A saponin-polybromophenol antibiotic (CU1) from Cassia fistula Bark Against Multi-Drug Resistant Bacteria Targeting RNA polymerase.

BACKGROUND: Gradual increase of multidrug resistant infections is a threat to the human race as MDR plasmids have acquired.>10 mdr and drug efflux genes to inactivate antibiotics. Plants secret anti-metabolites to retard growth of soil and water bacteria and are ideal source of antibiotics. PURPOSE: Purpose of the study is to discover an alternate phyto-drug from medicinal plants of India that selectively kills MDR bacteria. METHODS: MDR bacteria isolated from Ganga river water, milk, chicken meat and human hair for testing phyto-extracts. Eighty medicinal plants were searched and six phyto-extracts were selected having good antibacterial activities as demonstrated by agar-hole assays giving 15 â€‹mm or greater lysis zone. Phyto-extracts were made in ethanol or methanol (1:5 w/v) for overnight and were concentrated. Preparative TLC and HPLC were performed to purify phytochemical. MASS, NMR, FTIR methods were used for chemical analysis of CU1. In vitro RNA polymerase and DNA polymerase assays were performed for target identification. RESULTS: CU1 belongs to a saponin bromo-polyphenol compound with a large structure that purified on HPLC C18 column at 3min. CU1 is bacteriocidal but three times less active than rifampicin in Agar-hole assay. While in LB medium it shows greater than fifteen times poor inhibitor due to solubility problem. CU1 inhibited transcription from Escherichia coli as well as Mycobacterium tuberculosis RNA Polymerases. Gel shift assays demonstrated that CU1 interferes at the open promoter complex formation step. On the other hand CU1 did not inhibit DNA polymerase. CONCLUSION: Phyto-chemicals from Cassia fistula bark are abundant, less toxic, target specific and may be a safer low cost drug against MDR bacterial diseases.

Review of embryo-fetal developmental toxicity studies performed for pharmaceuticals approved by FDA in 2018 and 2019.

Details of embryo-fetal development (EFD) studies were compiled for all FDA drug approvals in 2018-19. EFD studies were performed for 82 % of approvals (84 % of small molecules and 70 % of biopharmaceuticals). Rats and rabbits were used for 84 % of small molecule (SM) drugs for which EFD studies were submitted. There was at least a 2-fold difference in sensitivity between the rat and the rabbit relative to the human exposure for the majority of drugs (62 %, small molecules and biopharmaceuticals combined) tested in both species. On average, however, the rat and rabbit were equally sensitive to developmental toxicity. Over the last 2 years, the use of non-human primates (NHP) for the developmental toxicity testing of biopharmaceuticals has fallen (26 % of biologics license applications), with many more biopharmaceuticals now tested in rodents (44 % of BLAs). EFD studies were not required for oncology drugs when the mode of action was associated with known developmental risk. One-third of SM non-oncology drugs and two-thirds of SM oncology drugs induced dysmorphogenesis in at least one species. The newly revised ICH S5(R3) guideline will bring about changes to the design of future EFD studies, particularly with respect to high dose selection. The revised guideline will also influence the interpretation of the findings in EFD studies (e.g. fetal morphological variations) and risk assessment.

High frequency of gram-negative bacilli harboring blaKPC-2 in the different stages of wastewater treatment plant: A successful mechanism of resistance to carbapenems outside the hospital settings.

Wastewater treatment plants (WWTPs) are considered to be a reservoir and a source of bacterial resistance. Worryingly, the presence of carbapenem-resistant Gram-negative bacilli (CRGNB) in WWTPs has recently been reported, but there are still many research gaps regarding its emergence and impact. The distribution of CRGNB in the different stages of a WWTP in Colombia and the relationship between the physicochemical factors involved with their presence are described in this paper. Additionally, given the impact on public health, the CRGNB detected were compared with isolates previously found in hospital patients. Residual water samples were taken from five different stages of a WWTP between January and July 2017. A total of 390 GNB were isolated, and a significant frequency of CRGNB harboring blaKPC-2 (38.2%, n = 149/390) was detected, of which 57% were Enterobacteriaceae, 41.6% Aeromonadaceae, and 1.3% Pseudomonadaceae. The Enterobacteriaceae were more frequent in the raw effluent compared to the Aeromonadaceae, which in turn were more prevalent in the recycled activated sludge and final effluent. Environmental variables such as pH, oxygen, chemical oxygen demand, and temperature were significantly correlated with the quantification of carbapenem-resistant Enterobacteriaceae (CRE) at specific points in the WWTP. Interestingly, isolated K. pneumoniae harboring blaKPC-2 from the WWTPs were diverse and did not relate genetically to the hospital strains with which they were compared. In conclusion, these results confirm the worrying scenario of the dissemination and persistence of emerging contaminants such as CRGNB harboring blaKPC-2, and reinforce the need to establish strategies aimed at containing this problem using multifocal interventions.

