Polyphasic characterization of carbapenem-resistant Klebsiella pneumoniae clinical isolates suggests vertical transmission of the blaKPC-3 gene.

Carbapenem-resistant Klebsiella pneumoniae are a major global threat in healthcare facilities. The propagation of carbapenem resistance determinants can occur through vertical transmission, with genetic elements being transmitted by the host bacterium, or by horizontal transmission, with the same genetic elements being transferred among distinct bacterial hosts. This work aimed to track carbapenem resistance transmission by K. pneumoniae in a healthcare facility. The study involved a polyphasic approach based on conjugation assays, resistance phenotype and genotype analyses, whole genome sequencing, and plasmid characterization by pulsed field gel electrophoresis and optical DNA mapping. Out of 40 K. pneumoniae clinical isolates recovered over two years, five were carbapenem- and multidrug-resistant and belonged to multilocus sequence type ST147. These isolates harboured the carbapenemase encoding blaKPC-3 gene, integrated in conjugative plasmids of 140 kbp or 55 kbp, belonging to replicon types incFIA/incFIIK or incN/incFIIK, respectively. The two distinct plasmids encoding the blaKPC-3 gene were associated with distinct genetic lineages, as confirmed by optical DNA mapping and whole genome sequence analyses. These results suggested vertical (bacterial strain-based) transmission of the carbapenem-resistance genetic elements. Determination of the mode of transmission of antibiotic resistance in healthcare facilities, only possible based on polyphasic approaches as described here, is essential to control resistance propagation.

Prevalence of Colistin-Resistant, Carbapenem-Hydrolyzing Proteobacteria in Hospital Water Bodies and Out-Falls of West Bengal, India.

Indiscriminate use of antibiotics has resulted in a catastrophic increase in the levels of antibiotic resistance in India. Hospitals treat critical bacterial infections and thus can serve as reservoirs of multidrug resistant (MDR) bacteria. Hence, this study was conducted to gauge the prevalence patterns of MDR bacteria in hospital wastewater. Water samples collected from 11 hospitals and 4 environmental sources belonging to 5 most-densely populated districts of West Bengal, India were grown on MacConkey and Eosin Methylene Blue agar. A total of 84 (hospital-associated = 70, environmental water sources = 14) isolates were characterized. The predominant species found in water from hospital-associated areas (HAA) were Acinetobacter baumannii (22.9%), Escherichia coli (28.6 %), and Klebsiella pneumoniae (25.7%). Greater than 75% of the HAA isolates were found to be mcr-1 gene negative and colistinresistant. Meropenem non-susceptibility was also high among the HAA isolates at 58.6%, with the presence of the carbapenemase gene and blaNDM in 67.1% of the non-susceptible isolates. Among the three predominant species, significantly higher numbers of E. coli isolates were found to be non-susceptible to meropenem ((80%), p-value = 0.00432) and amikacin (AK (90%), p-value = 0.00037). This study provides evidence for the presence of high numbers of colistin-resistant and carbapenem-hydrolyzing Proteobacteriain hospital wastewater.

CRISPR-Cas influences the acquisition of antibiotic resistance in Klebsiella pneumoniae.

In the US Carbapenem resistance in Klebsiella pneumoniae (Kp) is primarily attributed to the presence of the genes blaKPC-2 and blaKPC-3, which are transmitted via plasmids. Carbapenem-resistant Kp (CR-Kp) infections are associated with hospital outbreaks. They are difficult to treat, and associated with high mortality rates prompting studies of how resistance is obtained. In this study, we determined the presence of CRISPR-Cas in 304 clinical Kp strains. The CRISPR-Cas system has been found to prevent the spread of plasmids and bacteriophages, and therefore limits the horizontal gene transfer mediated by these mobile genetic elements. Here, we hypothesized that only those Kp strains that lack CRISPR-Cas can acquire CR plasmids, while those strains that have CRISPR-Cas are protected from gaining these plasmids and thus maintain sensitivity to antimicrobials. Our results show that CRISPR-Cas is absent in most clinical Kp strains including the clinically important ST258 clone. ST258 strains that continue to be sensitive to carbapenems also lack CRISPR-Cas. Interestingly, CRISPR-Cas positive strains, all non-ST258, exhibit lower resistance rates to antimicrobials than CRISPR-Cas negative strains. Importantly, we demonstrate that the presence of CRISPR-Cas appears to inhibit the acquisition of blaKPC plasmids in 7 Kp strains. Furthermore, we show that strains that are unable to acquire blaKPC plasmids contain CRISPR spacer sequences highly identical to those found in previously published multidrug-resistance-containing plasmids. Lastly, to our knowledge this is the first paper demonstrating that resistance to blaKPC plasmid invasion in a CRISPR-containing Kp strain can be reversed by deleting the CRISPR-cas cassette.

