Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0348321 (Haemophilus)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ampicillin resistance in Haemophilus influenzae is most often due to the plasmid-mediated production of TEM beta-lactamase. We studied four strains with high-level ampicillin resistance (MIC of 32 micrograms/ml with an inoculum of 10(5) CFU on solid media) which did not produce detectable beta-lactamase activity with two different detection methods. Two of the four strains contained extrachromosomal DNA by agarose gel electrophoresis. Conjugation failed to transfer ampicillin resistance; in contrast, transformation yielded ampicillin-resistant transformants in three of the four strains. These transformants did not contain detectable extrachromosomal DNA. In addition, mobilization of the resistance determinant by transformation to, or conjugation with, recombination-deficient strains was unsuccessful. DNA-DNA hybridization experiments revealed no homology of the DNA of these strains with two R plasmids (one coding for ampicillin resistance, the other for chloramphenicol and tetracycline resistance). We conclude that the genetic basis of the non-beta-lactamase ampicillin resistance in these strains appears to be chromosomally mediated. We investigated the mechanism of resistance in these strains. Enzymatic modification of penicillin was not detected by autoradiography of a thin-layer chromatogram of cell sonic extracts of three ampicillin-resistant transformant strains incubated with [14C]penicillin. To assess changes in permeability of the cell envelope, a plasmid coding for beta-lactamase was conjugated into these strains, and the hydrolysis of penicillin by intact cells and cell sonic extracts was compared. Only one of three transformant strains had significantly diminished permeability. Outer membrane proteins of these strains analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed apparent differences in comparison with the isogenic ampicillin-susceptible recipient strain. Autofluorography of a sodium dodecyl sulfate-polyacrylamide gel electrophoresis of Sarkosyl-solubilized crude membrane (the putative inner membranes) from these ampicillin-resistant transformant strains incubated with [3H]penicillin compared with the isogenic ampicillin-susceptible recipient strain revealed reduced binding to PBP 3 and 6, 3 and 4, or 4. In addition, affinity binding studies revealed decreased affinity of PBP 4 for ampicillin of all four transformants tested. We conclude that the major mechanism of resistance in these strains is altered penicillin-binding proteins; however, other mechanisms, including permeability, may also play a role.
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PMID:Characterization of non-beta-lactamase-mediated ampicillin resistance in Haemophilus influenzae. 633 8

The activity of cefmenoxime (SCE-1365), 7 beta-[2-(2-aminothiazol-4-yl)-(Z)-2-methoxyiminoacetamido]-3-[(1-methyl-1H-tetrazol-5-yl)thiomethyl]ceph-3-em-4-carboxylic acid, was compared with that of other cephalosporins. Cefmenoxime exhibited high activity against a wide variety of gram-positive and gram-negative bacteria. The in vitro activity of cefmenoxime against Streptococcus pyogenes, Haemophilus influenzae, and Enterobacteriaceae, including indole-positive Proteus, Serratia marcescens, Enterobacter cloacae, and Citrobacter freundii, was 10 to 1,000 times greater than that of several other cephalosporins. Against Pseudomonas aeruginosa, cefmenoxime showed activity two to four times that of sulbenicillin and carbenicillin but less than that of cefsulodin. Variation in pH, addition of horse serum, and type of growth medium had definite effects on the activity of cefmenoxime, and the inoculum size affected the activity against bacterial species. In Escherichia coli cefmenoxime showed marked affinity for penicillin-binding protein 3 (PBP-3), followed by PBP-1 (1A and 1B). This affinity profile was well correlated with its filamentous cell-forming activity under extremely low drug concentrations and with its bactericidal activity against microorganisms. The high in vitro activity of cefmenoxime was reflected in the degree of protection observed in mice infected intraperitoneally with a wide variety of gram-positive and gram-negative bacteria. Furthermore, cefmenoxime showed good therapeutic activity against infection models in mice such as respiratory tract infection caused by Klebsiella pneumoniae and urinary tract infection caused by Proteus mirabilis.
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PMID:Cefmenoxime (SCE-1365), a novel broad-spectrum cephalosporin: in vitro and in vivo antibacterial activities. 694 42

