In vitro activity of ABT-773 against Legionella pneumophila, its pharmacokinetics in guinea pigs, and its use to treat guinea pigs with L. pneumophila pneumonia

Antibiotics in development targeting protein synthesis

The resolution of antibiotic-ribosomal subunit complexes and antibacterial-protein complexes at the atomic level has provided new insights into modifications of clinically relevant antimicrobials and provided new classes that target the protein cellular apparatus. New chemistry platforms that use fragment-based drug design or allow novel modifications in known structural classes are being used to design new antibiotics that overcome known resistance mechanisms and extend spectrum and potency by circumventing ubiquitous efflux pumps. This review provides details on seven antibiotics in development for treatment of moderate-to-severe community-acquired bacterial pneumonia and/or acute bacterial skin and skin structure infections: solithromycin, cethromycin, omadacycline, CEM-102, GSK1322322, radezolid, and tedizolid. Two antibiotics of the oxazolidinone class, PF-02341272 and AZD5847, are being developed as antituberculosis agents. Only three antibiotics that target the protein cellular machinery, TP-434, GSK2251052, and plazomicin, have a spectrum that encompasses multidrug-resistant Gram-negative pathogens. These compounds provide hope for treating key pathogens that cause serious disease in both the community and the hospital.

Antimicrobial Chemotherapy for Legionnaires Disease: Levofloxacin versus Macrolides

BACKGROUND

The community outbreak of legionnaires disease that occurred in Murcia, Spain, in July 2001--to our knowledge, the largest such outbreak ever reported--afforded an unusual opportunity to compare the clinical response of patients with Legionella pneumonia treated with levofloxacin with that of patients treated with macrolides and to determine the role of rifampicin combined with levofloxacin in treating severe legionellosis.

METHODS

An observational, prospective, nonrandomized study was conducted involving 292 patients seen at our hospital (Hospital "J. M. Morales Meseguer"; Murcia, Spain) who received a diagnosis of Legionella pneumonia during the Murcia outbreak. To compare both antibiotic regimens (macrolides vs. levofloxacin), patients were stratified by the severity of pneumonia. Duration of fever, clinical outcome, complications, side effects, and length of hospital stay were recorded. To assess the potential effects of adjuvant therapy with rifampicin, 45 case patients treated with levofloxacin plus rifampicin were evaluated and compared with 45 control pairs who were treated with levofloxacin alone.

RESULTS

With the exception of 2 patients who died, all patients were cured. There were no significant differences between treatment groups in clinical outcome for patients with mild-to-moderate pneumonia. Nevertheless, in patients with severe pneumonia, levofloxacin exerted superior activity; it was associated with fewer complications (3.4% of patients receiving levofloxacin experienced complications, compared with 27.2% of patients receiving macrolides; P=.02) and shorter mean hospital stays (5.5 vs. 11.3 days; P=.04). Addition of rifampicin to the treatment regimen for patients receiveing levofloxacin for severe pneumonia provides no additional benefit.

CONCLUSIONS

Our findings strongly suggest that monotherapy with levofloxacin is a safe and effective treatment for legionnaires disease, including in patients with severe disease. In these patients, levofloxacin appears to be more effective than clarithromycin.

Host-pathogen relationships among Escherichia coli isolates recovered from men with febrile urinary tract infection

BACKGROUND

Host-pathogen relationships in men with febrile urinary tract infection (FUTI) are poorly understood.

METHODS

Phylogenetic background, extended virulence genotypes, and serotypes were determined for 70 Escherichia coli isolates recovered from urine samples obtained from men with FUTI for comparison with available data for 70 E. coli rectal isolates recovered from uninfected men. Bacterial traits were assessed in relation to underlying host characteristics (age, compromise status, and history of urinary tract infection) and acute manifestations (bacteremia, flank pain, and serum prostate-specific antigen [PSA] level).

RESULTS

Compared with rectal isolates, FUTI isolates exhibited a significantly higher prevalence of virulence-associated phylogenetic groups, serotypes, and extraintestinal virulence genes. The latter included traditional prostatitis-associated traits (e.g., hemolysin and cytotoxic necrotizing factor), as well as unconventional traits, such as outer membrane protease T. These bacterial traits occurred largely independent of host age, urological compromise status, urinary tract infection history, and acute manifestations. However, certain traits were less prevalent in association with use of urinary tract instrumentation and significantly predicted elevated PSA levels.

CONCLUSIONS

Considerable virulence capability may be required for an E. coli strain to cause FUTI in men, regardless of whether most compromising conditions are present. Bacterial traits that promote prostatic invasion may be relevant for the pathogenesis of FUTI, even among men without classic manifestations of acute prostatitis.