Antibiogram and beta-lactamase genes among cefotaxime resistant E. coli from wastewater treatment plant.

BACKGROUND: The World Health Organization (WHO) recently classified Enterobacteriaceae resistance to third-generation cephalosporin into the group of pathogens with critical criteria for future research. METHODS: A study to assess the antibiogram and beta-lactamase genes among the cefotaxime resistant E. coli (CREc) from a South African wastewater treatment plant (WWTP) was conducted using standard phenotypic and molecular biology characterization methods. RESULTS: Approximate total E. coli (TEc) concentration (log10 CFU/mL) ranged between 5.7 and 6.8 among which cefotaxime resistant E. coli were between 1.8 and 4.8 (log10 CFU/mL) for cefotaxime antibiotic concentration of 4 and 8 mg/L in the influent samples. Effluent samples, heavily influenced by the chlorination had only 0.3 log10 CFU/mL of TEc. Fifty-one cefotaxime resistant isolates were selected out of an overall of 75 isolates, and subjected to a new round of testing, with a follow up of 36 and 48 isolates for both colistin and gentamicin, respectively as guided by initial results. Selected CREc exhibited resistance to amoxicillin-clavulanic acid (35.3%; n = 51), colistin sulphate (76.5%; n = 36), ciprofloxacin (47.1%; n = 51), gentamicin (87.5%; n = 48) and intermediate-resistance to meropenem (11.8%; n = 51). Extended spectrum-beta-lactamase genes detected, viz.: blaCTX-M (52.6%; n = 38) and blaTEM (84.2%; n = 38) and concurrent blaCTX-M + blaTEM (36.8%; n = 38), but no blaSHV was detected. Carbapenem resistance genes, blaKPC-2 (15.8%; n = 38), blaOXA-1 (57.9%; n = 38), blaNDM-1 (15.8%; n = 38) were also detected. Approximately, 10.5 - 36.8% (n = 38) co-occurrence of two or more beta-lactamase genes was detected in some isolates. Out of the selected number (n = 30), 7(23.3%) were enterotoxigenic E. coli (ETEC), 14 (46.7%) were Enteroaggregative E. coli (EAEC), but no enteropathogenic E. coli (EPEC) was detected. CONCLUSION: Resistance to cefotaxime and the presence of a wide range of beta-lactamase genes exposed the potential risks associated with these pathogens via occupational and domestic exposure during the reuse of treated wastewater.

Review of embryo-fetal developmental toxicity studies performed for pharmaceuticals approved by FDA in 2016 and 2017.

Details of embryo-fetal development (EFD) studies were compiled for all FDA drug approvals in 2016-17. Rats and rabbits were used for 63% of small molecule (SM) drugs. The cynomolgus monkey was used for 47% of biopharmaceuticals. Rodent studies using the clinical mAb or animal homologue replaced monkey studies under some circumstances. EFD studies were not required for anti-cancer drugs when the mode of action was associated with known developmental risk. One quarter of SM non-oncology drugs and all tested SM anti-cancer drugs were teratogenic in at least one species. The rat and rabbit were essentially equally sensitive to developmental toxicity. Eighty-nine percent of SM non-cancer drugs induced maternal or fetal toxicity in at least one species at below 25-times human exposure (proposed maximum exposure in the draft revised ICH S5(R3) guideline). The pregnancy and lactation labeling rule (PLLR) has brought consistency to the presentation of EFD data in drug labels.

Molecular epidemiology of bla OXA-23 -producing carbapenem-resistant Acinetobacter baumannii in a single institution over a 65-month period in north China.

