lactoferrin and Haemophilus-Infections

Airway inflammation during infection is associated with increased transudation of serum proteins and increased production of protein by the airway epithelium. We therefore, assessed whether Haemophilus influenzae infections in patients with chronic bronchitis are associated with increased levels of transferrin and lactoferrin in the sputum compared to uninfected patients. Sputum sol phase and serum samples from 14 infected and 13 uninfected patients with chronic bronchitis and from 12 bronchial asthma patients were included in the study. The median Q-values (the concentration in sputum sol phase/the concentration in serum) x 10(3) of transferrin appeared increased in chronic bronchitis patients with an H. influenzae infection (26.0, n=13) compared to uninfected controls (9.5, n=11) and bronchial asthma patients (4.5, n=6). The ratio of the Q(transferrin)/Q(albumin) was >1 in infected chronic bronchitis patients, indicating local production of transferrin. Growth of H. influenzae was stimulated more in sputum from infected and uninfected patients with chronic bronchitis than in sputum from patients with bronchial asthma. The concentrations of lactoferrin were not significantly different in infected (n=14) and uninfected (n=13) chronic bronchitis patients and bronchial asthma patients (n=12) (median 137.4, 84.6, 87.1 mg x L(-1), respectively). We conclude that in patients with chronic bronchitis with Haemophilus influenzae infections, the levels of transferrin are increased and the levels of lactoferrin are not associated with infections.

Topics: Adult; Aged; Aged, 80 and over; Bronchitis; Chronic Disease; Exudates and Transudates; Female; Haemophilus Infections; Haemophilus influenzae; Humans; Lactoferrin; Male; Middle Aged; Sensitivity and Specificity; Sputum; Transferrin

Pathogenic bacteria colonize the airways of 30% to 40% of patients with COPD and cause approximately 50% of exacerbations. New strains of nontypeable Haemophilus influenzae (NTHI) and Moraxella catarrhalis are associated with exacerbations. Antimicrobial protein/peptides (AMPs) play important roles in innate lung defense against pathogens. To our knowledge, the changes in AMP baseline levels in respiratory secretions during bacterial colonization and exacerbation have not been described. The objective of this study was to elucidate the effects of the acquisition of a new strain of pathogenic bacteria on the airway levels of AMPs in patients with COPD.. One hundred fifty-three samples from 11 patients were selected from COPD sputum samples collected prospectively over 6 years. Samples were grouped as culture-negative (no pathogenic bacteria), colonization, and exacerbation due to new strains of NTHI and M catarrhalis. Levels of lysozyme, lactoferrin, LL-37, and secretory leukocyte protease inhibitor (SLPI) were measured by enzyme-linked immunosorbent assay and compared among groups by paired analysis.. Compared with baseline, sputum lysozyme levels were significantly lower during colonization and exacerbation by NTHI (P = .001 and P = .013, respectively) and M catarrhalis (P = .007 and P = .018, respectively); SLPI levels were lower with exacerbation due to NTHI and M catarrhalis (P = .002 and P = .004, respectively), and during colonization by M catarrhalis (P = 032). Lactoferrin levels did not change significantly; LL-37 levels were higher during exacerbation by NTHI and M catarrhalis (P = .001 and P = .018, respectively).. Acquisition of NTHI and M catarrhalis is associated with significant changes in airway levels of AMPs, with larger changes in exacerbation. Airway AMP levels are likely to be important in pathogen clearance and clinical outcomes of infection in COPD.