[Guidelines for the management of community pneumonia in adult who needs hospitalization]

Community acquired pneumonia is still an important health problem. In Spain the year incidence is 162 cases per 100,000 inhabitants with 53,000 hospital admission costing 115 millions of euros per year. In the last years there have been significant advances in the knowledge of: aetiology, diagnostic tools, treatment alternatives and antibiotic resistance. The Spanish Societies of Intensive and Critical Care (SEMICYUC), Infectious Diseases and Clinical Microbiology (SEIMC) and Pulmonology and Thoracic Surgery (SEPAR) have produced these evidence-based Guidelines for the management of community acquired pneumonia in Adults. The main objective is to help physicians to make decisions about this disease. The different points that have been developed are: aetiology, diagnosis, treatment and prevention.

Steady-state plasma and intrapulmonary pharmacokinetics and pharmacodynamics of cethromycin

The objective of this study was to determine the steady-state plasma and intrapulmonary pharmacokinetic parameters of orally administered cethromycin in healthy volunteers. The study design included administering 150 or 300 mg of cethromycin once daily to 25 or 35 healthy adult subjects, respectively, for a total of five doses. Standardized and timed bronchoalveolar lavage (BAL) was performed after the last dose. Blood was obtained for drug assay prior to the first and last dose, at multiple time points following the last dose, and at the time of BAL. Cethromycin was measured in plasma, BAL, and alveolar cell (AC) by using a combined high-performance liquid chromatography-mass spectrometric technique. Plasma, epithelial lining fluid (ELF), and AC pharmacokinetics were derived by noncompartmental methods. C(max)/90% minimum inhibitory concentration (MIC(90)) ratios, area under the concentration-time curve (AUC)/MIC(90) ratios, intrapulmonary drug exposure ratios, and percent time above MIC(90) during the dosing interval (%T > MIC(90)) were calculated for recently reported respiratory pathogens. The kinetics were nonlinear, i.e., not proportional to dose. In the 150-mg-dose group, the C(max) (mean +/- standard deviations), AUC(0-24), and half-life for plasma were 0.181 +/- 0.084 microg/ml, 0.902 +/- 0.469 microg. h/ml, and 4.85 +/- 1.10 h, respectively; for ELF the values were 0.9 +/- 0.2 microg/ml, 11.4 microg. h/ml, and 6.43 h, respectively; for AC the values were 12.7 +/- 6.4 microg/ml, 160.8 microg. h/ml, and 10.0 h, respectively. In the 300-mg-dose group, the C(max) (mean +/- standard deviations), AUC(0-24), and half-life for plasma were 0.500 +/- 0.168 microg/ml, 3.067 +/- 1.205 microg. h/ml, and 4.94 +/- 0.66 h, respectively; for ELF the values were 2.7 +/- 2.0 microg/ml, 24.15 microg. h/ml, and 5.26 h, respectively; for AC the values were 55.4 +/- 38.7 microg/ml, 636.2 microg. h/ml, and 11.6 h, respectively. We concluded that the C(max)/MIC(90) ratios, AUC/MIC(90) ratios, %T > MIC(90) values, and extended plasma and intrapulmonary half-lives provide a pharmacokinetic rationale for once-daily administration and are favorable for the treatment of cethromycin-susceptible pulmonary infections.

Legionella spp.: community acquired and nosocomial infections

PURPOSE OF REVIEW

The key points of this review are the increasingly recognized risk of home-acquired Legionnaires' disease; the significance and potential pathogenic role of other species of Legionella spp., different from L. pneumophila, and of other microorganisms that are phylogenetically close to Legionella and that have been named as Legionella-like amoebal pathogens; the breakthrough in the diagnosis of the disease caused by new commercially available urine antigen detection tests; the controversy over sensitivity and specificity of serological diagnostic methods; the recognition of a variety of possible mixed infections, particularly in the immunocompromised population; and new and controversial aspects of the therapeutic approach to legionellosis.

RECENT FINDINGS

During the last year a number of articles have provided clinically relevant insights into our knowledge of Legionnaires' disease. In view of the fact that Legionella spp. have progressively become recognized as relatively common causative agents of both community-acquired and nosocomial legionellosis, this is an opportune moment for this review.

SUMMARY

If domestic aquatic reservoirs were eventually confirmed as significant agents of transmission of legionellosis, the adoption of preventive measures would then be crucial. The progressive identification of other species, different from L. pneumophila, as causative agents of pneumonia should both encourage microbiologists and clinicians to improve their diagnostic methodology and increase the awareness of these infections. Finally, the awareness of mixed infections, probably far more severe and perhaps not so uncommon as previously thought, has important clinical connotations for both the diagnostic and the therapeutic approach to legionellosis in the immunosuppressed host, particularly in those cases of delayed clinical resolution.