BACKGROUND: Carbapenem-resistant Acinetobacter baumannii poses a significant threat to hospitalized patients, as few therapeutic options remain. Thus, we investigated the molecular epidemiology and mechanism of resistance of carbapenem-resistant A.baumannii isolates in Beijing, China. METHODS: Carbapenem-resistant A.baumannii isolates (n = 101) obtained between June 2009 and November 2014 were used. Multilocus sequence typing (MLST) and PCR assays for class C and D ß-lactamase were performed on all isolates. S1 nuclease pulsed-field gel electrophoresis (PFGE) and Southern blot hybridization were performed to identify the resistance gene location. RESULTS: All 101 A.baumannii isolates were highly resistant to frequently used antimicrobials, and were considered multidrug resistant. A total of 12 sequence types (STs) were identified, including 10 reported STs and 2 novel STs. Eighty-seven isolates were classified to clonal complex 92 (CC92), among which ST191 and ST195 were the most common STs. The bla OXA-23 gene was positive in most (n = 95) of the A.baumannii isolates. Using S1-nuclease digestion PFGE and Southern blot hybridization, 3 patterns of plasmids carrying bla OXA-23 were confirmed. ST191 and ST195 (both harboring bla OXA-23 ) caused outbreaks during the study period, and this is the first report of outbreaks caused by ST191 and ST195 in north China. CONCLUSION: bla OXA-23 -producing A.baumannii ST191 and ST 195 isolates can disseminate in a hospital and are potential nosocomial outbreak strains. Surveillance of imipenem-resistant A.baumannii and antimicrobial stewardship should be strengthened.

Identification of antibiotic-resistant Escherichia coli isolated from a municipal wastewater treatment plant.

The emergence and diffusion of antibiotic-resistant bacteria has been a major public health problem for many years now. In this study, antibiotic-resistance of coliforms and Escherichia coli were investigated after their isolation from samples collected in a municipal wastewater treatment plant in the Milan area (Italy) along different points of the treatment sequence: inflow to biological treatment; outflow from biological treatment following rapid sand filtration; and outflow from peracetic acid disinfection. The presence of E. coli that showed resistance to ampicillin (AMP) and chloramphenicol (CAF), used as representative antibiotics for the efficacy against Gram-positive and Gram-negative bacteria, was evaluated. After determining E. coli survival using increasing AMP and CAF concentrations, specific single-resistant (AMPR or CAFR) and double-resistant (AMPR/CAFR) strains were identified among E. coli colonies, through amplification of the ß-lactamase Tem-1 (bla) and acetyl-transferase catA1 (cat) gene sequences. While a limited number of CAFR bacteria was observed, most AMPR colonies showed the specific resistance genes to both antibiotics, which was mainly due to the presence of the bla gene sequence. The peracetic acid, used as disinfection agent, showed to be very effective in reducing bacteria at the negligible levels of less than 10 CFU/100 mL, compatible with those admitted for the irrigation use of treated waters.

Review of embryo-fetal developmental toxicity studies performed for recent FDA-approved pharmaceuticals.

Details of embryo-fetal development (EFD) studies were compiled from published FDA approval documents for 43 small molecule drugs (2014-2015) and 37 monoclonal antibodies (mAbs, 2002-2015). Anti-cancer agents were analyzed separately. Rats and rabbits were the species used for EFD studies on 93% of small molecule drugs. Overall, the rat and rabbit were equally sensitive to maternal and fetal toxicity (including teratogenicity). Dosages equivalent to more than 50-times the human exposure (or 10-times for mAbs) were frequently used, but were unnecessary for 90% of drugs. EFD studies were not required for several recently approved mAbs owing to pre-existing scientific knowledge. The cynomolgus monkey was used for developmental toxicity testing of 75% of mAbs, frequently using an ePPND study design. Studies in pregnant rodents using homologous murine antibodies supplemented or replaced monkey studies under some circumstances. Most anti-cancer small molecules and mAbs were tested for developmental toxicity in at least one species.

ISAba1/blaOXA-23: A serious obstacle to controlling the spread and treatment of Acinetobacter baumannii strains.

This study demonstrated a direct correlation between Acinetobacter baumannii clusters carrying the ISAba1/blaOXA-23 gene and increased minimal inhibitory concentrations for carbapenems and greater clonal diversity. Our findings showed that clusters carrying ISAba1 are widely distributed in our hospital, further complicating the treatment and control of infections caused by A baumannii.