The "third-generation" cephalosporins (3GC) have emerged as one of the most significant therapeutic entities in the last 15 years. These 3GC compounds (using cefotaxime as a model) have generally maintained their potency and spectrum of activity against important pathogens. However, the continuing popularity of this class associated with local, regional, or national-level use or abuse has led to efficacy reduction against some organism populations associated with selection of Class I cephalosporinase, stably derepressed mutants predominantly among Citrobacter and Enterobacter spp.; emergence of extended-spectrum beta-lactamase producing Enterobacteriaceae (usually Klebsiella spp.), as well as some isolates mimicking Class I-type resistance patterns; and lastly, altered PBP-mediated resistances among pneumococci, Haemophilus influenzae and pathogenic Neisseria spp. Some of these resistance patterns had been present prior to the clinical introduction of 3GCs and have only significantly threatened their use in the last 5 years. Prudent application of these 3GC drugs should be the goal for this decade as follows: 1) use as monotherapy at appropriate doses and frequencies only for organisms with low potential for mutational events; 2) use combination therapy routinely for organisms such as Citrobacter, Enterobacter, some indole-positive protease and Pseudomonas aeruginosa, to minimize emerging resistance clones; 3) use conservatively in high risk patients to minimize "super-colonization" by emerging problem bacteria (e.g. vancomycin-resistant enterococci, Xanthomonas maltophilia etc.); 4) use only those agents among 3GCs that have documented safety, broad clinical applications to all age groups, acceptable pharmacokinetic features and clear cost-saving potential; and 5) use in prophylaxis (surgical procedure, selective decontamination), should be focused toward single-dose or short-course regimens to reduce total hospital-wide exposure to broad-spectrum beta-lactam drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The antimicrobial activity of cefotaxime: comparative multinational hospital isolate surveys covering 15 years. 784 24

Cefepime is a novel methoxyimino-aminothiazolyl cephalosporin with a quaternized N-methyl-pyrrolidine moiety at the 3' position conferring zwitterionic properties. Because of this the molecule penetrates the outer cell membrane of Gram-negative bacteria rapidly. In addition it is resistant to degradation by several plasmid and chromosomally-mediated beta-lactamases, for which it also shows very low affinity and no inducing capacity. It has good affinity for PBPs 2 and 3 of Escherichia coli and for PBP 3 of Pseudomonas aeruginosa. Its broad-spectrum of activity includes Gram-positive and Gram-negative pathogens. It is more active than cefotaxime or ceftazidime, against Enterobacteriaceae. The MIC90 for P. aeruginosa is higher than that of ceftazidime, but lower than those of cefpirome, cefoperazone and latamoxef. Other Gram-negative organisms, Haemophilus influenzae, Neiserria meningitidis, Neiserria gonorrhoeae, Moraxella catarrhalis are highly susceptible to cefepime. Among Gram-positive species methicillin-susceptible Staphylococcus aureus and coagulase-negative staphylococci, whether beta-lactamase producers or not, Streptococcus pneumoniae and Streptococcus pyogenes are susceptible. Cefepime is active against cefotaxime- and/or ceftazidime-resistant Enterobacteriaceae. Only strains of P. aeruginosa producing large amounts of beta-lactamase may be resistant to both ceftazidime and cefepime. In experimental infections such as meningitis, induced with various bacterial species in neonatal rats and chronic staphylococcal osteomyelitis in rabbits, cefepime has shown good efficacy.
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PMID:Cefepime: overview of activity in vitro and in vivo. 815 Jul 71