Topics: Aged; Aged, 80 and over; Antimicrobial Cationic Peptides; beta-Defensins; Cathelicidins; Disease Progression; Female; Haemophilus Infections; Haemophilus influenzae; Humans; Inflammation; Lactoferrin; Male; Middle Aged; Moraxella catarrhalis; Moraxellaceae Infections; Muramidase; Prospective Studies; Pulmonary Disease, Chronic Obstructive; Secretory Leukocyte Peptidase Inhibitor; Sputum

The role of bovine serum or plasma proteins in Haemophilus somnus virulence was investigated in a mouse model of septicemia. An increase in virulence was detected when the organism was pre-incubated for 5 min and inoculated with fetal calf serum. When purified bovine serum or plasma proteins were pre-incubated with H. somnus before inoculating into mice, transferrin was found to increase virulence. Bovine lactoferrin was also noted to increase virulence, but to a lesser extent and had a delayed time course when compared with transferrin. Using an ELISA assay, an increased amount of H. somnus whole cells and culture supernatant bound to bovine transferrin when the organism was grown in iron-restricted media. Lactoferrin also bound to H. somnus, but binding was not affected by growth in iron-restricted media and it was eliminated with 2M NaCl, which reversed charge mediated binding. Transferrin, but not lactoferrin, supported growth of H. somnus on iron-depleted agar based media using a disk assay. Therefore, lactoferrin increased virulence by an undetermined mechanism whereas transferrin increased virulence of H. somnus by binding to iron-regulated outer-membrane proteins (IROMPs) and providing iron to the pathogen.

Topics: Animals; Bacteremia; Cattle; Culture Media; Female; Haemophilus Infections; Haemophilus somnus; Iron; Lactoferrin; Mice; Mice, Inbred Strains; Protein Binding; Transferrin; Virulence

Since the ability of bacteria to compete with lactoferrin for iron contributes to the pathogenesis of mucosal infections, the presence of lactoferrin receptor activity in non-encapsulated Haemophilus influenzae was investigated. The growth of 18 H. influenzae isolates from the sputum samples of chronic bronchitis patients and of six of seven H. influenzae throat isolates from healthy adults was stimulated by iron saturated human lactoferrin. Apo-lactoferrin did not stimulate the growth of H. influenzae. Human lactoferrin binding to iron limited bacteria was detected for 16 H. influenzae strains from chronic bronchitis patients and for five of seven isolates from healthy adults. We conclude that the majority of H. influenzae isolates tested bind human lactoferrin and that the iron from lactoferrin is used for growth.

Topics: Adult; Bronchitis; Haemophilus Infections; Haemophilus influenzae; Humans; In Vitro Techniques; Iron; Lactoferrin; Receptors, Cell Surface

Nontypeable Haemophilus influenzae strains are the most common pathogens encountered in patients with chronic bronchitis. These organisms chronically colonize the airways of patients and occasionally cause bacteremia. Nontypeable H. influenzae strains have been demonstrated microscopically to bind to mucus, but quantitative studies of adhesion have not been published to date. We have therefore developed a reproducible microtiter plate assay to study mucin binding and have examined the adhesion of sputum and blood strains of nontypeable H. influenzae. The assay is similar to that described for Pseudomonas aeruginosa (S. Vishwanath and R. Ramphal, Infect. Immun. 45:197-202, 1984), but notably 2% Tween 20 is used to desorb bacteria from the wells to quantitate bacterial binding. Using a standard strain, we have established that 1 h of incubation is optimum with an inoculum of < or = 5 x 10(8) CFU/ml. The standard strain binds to bronchitic and cystic fibrosis mucins equally well but binds less to bronchiectasis mucins. It does not bind to bovine serum albumin or fetuin. We have also examined the levels of adhesion of freshly isolated sputum and bacteremia strains and find very significant differences in adhesion. Blood strains bound six to seven times less than sputum strains ([13.8 +/- 7] x 10(2) per well versus [102 +/- 43] x 10(2); P < 0.001). Studies with adhesion to lactoferrin, another glycosylated protein, revealed variable binding of respiratory strains but marked binding of blood strains compared with mucin. An isogenic pair of respiratory and blood isolates was examined by electron microscopy but did not show surface differences. We speculate that bacteremic strains studied may have masked, lost, or downregulated adhesin production to allow them to escape from mucins or upregulated adhesins for lactoferrin to invade the bloodstream.

Topics: Bacterial Adhesion; Bacterial Typing Techniques; Blood; Haemophilus Infections; Haemophilus influenzae; Hemagglutination Tests; Humans; Lactoferrin; Mucins; Respiratory System; Sputum