Lectin-Functionalized Composite Hydrogels for "Capture-and-Killing" of Carbapenem-Resistant Pseudomonas aeruginosa.

Infections with multiresistant pathogens are a leading cause for mortality worldwide. Just recently, the World Health Organization (WHO) increased the threat rating for multiresistant Pseudomonas aeruginosa to the highest possible level. With this background, it is crucial to develop novel materials and procedures in the fight against multiresistant pathogens. In this study, we present a novel antimicrobial material, which could find applications as a wound dressing or antimicrobial coating. Lectins are multivalent sugar-binding proteins, which can be found in a variety of plants and bacteria, where they are associated with biofilm formation. By immobilizing lectin B on a protein-based hydrogel surface, we provided the hydrogel with the ability to immobilize ("catch") pathogens upon contact. Furthermore, another hydrogel layer was added which inhibits biofilm formation and releases a highly potent antimicrobial peptide to eradicate microorganisms ("kill"). The composite hydrogel showed a high antimicrobial activity against the reference strain Pseudomonas aeruginosa PAO1 as well as against a carbapenem-resistant clinical isolate (multiresistant Gram-negative class 4) and may thus represent a novel material to develop a new type of antimicrobial wound dressings to prevent infections with this problematic pathogen of burn or other large wounds.

Investigation of genotoxic effects of doripenem using cytogenetic and molecular methods.

The main aim of this study was to investigate the genotoxic effects of doripenem (DRP) using both cytogenetic and molecular test systems. Although there have been some studies reporting the effects of DRP, none of them has shown the genotoxic effects of DRP. In order to achieve the main aim of the study, the human peripheral lymphocytes were treated with 100 µg/ml, 200 µg/ml, and 400 µg/ml concentrations of DRP for 24 and 48 hours, and the chromosome aberration (CA) and micronucleus (MN) methods were used as the cytogenetic tests and RAPD-PCR method was used as the molecular test to determine the genotoxic effects of DRP. DRP did not induce the chromosome aberrations and micronucleus frequencies at all concentrations and at all treatment periods. So, it was concluded that DRP did not show any cytotoxic effect. However, DRP increased the number of polymorphic bands and decreased the ratio of genomic template stability, especially at the 48-hour treatment period. In this study, according to the obtained results, it was determined that DRP failed to show any genotoxic risk at the therapeutic doses. This result also indicates that DRP could be a reliable antibiotics according to its rapid metabolism.

Toxicidad neurológica por ertapenem en paciente con enfermedad renal crónica estadio IV / Ertapenem-induced neurological toxicity in a patient with stage IV chronic kidney disease

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A carbapenem antibiotic imipenem/cilastatin induces an oxidative stress-status and gonadotoxic effects in « wistar ¼ rats.

Imipenem is a carbapenem antibiotic largely used to treat infection diseases. The present study was designed to investigate the effects of imipenem/cilastatin (IMP) on oxidative stress, antioxidant levels, testicular structure and sperm parameters in rats. Adult Wistar rats (84days old; N=8/group) were treated intraperitoneally with physiological serum containing 0mg/kg, 30mg/kg, 50mg/kg and 80mg/kg of IMP for one week. The results revealed that exposure to IMP especially at high doses, significantly decreased sexual organs weights (testis, epididymis, seminal vesicle and prostate), sperm characteristics (motility, viability and count) and plasma testosterone level while increased sperm abnormality. In addition, the testicular tissue level of lipid peroxidation (LPO) was significantly increased while the level of activities of superoxide dismutase (SOD), catalase (CAT) and glutathion peroxidase (GPx) decreased compared to the control group. Severe testicular lesions were recorded in the seminiferous tubules as well as a significant impairment in sperm characteristics. In conclusion, IMP induced an oxidative stress-status and histopathological changes in the testis and altered spermatogenesis in particular at both 50 and 80mg/kg dose-levels (p<0.001).

Urinary biomarkers trefoil factor 3 and albumin enable early detection of kidney tubular injury.