Eighty percent minimum inhibitory concentrations (MIC80) of sulopenem against clinically isolated 12 to 80 strains of each of different bacteria were as follows: methicillin-susceptible Staphylococcus aureus (MSSA): 0.20 micrograms/ml, methicillin-resistant S. aureus (MRSA): 50 micrograms/ml, coagulase-negative staphylococci: 3.13 micrograms/ml, Streptococcus pyogenes: < or = 0.013 microgram/ml, Streptococcus pneumoniae: < or = 0.013 microgram/ml, beta-streptococci: 0.05 microgram/ml, Enterococcus faecalis: 12.5 micrograms/ml, Enterococcus faecium: > 100 micrograms/ml, Escherichia coli CS2(R+): 0.10 microgram/ml, Klebsiella pneumoniae: 0.05 microgram/ml, Proteus mirabilis: 0.10 microgram/ml, Proteus vulgaris: 0.20 microgram/ml, Morganella morganii: 0.39 micrograms/ml, Providencia rettgeri: 3.13 micrograms/ml, Citrobacter freundii: 0.20 microgram/ml, Enterobacter cloacae: 0.39 microgram/ml, Serratia marcescens: 1.56 micrograms/ml, Pseudomonas aeruginosa: 50 micrograms/ml, Pseudomonas cepacia: 3.13 micrograms/ml, Xanthomonas maltophilia: > 100 micrograms/ml, Acinetobacter calcoaceticus: 1.56 micrograms/ml, ampicillin-resistant Haemophilus influenzae: 0.39 microgram/ml and Bacteroides fragil is: 0.20 microgram/ml, respectively. Sulopenem possesses a stronger activity than flomoxef or cefuzonam against Gram-positive bacteria, the strongest activity among the antibiotics tested against Gram-negative bacteria except P. aeruginosa. Sulopenem has stronger affinities than imipenem to all fractions of PBPs of S. aureus, E. coli, P. vulgaris, S. marcescens, even of P. aeruginosa. Affinities of sulopenem to PBPs-1 and -3 of S. aureus, PBP-2 of E. coli were much stronger than those of imipenem (IPM). Sulopenem generally has small Ki values to all types of beta-lactamases and also has stronger permanent inactivation effect to Ia and IIb types of beta-lactamases than IPM. No synergistic bactericidal activity of sulopenem was apparent with serum complement. However, synergism of sulopenem with macrophages was prominent in bactericidal activity. The cells of E. coli were well phagocytosed and rapidly digested by cultured macrophages in the presence of a higher than 1/8 MIC of sulopenem. Moreover, sulopenem was more stable than imipenem against swine and human dehydropeptidase-Is. Sulopenem is one of the antibiotics that do not induce the appearance of subclones resistant to the drug.
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PMID:[In vitro antibacterial activity of a new parenteral penem, sulopenem]. 878 24

The Pseudomonas aeruginosa pbpG gene encoding penicillin-binding protein 7, a homologue of the Escherichia coli gene encoding a DD-endopeptidase, was cloned and sequenced, pbpG was located immediately downstream of the phenylalanine hydroxylase (phh) operon. DNA sequencing revealed an open reading frame of 936 bp (starting with a GTG codon) which encodes a protein of 34,115 Da. N-terminal amino acid sequencing confirmed the presence of a cleavable N-terminal signal peptide of 23 amino acids. Verification that the protein is a penicillin-binding protein was directly demonstrated by labelling with 125I-labelled penicillin X. Inactivation of P. aeruginosa pbpG by interposon mutagenesis resulted in no obvious phenotypic changes, but when P. aeruginosa PbpG was overexpressed in E. coli using a T7 expression system, cell lysis resulted. P. aeruginosa PbpG resembled E. coli PbpG in being associated with the membrane fraction. Two additional members of the PbpG subfamily were identified in the database. P. aeruginosa PbpG shows 63% identity with E. coli penicillin-binding protein 7 (PbpG) and 60% identity with Vibrio cholerae PbpG, but only 23% identity with Haemophilus influenzae PbpG. The PbpG subfamily and three other subfamilies constituting the low-molecular-mass PBP protein family were analysed by multiple alignment of 26 sequences. PbpG exhibited the consensus motifs of other penicillin-binding proteins. Ten anchor residues were identified that are conserved at the family level within the superfamily of serine-active-site penicillin-interacting proteins.
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PMID:Comparative analysis of Pseudomonas aeruginosa penicillin-binding protein 7 in the context of its membership in the family of low-molecular-mass PBPs. 957 71

