Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0014118 (endocarditis)
15,629 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of dextran in the pathogenesis of bacterial endocarditis was investigated by studying the adherence of dextran producing oral streptococci to the constituents of nonbacterial thrombotic endocarditis (NBTE) in vitro and in vivo. The adherence of Streptococcus sanguis to fibrin and platelets was determined in an in vitro assay system simulating nonbacterial thrombotic endocarditis. Adherence was increased when the organisms were grown in sucrose-supplemented media (adherence ratio X 10(4), 177 +/- 6 in 5% sucrose vs. 140 +/- 7 in 0.5% sucrose, P less than 0.001), and decreased by incubating the organisms in dextranase (adherence ratio X 10(4), 117 +/- 16, P less than 0.001), an effect which was nullified by heat inactivating this enzyme (adherence ratio X 10(4), 192 +/- 7, P less than 0.001). The amount of dextran produced in broth by three different oral streptococci correlated directly with the adherence observed to fibrin and a fibrin-platelet matrix in vitro (P less than 0.001). These organisms adhered more readily to a fibrin-platelet matrix than to fibrin alone (adherence ratio X 10(4), 455 +/- 30 vs. 177 +/- 6, respectively, P less than 0.001). The role of dextran formation was also examined in vivo in rabbits with preexisting NBTE. After injection of 10(7) S. sanguis, 12 of 17 animals developed endocarditis. In contrast, when the organisms were pretreated with dextranase (an enzyme that removes dextran from the bacterial cell surface), the same inoculum resulted in endocarditis in only 5 of 19 animals (P less than 0.05). In addition, a fresh strain of S. sanguis that produced high levels of dextran (1,220 +/- 50 microgram/ml) and adhered avidly to fibrin (adherence ratio X 10(4), 220 +/- 11) produced endocarditis in 12 of 18 rabbits after injection of 10(7) organisms. Another isolate of the same strain that had been passed repeatedly in the laboratory produced less dextran (400 +/- 30 microgram/ml), adhered poorly to fibrin (adherence ratio X 10(4), 140 +/- 7), and produced endocarditis in only 3 of 14 rabbits under identical conditions (P less than 0.05). This study demonstrates that dextran production is important in the adherence of oral streptococci to the constituents of NBTE and may play a role in the pathogenesis of bacterial endocarditis by oral streptococci.
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PMID:Bacterial adherence in the pathogenesis of endocarditis. Interaction of bacterial dextran, platelets, and fibrin. 65 1

Abundant glycocalyx production by viridans streptococci in the rabbit model of endocarditis has been associated with delayed antimicrobial sterilization. Enzymatic digestion of the glycocalyx with dextranase enhances antibiotic activity. The effect of clindamycin (30 mg/kg, subcutaneous, three times daily) was studied in rabbits with experimental aortic valve endocarditis caused by high glycocalyx-producing viridans streptococci. Animals receiving clindamycin had smaller vegetations that were sterilized more quickly than did controls or animals receiving penicillin or dextranase alone (P less than .001). Penicillin plus dextranase treatment allowed greater bacterial killing than penicillin alone and did not differ significantly from clindamycin treatment. Electron micrographs revealed markedly less cell-adherent glycocalyx on organisms grown in vitro treated with clindamycin versus penicillin and controls. It is hypothesized that clindamycin inhibits glycocalyx production in vivo, allowing better antimicrobial penetration in the infected cardiac vegetation.
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PMID:Clindamycin effect on glycocalyx production in experimental viridans streptococcal endocarditis. 234 3

The presence of abundant surface polysaccharide, or glycocalyx, on viridans streptococci has been associated with failure to eradicate the organism from experimental cardiac vegetations during penicillin treatment. The role of glycocalyx in retarding sterilization was tested by in vivo administration of dextranase, an endohydrolase that attacks internally situated alpha (1-6) linkages. Dextranase and penicillin, either singly or in combination, were used to treat experimental endocarditis. After two days of therapy, 100% of animals treated with penicillin or dextranase alone had infected vegetations, whereas only 25% treated with penicillin and dextranase had infected vegetations (P less than .01). After five days of therapy, 100% of the animals treated with penicillin had infected vegetations, versus none that were treated with penicillin and dextranase (P less than .01). We conclude that glycocalyx acts to retard antibiotic activity in vegetations and that partial enzymatic digestion of the glycocalyx facilitates penicillin sterilization of the infected valve.
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PMID:Enzymatic modification of glycocalyx in the treatment of experimental endocarditis due to viridans streptococci. 365 3

In endocarditis, exopolysaccharide production by viridans streptococci has been associated with delayed antimicrobial efficacy in cardiac vegetations. We compared the efficacies of temafloxacin alone and in combination with dextranase, an enzyme capable of hydrolyzing 20 to 90% of the bacterial glycocalyx, in a rabbit model of endocarditis. In in vivo experiments, rabbits were infected intravenously with 10(8) Streptococcus sanguis organisms and were treated 6 days later with temafloxacin (50 mg/kg of body weight intramuscularly twice a day) alone or combined with dextranase (1,000 U per rabbit per day intravenously). After 4 days of treatment (day 11), the animals were sacrificed and vegetations were quantitatively cultured. For ex vivo experiments, rabbits were infected as stated above and, on day 11, vegetations were excised aseptically and incubated in vitro in rabbit serum alone (control) or with temafloxacin or temafloxacin plus dextranase at concentrations similar to peak levels in plasma. In vitro, dextranase alone had no antimicrobial effect. In vivo and ex vivo, temafloxacin combined with dextranase was more effective than temafloxacin alone (P < 0.05). Our results suggest that dextranase is able to increase the effects of temafloxacin by reducing the amount of bacterial glycocalyx in infected vegetations, as confirmed in vitro by electron microscopy showing a markedly reduced amount of glycocalyx and a more clearly visible fibrin matrix.
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PMID:Dextranase enhances antibiotic efficacy in experimental viridans streptococcal endocarditis. 806 75

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