The capacities of urinary trefoil factor 3 (TFF3) and urinary albumin to detect acute renal tubular injury have never been evaluated with sufficient statistical rigor to permit their use in regulated drug development instead of the current preclinical biomarkers serum creatinine (SCr) and blood urea nitrogen (BUN). Working with rats, we found that urinary TFF3 protein levels were markedly reduced, and urinary albumin were markedly increased in response to renal tubular injury. Urinary TFF3 levels did not respond to nonrenal toxicants, and urinary albumin faithfully reflected alterations in renal function. In situ hybridization localized TFF3 expression in tubules of the outer stripe of the outer medulla. Albumin outperformed either SCr or BUN for detecting kidney tubule injury and TFF3 augmented the potential of BUN and SCr to detect kidney damage. Use of urinary TFF3 and albumin will enable more sensitive and robust diagnosis of acute renal tubular injury than traditional biomarkers.

A panel of urinary biomarkers to monitor reversibility of renal injury and a serum marker with improved potential to assess renal function.

The Predictive Safety Testing Consortium's first regulatory submission to qualify kidney safety biomarkers revealed two deficiencies. To address the need for biomarkers that monitor recovery from agent-induced renal damage, we scored changes in the levels of urinary biomarkers in rats during recovery from renal injury induced by exposure to carbapenem A or gentamicin. All biomarkers responded to histologic tubular toxicities to varied degrees and with different kinetics. After a recovery period, all biomarkers returned to levels approaching those observed in uninjured animals. We next addressed the need for a serum biomarker that reflects general kidney function regardless of the exact site of renal injury. Our assay for serum cystatin C is more sensitive and specific than serum creatinine (SCr) or blood urea nitrogen (BUN) in monitoring generalized renal function after exposure of rats to eight nephrotoxicants and two hepatotoxicants. This sensitive serum biomarker will enable testing of renal function in animal studies that do not involve urine collection.

CP5484, a novel quaternary carbapenem with potent anti-MRSA activity and reduced toxicity.

A new series of 1beta-methyl carbapenems possessing a 6,7-disubstituted imidazo[5,1-b]thiazol-2-yl group directly attached to the C-2 position of the carbapenem nucleus was prepared, and the activities of these compounds against methicillin-resistant Staphylococcus aureus (MRSA) were evaluated. To study the effect of basic moieties on anti-MRSA activity, we introduced an amino, or imino, or amidino group at the 6-position of imidazo[5,1-b]thiazole in place of the carbamoylmethyl moiety of CP5068. Anti-MRSA activities of almost all basic group-substituted carbapenems were improved, though some of the compounds showed stronger acute toxicity in mice than IPM. In order to decrease the toxicity without decreasing the activity, we introduced various additional functionalities around the basic moiety. Finally, we obtained CP5484, which has excellent anti-MRSA activity and low acute toxicity.

SM-216601, a novel parenteral 1beta-methylcarbapenem: structure-activity relationships of antibacterial activity and neurotoxicity in mice.

It has been reported that 2-(4-substituted thiazol-2-ylthio)-1beta-methyl-carbapenems exhibit potent activity against methicillin-resistant staphylococci (MRS) and vancomycin-resistant enterococci (VRE). In order to develop a novel broad-spectrum carbapenem, the structure-activity relationships of a series of 2-(4-tetrahydropyridinylthiazol-2-ylthio)-1beta-methylcarbapenems and 4-dihydropyrrolyl thiazole analogs were investigated with regard to their activity against Gram-positive and especially Gram-negative bacteria and also their convulsant activity, which is a major side effect concern of carbapenems. The introduction of substituent(s) on the dihydropyrrole moiety did not cause remarkable changes in anti-MRS and VRE activities, but tended to lower the anti-Gram-negative bacterial activity except in some cases of methyl group introduction. These substitutions did however cause a reduction of the convulsant activity, which was affected by the size and also the configuration of the substituent. In the case of SM-216601 (6), introduction of a methyl group brought about significant reduction in neurotoxicity while maintaining favorable anti-Gram-negative bacterial activity.

Low convulsive activity of a new carbapenem antibiotic, DK-35C, as compared with existing congeners.