Bacterial resistance to antibiotic is the inevitable consequence of the utilization of antimicrobial agents all over the world, particularly in developed countries. It is particularly evident with beta-lactam agents because they are among most frequently prescribed drugs. The resistance is mainly attributable to production of various types of beta-lactamases but other mechanisms like alterations in PBP molecules or in outer membrane proteins can play a significant role. Increased resistance can be seen among fastidious gram-negative bacteria like Haemophilus influenzae or Moraxella catarrhalis. The percentage of M. catarrhalis isolates producing beta-lactamases has increased to over 90%. Among Enterobacteriaceae E. coli and Klebsiella pneumoniae pose a very serious problem because of the production of extended-spectrum beta-lactamases which confer resistance to third generation cephalosporins. The percentage of ampicillin resistant E. coli among hospital isolates has rosen to 78% in U.S.A. nowadays. Recently, the emergence of E. coli strain resistant to combination of amoxycillin and clavulanate, due to hyperproduction of TEM-1 beta-lactamase, was observed. Inducible beta-lactamases mediate beta-lactam resistance in Pseudomonas aeruginosa which often develops during therapy of P. aeruginosa infections. Imipenem resistance is increasingly prevalent among P. aeruginosa isolates nowadays, but can be detected in K. pneumoniae due to the production of novel beta-lactamases and changes in outer membrane proteins.
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PMID:[Development of beta-lactam antibiotic resistance in gram-negative bacteria and the impact of resistance on therapy]. 1057 61

A total of 395 Haemophilus influenzae strains from 226 Japanese institutions participating in the Nationwide Surveillance Study Group for Bacterial Meningitis were received from 1999 to 2002. All strains were analyzed by PCR to identify the resistance genes, and their susceptibilities to beta-lactam agents were determined. Of these strains, 29.1% were beta-lactamase nonproducing and ampicillin (AMP) susceptible (BLNAS) and lacked all resistance genes; 15.4% were beta-lactamase producing and AMP resistant and had the bla(TEM-1) gene; 30.6% were beta-lactamase nonproducing and AMP resistant (low-BLNAR) and had a Lys-526 or His-517 amino acid substitution in ftsI encoding PBP 3; 13.9% were beta-lactamase nonproducing and AMP resistant (BLNAR) and had an additional substitution of Thr-385 in ftsI; 9.1% were amoxicillin-clavulanic acid resistant (BLPACR I) and had the bla(TEM-1) gene and a Lys-526 or His-517 amino acid substitution in ftsI; and 1.8% showed resistance similar to that of the BLPACR I group (BLPACR II) but had bla(TEM-1) gene and ftsI substitutions, as was the case for the BLNAR strains. All but three strains were serotype b. The prevalence of BLNAR strains has increased rapidly: 0% in 1999, 5.8% in 2000, 14.1% in 2001, and 21.3% in 2002. The MICs at which 90% of BLNAR isolates were inhibited were as follows: AMP, 16 micro g/ml; cefotaxime, 1 micro g/ml; ceftriaxone, 0.25 micro g/ml; and meropenem, 0.5 micro g/ml. All of these values were higher than those for the BLNAS counterpart strains. The relatively wide distributions of the beta-lactam MICs for BLNAR strains presumably reflect variations in ftsI gene mutations. Pulsed-field gel electrophoresis suggested the rapid spread of specific H. influenzae type b strains throughout Japan. Expedited vaccination, rapid identification, and judicious antibiotic use could slow their spread.
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PMID:Rapidly increasing prevalence of beta-lactamase-nonproducing, ampicillin-resistant Haemophilus influenzae type b in patients with meningitis. 1510 98

