Aminoglycosides are natural or semisynthetic antibiotics derived from actinomycetes. They were among the first antibiotics to be introduced for routine clinical use and several examples have been approved for use in humans. They found widespread use as first-line agents in the early days of antimicrobial chemotherapy, but were eventually replaced in the 1980s with cephalosporins, carbapenems, and fluoroquinolones. Aminoglycosides synergize with a variety of other antibacterial classes, which, in combination with the continued increase in the rise of multidrug-resistant bacteria and the potential to improve the safety and efficacy of the class through optimized dosing regimens, has led to a renewed interest in these broad-spectrum and rapidly bactericidal antibacterials.
The emergence and spread of multidrug-resistant gram-positive bacteria represent a serious clinical problem. Telavancin is a novel lipoglycopeptide antibiotic that possesses rapid in vitro bactericidal activity against a broad spectrum of clinically relevant gram-positive pathogens. Here we demonstrate that telavancin's antibacterial activity derives from at least two mechanisms. As observed with vancomycin, telavancin inhibited latestage peptidoglycan biosynthesis in a substrate-dependent fashion and bound the cell wall, as it did the lipid II surrogate tripeptide N,N-diacetyl-L-lysinyl-D-alanyl-D-alanine, with high affinity. Telavancin also perturbed bacterial cell membrane potential and permeability. In methicillin-resistant Staphylococcus aureus, telavancin caused rapid, concentration-dependent depolarization of the plasma membrane, increases in permeability, and leakage of cellular ATP and K ؉ . The timing of these changes correlated with rapid, concentration-dependent loss of bacterial viability, suggesting that the early bactericidal activity of telavancin results from dissipation of cell membrane potential and an increase in membrane permeability. Binding and cell fractionation studies provided direct evidence for an interaction of telavancin with the bacterial cell membrane; stronger binding interactions were observed with the bacterial cell wall and cell membrane relative to vancomycin. We suggest that this multifunctional mechanism of action confers advantageous antibacterial properties.The emergence and spread of bacterial resistance to vancomycin, an important antibiotic used to treat serious infections caused by gram-positive bacteria, has prompted active research to discover new glycopeptides and semisynthetic analogs with improved antimicrobial properties. Vancomycin and related glycopeptide antibiotics inhibit cell wall synthesis in susceptible bacteria by binding with high specificity to peptidoglycan precursors containing the C-terminal D-alanyl-D-alanine (D-Ala-DAla) motif (8). The peptide portion of glycopeptide antibiotics forms a carboxylate binding pocket that imparts, through a combination of five hydrogen bonds plus favorable hydrophobic interactions, strong affinity for the D-Ala-D-Ala-containing terminus of lipid II (8,46,54). Rational approaches toward the design of glycopeptides with improved antimicrobial activities have been described previously (for reviews, see references 35 and 36). One promising approach has been the discovery of lipoglycopeptides, analogs containing hydrophobic groups substituted at the amine position of the disaccharide moiety (20,39,40,45).Telavancin, a semisynthetic derivative of vancomycin possessing a hydrophobic (decylaminoethyl) side chain appended to the vancosamine sugar and a hydrophilic [(phosphonomethyl)aminomethyl] group on the resorcinol-like 4Ј position of amino acid 7 (33), is in late-stage clinical development for the treatment of serious gram-positive infections. Telavancin and other lipoglycopeptides exhibit superior in vitro activity compa...
Digital interviews are a potentially efficient new form of selection interviews, in which interviewees digitally record their answers. Using Potosky's framework of media attributes, we compared them to videoconference interviews. Participants (N = 113) were randomly assigned to a videoconference or a digital interview and subsequently answered applicant reaction questionnaires. Raters evaluated participants’ interview performance. Participants considered digital interviews to be creepier and less personal, and reported that they induced more privacy concerns. No difference was found regarding organizational attractiveness. Compared to videoconference interviews, participants in digital interviews received better interview ratings. These results warn organizations that using digital interviews might cause applicants to self‐select out. Furthermore, organizations should stick to either videoconference or digital interviews within a selection stage.
bEscherichia coli (328 isolates), Klebsiella pneumoniae (296), Klebsiella oxytoca (44), and Proteus mirabilis (33) isolates collected during 2012 from the nine U.S. census regions and displaying extended-spectrum--lactamase (ESBL) phenotypes were evaluated for the presence of -lactamase genes, and antimicrobial susceptibility profiles were analyzed. The highest ESBL rates were noted for K. pneumoniae (16.0%, versus 4.8 to 11.9% for the other species) and in the Mid-Atlantic and West South Central census regions. CTX-M group 1 (including CTX-M-15) was detected in 303 strains and was widespread throughout the United States but was more prevalent in the West South Central, Mid-Atlantic, and East North Central regions. KPC producers (118 strains [112 K. pneumoniae strains]) were detected in all regions and were most frequent in the Mid-Atlantic region (58 strains). Thirteen KPC producers also carried bla CTX-M . SHV genes encoding ESBL activity were detected among 176 isolates. Other -lactamase genes observed were CTX-M group 9 (72 isolates), FOX (10), TEM ESBL (9), DHA (7), CTX-M group 2 (3), NDM-1 (2 [Colorado]), and CTX-M groups 8 and 25 (1). Additionally, 62.9% of isolates carried >2 -lactamase genes. KPC producers were highly resistant to multiple agents, but ceftazidime-avibactam (MIC 50/90 , 0.5/2 g/ml) and tigecycline (MIC 50/90 , 0.5/1 g/ ml) were the most active agents tested. Overall, meropenem (MIC 50 , <0.06 g/ml), ceftazidime-avibactam (MIC 50 , 0.12 to 0.5 g/ml), and tigecycline (MIC 50 , 0.12 to 2 g/ml) were the most active antimicrobials when tested against this collection. NDM-1 producers were resistant to all -lactams tested. The diversity and increasing prevalence of -lactamase-producing Enterobacteriaceae have been documented, and ceftazidime-avibactam was very active against the vast majority of -lactamase-producing strains isolated from U.S. hospitals.
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