Adolescent social isolation enhances the plasmalemmal density of NMDA NR1 subunits in dendritic spines of principal neurons in the basolateral amygdala of adult mice.

Social isolation during the vulnerable period of adolescence produces emotional dysregulation manifested by abnormalities in adult behaviors that require emotional processing. The affected brain regions may include the basolateral amygdala (BLA), where plasticity of glutamatergic synapses in principal neurons plays a role in conditioned emotional responses. This plasticity is dependent on NMDA receptor trafficking denoted by intracellular mobilization of the obligatory NR1 NMDA subunit. We tested the hypothesis that the psychosocial stress of adolescent social isolation (ASI) produces a lasting change in NMDA receptor distribution in principal neurons in the BLA of adults that express maladaptive emotional responses to sensory cues. For this, we used behavioral testing and dual electron microscopic immunolabeling of NR1 and calcium calmodulin-dependent protein kinase II (CaMKII), a protein predominantly expressed in principal neurons of the BLA in adult C57Bl/6 mice housed in isolation or in social groups from post-weaning day 22 until adulthood (∼3 months of age). The isolates showed persistent deficits in sensorimotor gating evidenced by altered prepulse inhibition (PPI) of acoustic startle and hyperlocomotor activity in a novel environment. Immunogold-silver labeling for NR1 alone or together with CaMKII was seen in many somatodendritic profiles in the BLA of all mice irrespective of rearing conditions. However, isolates compared with group-reared mice had a significantly lower cytoplasmic (4.72 ± 0.517 vs 6.31 ± 0.517) and higher plasmalemmal (0.397 ± 0.0779 vs 0.216 ± 0.026) density of NR1 immunogold particles in CaMKII-containing dendritic spines. There was no rearing-dependent difference in the size or number of these spines or those of other dendritic profiles within the neuropil, which also failed to show an impact of ASI on NR1 immunogold labeling. These results provide the first evidence that ASI enhances the surface trafficking of NMDA receptors in dendritic spines of principal neurons in the BLA of adult mice showing maladaptive behaviors that are consistent with emotional dysregulation.

Detection of antibiotic residues and association of cefquinome residues with the occurrence of Extended-Spectrum ß-Lactamase (ESBL)-producing bacteria in waste milk samples from dairy farms in England and Wales in 2011.

Waste milk samples from 103 farms in England and Wales were examined for the presence of ß-lactam antibiotics and ESBL-producing Enterobacteriaceae. Approximately 10 months after the initial sampling, further waste milk, environmental and faecal samples from farms shown to be positive for CTX-M Escherichia coli were investigated further. Isolates with an ESBL phenotype were tested by PCR for the presence of blaCTX-M, blaOXA, blaSHV and blaTEM genes. Isolates positive for blaCTX-M were sequenced to determine CTX-M type. Representative isolates were further examined by PFGE, plasmid replicon typing and serotyping. Of particular interest, 21.4% of waste milk samples contained residues of the cephalosporin cefquinome, which was significantly associated with CTX-M bacteria. Such bacteria occurred in 5.8% of the waste milk samples (including 3.9% CTX-M E. coli). CTX-M types identified were 1, 14, 14b and 15, but none of the E. coli were serotype O25, the serotype of the human pandemic strain.

Deep brain stimulation of the mediodorsal thalamic nucleus yields increases in the expression of zif-268 but not c-fos in the frontal cortex.

This study explores the regions activated by deep brain stimulation of the mediodorsal thalamic nucleus through examination of immediate early genes as markers of neuronal activation. Stimulation was delivered unilaterally with constant current 100 µs duration pulses at a frequency of 130 Hz delivered at an amplitude of 200 µA for 3h. Brains were removed, sectioned and radio-labelled for the IEGs zif-268 and c-fos. In anaesthetised rats, deep brain stimulation of mediodorsal thalamic nucleus produced robust increases in the expression of zif-268 but not c-fos localised to regions that are reciprocally connected with the mediodorsal thalamic nucleus, including the prelimbic and orbitofrontal cortices, and the premotor cortex indicating an increase in synaptic activity in these regions. These findings map those brain regions that are persistently, rather than transiently, activated by high frequency electrical stimulation of the mediodorsal thalamic nucleus by a putatively antidromic mechanism which may be relevant to neuropsychiatric disorders such as schizophrenia in which thalamocortical systems are disrupted and in which DBS protocols are being considered.