To clarify the relationship between mutations commonly found for penicillin-binding protein 3 (PBP 3) of beta-lactamase-nonproducing ampicillin-resistant (BLNAR) Haemophilus influenzae isolates and beta-lactam resistance, single and multiple amino acid mutations at positions 377, 385, 389, 517, and 526 were introduced into PBP 3 of a beta-lactam-susceptible Rd strain by site-directed mutagenesis. Twelve isogenic recombinant strains were challenged with nine beta-lactam antibiotics. Replacement of the asparagine at position 526 with lysine (N526K) increased the resistance to imipenem eightfold and increased the resistance to various cephalosporins two- to eightfold. Substitution of threonine for serine at position 385 (S385T) and/or substitution of phenylalanine for leucine at position 389 (L389F), in addition to the N526K mutation, led to two- to fourfold additional increases in cephalosporin resistance. An isoleucine-to-methionine substitution at position 377 did not change the antibiotic sensitivity of any of the recombinant strains also carrying other PBP 3 mutations tested. Thirty-six clinical isolates carrying a PBP 3 gene (ftsI) with the S385T, L389F, R517H, and/or N526K mutation were chosen from among 279 clinical isolates collected in Japan, and the isolates were grouped into six classes on the basis of the patterns of the four mutations in PBP 3. Rd recombinants were made with each of the ftsI genes. The levels of resistance to beta-lactams varied between recombinants of different classes but were comparable for those of the same class. The levels of resistance to cephalosporins of these recombinants were similar to those of the parent clinical isolates, while those to ampicillin and carbapenems were lower. These results indicate that resistance to beta-lactams, at least to cephalosporins, depends in large part on the PBP 3 mutations R517H, N526K, S385T, and L389F.
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PMID:Genetic approach to study the relationship between penicillin-binding protein 3 mutations and Haemophilus influenzae beta-lactam resistance by using site-directed mutagenesis and gene recombinants. 1598 Mar 57

We analyzed Haemophilus influenzae isolates in Gifu prefecture between May 2003 and August 2003. We conducted molecular-level epidemiological studies for 313 strains using PCR to identify resistant genes in H. influenzae. Our four sets of primers are as follows: (i) p6 gene of P6 membrane protein, (ii) TEM-1 type beta-lactamase gene (bla), (iii) normal PBP 3 gene (ftsl), and (iv) mutational ftsl gene detected in beta-lactamase-nonproducing ampicillin (ABPC) resistant H. influenzae (BLNAR). H. influenzae strains were classified into 6 types based on PCR: (i) beta-lactamase-nonproducing ABPC-susceptible strains (BLNAS; n = 85) with no any resistant genes, (ii) TEM-1 type beta-lactamase-producing ABPC resistant strains (BLPAR; n = 6), (iii) beta-lactamase-nonproducing and low-level ABPC-resistant strains (Low-BLNAR; n = 77) possessing Asn-526 --> Lys-526 amino acid substitution, (iv) BLNAR strains (n = 138) possessing Asn-526 --> Lys-526 and 3 amino acids substitutions detected around the Ser-Ser-Asn conserved motif, (v) beta-lactamase-producing amoxicillin-clavulanate resistant strains (BLPACR-I; n = 3) possessing TEM-1 and Low-BLNAR resistant genes, and (vi) beta-lactamase-producing amoxicillin-clavulanate resistant strains (BLPACR-II; n = 4) possessing TEM-1 and BLNAR resistant genes. Amoxicillin (AMPC) MIC90s in Low-BLNAR was 4 microg/mL and in BLNAR was 16 microg/mL. In oral cephalosporins, cefditoren MIC90 was the most excellent with 0.5 microg/mL against BLNAR. The prevalence of H. influenzae type b isolates in Matsubara Otorhinolaryngology Clinic was 66.7%. Selection of appropriate antimicrobial agents should be performed to prevent resistant microorganisms. Also, the vaccination for H. influenzae type b would be strongly recommended in near future.
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PMID:[Surveillance based on molecular epidemiology for Haemophilus influenzae Isolates in Gifu Prefecture]. 1616 55


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