nontypeable
Haemophilus
influenzae (NTHi) and
C4BP
, whereas the majority of the typeable H. influenzae (a-f) tested showed no binding. One of the clinical isolates, NTHi 506, displayed a particularly high binding of
C4BP
and was used for detailed analysis of the interaction. Importantly, a low
C4BP
-binding isolate (NTHi 69) showed an increased deposition of C3b followed by reduced survival as compared with NTHi 506 when exposed to normal human serum. The main isoform of
C4BP
contains seven identical alpha-chains and one beta-chain linked together with disulfide bridges. Each alpha-chain is composed of eight complement control protein (CCP) modules and we have found that the NTHi 506 strain did not interact with rC4BP lacking CCP2 or CCP7 showing that these two CCPs are important for the binding. Importantly,
C4BP
bound to the surface of H. influenzae retained its cofactor activity as determined by analysis of C3b and
C4b
degradation. Taken together, NTHi interferes with the classical complement activation pathway by binding to
C4BP
.
...
PMID:Interaction with C4b-binding protein contributes to nontypeable Haemophilus influenzae serum resistance. 1747 65
The aim of the present study was to analyze the importance of nontypeable
Haemophilus
influenzae (NTHi) isolated from patients with sepsis (invasive isolates) compared to nasopharyngeal isolates from patients with upper respiratory tract infection for resistance to complement-mediated attack in human serum and to correlate this result with disease severity. We studied and characterized cases of invasive NTHi disease in detail. All patients with invasive NTHi isolates were adults, and 35% had a clinical presentation of severe sepsis according to the ACCP/SCCM classification of sepsis grading. Moreover, 41% of the patients had evidence of immune deficiency. The different isolates were analyzed for survival in human serum and for binding of 125I-labeled, purified human complement inhibitors
C4b-binding protein
(
C4BP
), factor H, and vitronectin, in addition to binding of regulators directly from serum. No significant differences were found when blood-derived and nasopharyngeal isolates were compared, suggesting that interactions with the complement system are equally important for NTHi strains, irrespective of isolation site. Interestingly, a correlation between serum resistance and invasive disease severity was found. The ability to resist the attack of the complement system seems to be important for NTHi strains infecting the respiratory tract as well as the bloodstream.
...
PMID:Binding of complement regulators to invasive nontypeable Haemophilus influenzae isolates is not increased compared to nasopharyngeal isolates, but serum resistance is linked to disease severity. 2008 57
Respiratory tract infections are one of the leading causes of mortality worldwide urging better understanding of interactions between pathogens causing these infections and the host. Here we report that an extracellular matrix component proline/arginine-rich end leucine-rich repeat protein (PRELP) is a novel antibacterial component of innate immunity. We detected the presence of PRELP in human bronchoalveolar lavage fluid and showed that PRELP can be found in alveolar fluid, resident macrophages/monocytes, myofibroblasts, and the adventitia of blood vessels in lung tissue. PRELP specifically binds respiratory tract pathogens
Moraxella catarrhalis
,
Haemophilus
influenzae
, and
Streptococcus pneumoniae
, but not other bacterial pathogens tested. We focused our study on
M. catarrhalis
and found that PRELP binds the majority of clinical isolates of
M. catarrhalis
(
n
= 49) through interaction with the ubiquitous surface protein A2/A2H.
M. catarrhalis
usually resists complement-mediated serum killing by recruiting to its surface a complement inhibitor
C4b-binding protein
, which is also a ligand for PRELP. We found that PRELP competitively inhibits binding of
C4b-binding protein
to bacteria, which enhances membrane attack complex formation on
M. catarrhalis
and thus leads to increased serum sensitivity. Furthermore, PRELP enhances phagocytic killing of serum-opsonized
M. catarrhalis
by human neutrophils in vitro. Moreover, PRELP reduces
Moraxella
adherence to and invasion of human lung epithelial A549 cells. Taken together, PRELP enhances host innate immunity against
M. catarrhalis
through increasing complement-mediated attack, improving phagocytic killing activity of neutrophils, and preventing bacterial adherence to lung epithelial cells.
...
PMID:PRELP Enhances Host Innate Immunity against the Respiratory Tract Pathogen
Moraxella catarrhalis
. 2814 31