Activities of tigecycline (GAR-936) against Legionella pneumophila in vitro and in guinea pigs with L. pneumophila pneumonia

The activities of tigecycline (Wyeth Research) against extracellular and intracellular Legionella pneumophila and for the treatment of guinea pigs with L. pneumophila pneumonia were studied. The tigecycline MIC at which 50% of strains are inhibited for 101 different Legionella sp. strains was 4 micro g/ml versus 0.125 and 0.25 micro g/ml for azithromycin and erythromycin, respectively. Tigecycline was about as active as erythromycin (tested at 1 micro g/ml) against the F889 strain of L. pneumophila grown in guinea pig alveolar macrophages and more active than erythromycin against the F2111 strain. Azithromycin (0.25 micro g/ml) was more active than (F889) or as active as (F2111) tigecycline (1 micro g/ml) in the macrophage model. When tigecycline was given (7.5 mg/kg of body weight subcutaneously once) to guinea pigs with L. pneumophila pneumonia, the mean peak serum and lung levels were 2.3 and 1.8 micro g/ml (1.2 and 1.5 micro g/g) at 1 and 2 h postinjection, respectively. The serum and lung areas under the concentration time curve from 0 to 24 h were 13.7 and 15.8 micro g. h/ml, respectively. Thirteen of 16 guinea pigs with L. pneumophila pneumonia treated with tigecycline (7.5 mg/kg subcutaneously once daily for 5 days) survived for 7 days post-antimicrobial therapy, as did 11 of 12 guinea pigs treated with azithromycin (15 mg/kg intraperitoneally once daily for 2 days). None of 12 guinea pigs treated with saline survived. Tigecycline-treated guinea pigs had average end of therapy lung counts of 1 x 10(6) CFU/g (range, 2.5 x 10(4) to 3.2 x 10(6) CFU/g) versus <1 x 10(2) CFU/g for azithromycin (range, undetectable to 100 CFU/g). A second guinea pig study examined the ability of tigecycline to clear L. pneumophila from the lung after 5 to 9 days of therapy; bacterial concentrations 1 day posttherapy ranged from log(10) 4.2 to log(10) 5.5 CFU/g for four different dosing regimens. Tigecycline is about as effective as erythromycin against intracellular L. pneumophila, but tigecycline inactivation by the test media confounded the interpretation of susceptibility data. Tigecycline was effective at preventing death from pneumonia in an animal model of Legionnaires' disease, warranting human clinical trials of the drug for the disease.

The ketolides: a critical review

Ketolides are a new class of macrolides designed particularly to combat respiratory tract pathogens that have acquired resistance to macrolides. The ketolides are semi-synthetic derivatives of the 14-membered macrolide erythromycin A, and retain the erythromycin macrolactone ring structure as well as the D-desosamine sugar attached at position 5. The defining characteristic of the ketolides is the removal of the neutral sugar, L-cladinose from the 3 position of the ring and the subsequent oxidation of the 3-hydroxyl to a 3-keto functional group. The ketolides presently under development additionally contain an 11, 12 cyclic carbamate linkage in place of the two hydroxyl groups of erythromycin A and an arylalkyl or an arylallyl chain, imparting in vitro activity equal to or better than the newer macrolides. Telithromycin is the first member of this new class to be approved for clinical use, while ABT-773 is presently in phase III of development. Ketolides have a mechanism of action very similar to erythromycin A from which they have been derived. They potently inhibit protein synthesis by interacting close to the peptidyl transferase site of the bacterial 50S ribosomal subunit. Ketolides bind to ribosomes with higher affinity than macrolides. The ketolides exhibit good activity against Gram-positive aerobes and some Gram-negative aerobes, and have excellent activity against drug-resistant Streptococcus pneumoniae, including macrolide-resistant (mefA and ermB strains of S. pneumoniae). Ketolides such as telithromycin display excellent pharmacokinetics allowing once daily dose administration and extensive tissue distribution relative to serum. Evidence suggests the ketolides are primarily metabolised in the liver and that elimination is by a combination of biliary, hepatic and urinary excretion. Pharmacodynamically, ketolides display an element of concentration dependent killing unlike macrolides which are considered time dependent killers. Clinical trial data are only available for telithromycin and have focused on respiratory infections including community-acquired pneumonia, acute exacerbations of chronic bronchitis, sinusitis and streptococcal pharyngitis. Bacteriological and clinical cure rates have been similar to comparators. Limited data suggest very good eradication of macrolide-resistant and penicillin-resistant S. pneumoniae. As a class, the macrolides are well tolerated and can be used safely. Limited clinical trial data suggest that ketolides have similar safety profiles to the newer macrolides. Telithromycin interacts with the cytochrome P450 enzyme system (specifically CYP 3A4) in a reversible fashion and limited clinically significant drug interactions occur. In summary, clinical trials support the clinical efficacy of the ketolides in upper and lower respiratory tract infections caused by typical and atypical pathogens including strains resistant to penicillins and macrolides. Considerations such as local epidemiology, patterns of resistance and ketolide adverse effects, drug interactions and cost relative to existing agents will define the role of these agents. The addition of the ketolides in the era of antibacterial resistance provides clinicians with more options in the treatment of respiratory infections.