Since carbapenems and cephalosporins have been suggested to induce convulsive side effects through an inhibitory action on the central gamma-aminobutyric acid (GABA)-mediated inhibitory transmission, the present study evaluated the convulsive activity of a new carbapenem antibiotic (1R,5S,6S)-6[(R)-1-hydroxyethyl]-2-[(3S,5S)-5(S-methyl-4thiomorpholin ylcarbonyl)pyrrolidin-3-thio]-l-methylcarbapen-2-em-3- carboxylic acid (DK-35C) in in vitro and in vivo experiments, in comparison with cefazolin, imipenem and meropenem. In in vitro experiments, their abilities to inhibit [3H]muscimol (5 nM) binding to GABA(A) receptors were measured using crude synaptic membranes prepared from the rat cerebral cortex. The concentrations (mM) of the antibiotics which inhibit 50% of the specific binding, were 0.6 for imipenem, 1.8 for cefazolin, 15.4 for DK-35C and 27.6 for meropenem. In in vivo experiments, intracerebroventricular (i.c.v.) injections of cefazolin, imipenem and DK-35C induced convulsions in a dose-dependent manner in rats. The doses (nmol/rat) of the antibiotics which induce convulsions in 50% of rats, were 57 for imipenem, 96 for cefazolin, 377 for DK-35C and >3000 for meropenem. In the mouse pentylenetetrazole (PTZ) convulsive model, intravenous pretreatment with cefazolin (800 mg/kg) or imipenem (200 mg/kg) shifted the dose-response curve of PTZ (i.p.) to the left, indicating enhancement of the convulsive activity of PTZ. However, pretreatment with cefazolin, meropenem or DK-35C at a dose of 400 mg/kg did not produce any marked effects on the convulsive activity of PTZ compared with the saline vehicle-pretreated control. The results clearly demonstrate a good correlation between in vitro GABA(A) receptor binding assay and in vivo i.c.v. convulsive model using rats, and suggest that DK-35C may possess a relatively weak convulsive activity mediated through an interaction with GABA(A) receptors.

Synthesis and properties of 2-(naphthosultamyl)methyl-carbapenems with potent anti-MRSA activity: discovery of L-786,392.

A series of 1beta-methyl-2-(naphthosultamyl)methyl-carbapenems bearing dicationic groups on the naphthosultamyl moiety was prepared and evaluated for activity against resistant gram-positive bacteria. Based on a combination of excellent in vitro antibacterial activity, acceptable mouse acute toxicity, and a desirable fragmentation pattern on beta-lactam ring opening, the analog 2g (L-786,392) was selected for extended evaluation.

Reduced immunotoxicity and preservation of antibacterial activity in a releasable side-chain carbapenem antibiotic.

A carbapenem antibiotic, L-786,392, was designed so that the side chain that provides high-affinity binding to the penicillin-binding proteins responsible for bacterial resistance was also the structural basis for ameliorating immunopathology. Expulsion of the side chain upon opening of the beta-lactam ring retained antibacterial activity while safely expelling the immunodominant epitope. L-786,392 was well tolerated in animal safety studies and had significant in vitro and in vivo activities against methicillin- and vancomycin-resistant Staphylococci and vancomycin-resistant Enterococci.

Synthesis and structure-activity relationships of 1beta-methylcarbapenems with quaternary ammonium side chains.

The synthesis and antibacterial activity of 1beta-methylcarbapenems with quaternary ammonium groups at the C-2 position have been studied. Two types of new carbapenem derivatives have been synthesized. These 1beta-methylcarbapenems, one type having a (2S,4S)-2-[1,1-dimethyl-2-(1-piperazinyl)carbonyl]pyrrolidinio-4-+ ++ylthio group and the other type having a (2S,4S)-2-(4-carbamoylmethyl-4-methylhomopiperazinio-1-yl carbonyl)pyrrolidin-4-ylthio group, show potent and well balanced antibacterial activity as well as high stability against dehydropeptidase-I. The in vivo potency of these two carbapenems was compared with that of meropenem. The structure-activity relationships leading to these carbapenems are also described.

Species specificity of 2-aryl carbapenem-induced immune-mediated hemolytic anemia in primates.

