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Symptom
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Compound
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Target Concepts:
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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mycoplasmal pneumonia, tularemic pneumonia, Q fever pneumonia, psittacosis, and
Legionnaires' disease
are the most frequently encountered treatable atypical pneumonias. Mycoplasmal pneumonia, the most common, is often accompanied by nonexudative pharyngitis, conjunctivitis, or otitis. The nonproductive cough is characteristic. Tularemic pneumonia is characterized by substernal chest pain, bloody pleural effusion, and bilateral hilar adenopathy. Although the clinical presentation is mild, roentgenographic findings are impressive. Q fever pneumonia resembles psittacosis but is less serious; it may be accompanied by subacute bacterial endocarditis, hepatitis, or both. Psittacosis is characterized by prominent headache, bloody sputum, and relative bradycardia.
Tetracycline
is the drug of choice for either. In
Legionnaires' disease
, pneumonia is accompanied by prominent extrapulmonary symptoms. The most important diagnostic clues include diarrhea and mental confusion. Relative bradycardia and laboratory abnormalities are also helpful. Erythromycin is the drug of choice unless doubt exists as to the diagnosis.
...
PMID:The atypical pneumonias: a diagnostic and therapeutic approach. 47 55
Tetracycline
and erythromycin concentrate highly in pulmonary tissues in humans as well as in the rat. Their binding to the lung, whatever the species and the pathological state, is weak. Their intrapulmonary concentrations could be explained by a passive diffusion which depends on the pH variation between the intra- and extratissue compartments, the percentage of un-ionized form present, and their liposolubility. The importance of retention of tetracycline and erythromycin by plasma proteins is demonstrated by the decrease of their pulmonary index of penetration (IP, the intra- and extratissue concentrations ratio). The IP values are, respectively, 1.09 and 1.23 for tetracycline and erythromycin. These concentrations are in excess of their minimal inhibitory concentrations for bacteria responsible for pneumopathies. The lung homogenate binding of these antibiotics is weak (5% for erythromycin and 33% for tetracycline), corresponding to a nonsaturable binding to three main subcellular fractions (nucleus, mitochondria, and cytosol).
Tetracycline
has the same penetration in healthy or cancerous human lungs, whereas erythromycin presents a decreased IP in cancerous tissue. However, the binding of these antibiotics to healthy or cancerous lung homogenates is similar. So, the structure of cancerous cells is solely responsible for this modification of erythromycin penetration. The intrapulmonary concentration of tetracycline is increased in rat lungs infected by
Legionella
pneumophila. This modification is due to a great bacteria retention. In contrast, erythromycin possesses the same IP in healthy and infected rat lungs.
...
PMID:Tetracycline and erythromycin distribution in pathological lungs of humans and rat. 261 91
Thirty-three isolates of
Legionella
pneumophila, all except one of which were clinical isolates, were tested against 20 antimicrobial agents by using an agar dilution technique. Erythromycin, rifamp]in, and rosaramycin were the most active agents tested. Aminoglycosides, chloramphenicol, and cefoxitin also inhibited the organisms at low concentrations. Other agents, including moxalactam, cefoperazone, and cephalosporins, exhibited moderate to little activity.
Tetracycline
, doxycycline and minocyeline were apparently inactivated by charcoal-yeast extract medium. There was slight inoculum dependence noted with most of the antimicrobials tested, particularly the beta-lactam agents. There was no consistent difference in susceptibility between Center for Disease Control-supplied stock strains and recent clinical isolates, but there were marked differences with some agents. Susceptibility testing needs to be standardized in view of the influence of inoculum size, strain variation, and the medium used.
...
PMID:Susceptibility of Legionella pneumophila to twenty antimicrobial agents. 742 11
Tetracycline
antimicrobials are characterised by a broad-spectrum of antibacterial activity which includes Gram-positive, most Gram-negative, anaerobic and "atypical" (
Legionella
pneumophila, Chlamydophila pneumoniae and Mycoplasma pneumoniae) species. However, the original clinical utility of the tetracyclines has been compromised as a result of increasing resistance to them among previously susceptible, common pathogens. Research into structure-activity relationships among various tetracycline derivatives resulted in discovery of the 9-t- butylglycylamido tetracyclines, now known as the glycylcyclines, which are not affected by either specific efflux pump or ribosomal protection mechanisms of resistance. Tigecycline, 9-t-butylglycylamido-minocycline, is the first in the glycylcycline class to undergo clinical development. This review of published in vitro data clearly demonstrates the potent activity of tigecycline against a wide range of common hospital and community bacterial pathogens including those having acquired mechanisms of resistance to older congeners (tetracycline, minocycline and doxycycline). Its activity against multiply-resistant Staphylococcus spp, including glycopeptide-intermediate strains (GISA), Streptococcus pneumoniae, Enterococcus spp. (including vancomycin-resistant strains) and some extended-spectrum, beta-lactamase producing isolates of species of the Enterobacteriaceae, is particularly noteworthy.
...
PMID:Tigecyclin--the first glycylcycline to undergo clinical development: an overview of in vitro activity compared to tetracycline. 1628 53
Enzymes capable of inactivating tetracycline are paradoxically rare compared with enzymes that inactivate other natural-product antibiotics. We describe a family of flavoenzymes, previously unrecognizable as resistance genes, which are capable of degrading tetracycline antibiotics. From soil functional metagenomic selections, we discovered nine genes that confer high-level tetracycline resistance by enzymatic inactivation. We also demonstrate that a tenth enzyme, an uncharacterized homolog in the human pathogen
Legionella
longbeachae, similarly inactivates tetracycline. These enzymes catalyze the oxidation of tetracyclines in vitro both by known mechanisms and via previously undescribed activity.
Tetracycline
-inactivation genes were identified in diverse soil types, encompass substantial sequence diversity, and are adjacent to genes implicated in horizontal gene transfer. Because tetracycline inactivation is scarcely observed in hospitals, these enzymes may fill an empty niche in pathogenic organisms, and should therefore be monitored for their dissemination potential into the clinic.
...
PMID:The Tetracycline Destructases: A Novel Family of Tetracycline-Inactivating Enzymes. 2620 92