L-695,256 is a novel 2-fluorenonyl carbapenem antibiotic with significant antimicrobial activity against strains of methicillin-resistant Staphylococci. This prototype compound was administered intravenously to rhesus monkeys (Macaca mulatta) at does of 50 or 200 mg/kg/day for 2 weeks to assess toxicity and found to induce a hemolytic anemia characterized by extravascular hemolysis and splenomegaly. A subsequent study in this species in which 100 mg/kg/day was administered i.v. for 4 weeks showed that all animals were direct antiglobulin test (Coombs' test) positive for IgG with 20-25% reductions in the erythron. Following 3 weeks of recovery, the erythron had returned to normal, although it took an additional 2 months for the Coombs' test to become negative. Challenge of these same animals with 0.5 million U/kg (300 mg/kg/day) of penicillin intravenously indicated no apparent cross-reactivity. Since attempts to establish a model for this immune-mediated hemolytic anemia with this drug in rats or mice were unsuccessful, a 2-week i.v. study in squirrel monkeys (Saimiri sciureus) was conducted at a dose of 200 mg/kg/day. All animals in this study remained Coombs' test negative with no changes in the erythron, suggesting an increased sensitivity to beta-lactam-induced anemia in rhesus monkeys compared to other species. Further support for this hypothesis was obtained using the cephalosporin antibiotic, cefotetan. This compound induced a high incidence of Coombs' test positive hemolytic anemia at clinically relevant doses in rhesus monkeys, despite a very low incidence of this adverse effect in patients with many years of clinical use. These data suggest that although rhesus monkeys respond in a qualitatively similar manner to humans with regard to high doses of beta-lactam antibiotics, their sensitivity may overestimate the risk of immune-mediated hemolytic anemia for clinical use.

[Neurotoxicity of carbapenem compounds and other beta-lactam antibiotics].

The neurotoxic potencies are considerably different among various beta-lactam antibiotics. Some carbapenem antibiotics, a new class beta-lactam antibiotic, also induce convulsion in human and laboratory animals. This article reviews the structure activity relationship for the neurotoxicity of beta-lactam antibiotics, especially carbapenems. As for the neurotoxicity of carbapenem antibiotics, the presence of amino group in the C-2 side chain is an important factor in inducing convulsion and the strength of basicity of the amino group is correlated with the convulsant activity. The beta-lactam ring of carbapenem is not necessary to evoke convulsions. The neurotoxicity of carbapenem antibiotics is related to only a part of the structure, including the C-2 side chain, but not to the carbapenem skeleton itself. In comparison with other beta-lactam antibiotics, it has been found that the structure responsible for the convulsive action of carbapenems is significantly different from penicillins and cephalosporins in which the beta-lactam ring is essential to evoke convulsion. The induction of convulsions by carbapenem antibiotics is predominantly caused through the inhibition of gamma aminobutyric acid receptor in a similar manner as with penicillins and cephalosporins. However, the detail mechanism may be different not only among carbapenems, cephalosporins, and penicillins but among carbapenem compounds themselves. It is important to know the neurotoxic potential of a compound by investigating the effect of direct administration into the central nervous system such as intraventricular administration, since the penetration through blood-brain barrier or the pharmacokinetic property is varied in seriously ill patients. Possible drug interactions regarding neurotoxicity are also discussed. We hope these findings described here will be helpful in developing more efficient and safer beta-lactam antibiotics of a new generation.

Urinary bladder hyperplasia in the rat: non-specific pathogenetic considerations using a beta-lactam antibiotic.

Eight of the known chemical substances associated with neoplasia in man are known to target the urinary bladder urothelium. Preneoplastic changes have been identified following exposure to each of these chemicals, and they have also been seen to occur in many species of lab animals. The most important such change is preneoplastic hyperplasia. Adaptive hyperplasia is the first form of hyperplasia to appear. It can be seen both in untreated controls and dosed animals. The distinguishing features are that in treated groups it does not progress with dose or time, and the process is reversible. Reparative hyperplasia involves disruption of homeostasis. Its severity increases with dose and time. It is not seen in controls but it is still reversible during the recovery segment after exposure to a toxic substance. When reparative hyperplasia continues beyond a certain threshold of time and dose, it progresses to preneoplastic hyperplasia, which further progresses with continued stimulation to frank neoplasia. The synthetic beta-lactam penem antibiotic FCE 22891 and its metabolite FCE 22101 caused adaptive urothelial hyperplasia of the urinary bladder only in rats and in no other species. Based on the pharmacokinetic profile of FCE 22891 and FCE 22101, it can be deduced that the morphologic finding of adaptive urothelial hyperplasia is caused by reduction of intravesicular urine pH. This effect has no relevance to therapeutic use in humans. Further, it is important to distinguish adaptive and reparative hyperplasia in preclinical toxicity studies.