Prevalence and antimicrobial resistance of Enterococcus spp. isolated from animal feed in Japan

The rising prevalence of antimicrobial resistance (AMR) of bacteria is a global health problem at the human, animal, and environmental interfaces, which necessitates the “One Health” approach. AMR of bacteria in animal feed are a potential cause of the prevalence in livestock; however, the role remains unclear. To date, there is limited research on AMR of bacteria in animal feed in Japan. In this study, a total of 57 complete feed samples and 275 feed ingredient samples were collected between 2018 and 2020. Enterococcus spp. were present in 82.5% of complete feed (47/57 samples), 76.5% of soybean meal (62/81), 49.6% of fish meal (55/111), 33.3% of poultry meal (22/66), and 47.1% of meat and bone meal (8/17) samples. Of 295 isolates, E. faecium (33.2% of total isolates) was the dominant Enterococcus spp., followed by E. faecalis (14.2%), E. hirae (6.4%), E. durans (2.7%), E. casseliflavus (2.4%), and E. gallinarum (1.0%). Of 134 isolates which were tested for antimicrobial susceptibility, resistance to kanamycin was the highest (26.1%), followed by erythromycin (24.6%), tetracycline (6.0%), lincomycin (2.2%), tylosin (1.5%), gentamicin (0.8%), and ciprofloxacin (0.8%). All Enterococcus spp. exhibited susceptibility to ampicillin, vancomycin, and chloramphenicol. Of 33 erythromycin-resistant isolates, only two showed a high minimum inhibitory concentration value (>128 μg/mL) and possessed ermB. These results revealed that overall resistance to antimicrobials is relatively low; however, animal feed is a source of Enterococcus spp. It is essential to elucidate the causative factors related to the prevalence of AMR in animal feed

Modeling of the RAG Reaction Mechanism

SummaryIn vertebrate V(D)J recombination, it remains unclear how the RAG complex coordinates its catalytic steps with binding to two distant recombination sites. Here, we test the ability of the plausible reaction schemes to fit observed time courses for RAG nicking and DNA hairpin formation. The reaction schemes with the best fitting capability (1) strongly favor a RAG tetrameric complex over a RAG octameric complex; (2) indicate that once a RAG complex brings two recombination signal sequence (RSS) sites into synapsis, the synaptic complex rarely disassembles; (3) predict that the binding of both RSS sites (synapsis) occurs before catalysis (nicking); and (4) show that the RAG binding properties permit strong distinction between RSS sites within active chromatin versus nonspecific DNA or RSS sites within inactive chromatin. The results provide general insights for synapsis by nuclear proteins as well as more specific testable predictions for the RAG proteins

Effects of ghrelin and motilin on smooth muscle contractility of the isolated gastrointestinal tract from the bullfrog and Japanese fire belly newt

Ghrelin has been identified in some amphibians and is known to stimulate growth hormone release and food intake as seen in mammals. Ghrelin regulates gastrointestinal motility in mammals and birds. The aim of this study was to determine whether ghrelin affects gastrointestinal smooth muscle contractility in bullfrogs (anuran) and Japanese fire belly newts (urodelian) in vitro. Neither bullfrog ghrelin nor rat ghrelin affected longitudinal smooth muscle contractility of gastrointestinal strips from the bullfrog. Expression of growth hormone secretagogue receptor 1a (GHS-R1a) mRNA was confirmed in the bullfrog gastrointestinal tract, and the expression level in the gastric mucosa was lower than that in the intestinal mucosa. In contrast, some gastrointestinal peptides, including substance P, neurotensin and motilin, and the muscarinic receptor agonist carbachol showed marked contraction, indicating normality of the smooth muscle preparations. Similar results were obtained in another amphibian, the Japanese fire belly newt. Newt ghrelin and rat ghrelin did not cause any contraction in gastrointestinal longitudinal muscle, whereas substance P and carbachol were effective causing contraction. In conclusion, ghrelin does not affect contractility of the gastrointestinal smooth muscle in anuran and urodelian amphibians, similar to results for rainbow trout and goldfish (fish) but different from results for rats and chickens. The results suggest diversity of ghrelin actions on the gastrointestinal tract across animals. This study also showed for the first time that motilin induces gastrointestinal contraction in amphibians

XRCC4:DNA ligase IV can ligate incompatible DNA ends and can ligate across gaps

XRCC4 and DNA ligase IV form a complex that is essential for the repair of all double-strand DNA breaks by the nonhomologous DNA end joining pathway in eukaryotes. We find here that human XRCC4:DNA ligase IV can ligate two double-strand DNA ends that have fully incompatible short 3′ overhang configurations with no potential for base pairing. Moreover, at DNA ends that share 1–4 annealed base pairs, XRCC4:DNA ligase IV can ligate across gaps of 1 nt. Ku can stimulate the joining, but is not essential when there is some terminal annealing. Polymerase mu can add nucleotides in a template-independent manner under physiological conditions; and the subset of ends that thereby gain some terminal microhomology can then be ligated. Hence, annealing at sites of microhomology is very important, but the flexibility of the ligase complex is paramount in nonhomologous DNA end joining. These observations provide an explanation for several in vivo observations that were difficult to understand previously

Downregulation of COL12A1 and COL13A1 by a selective EP2 receptor agonist, omidenepag, in human trabecular meshwork cells

Omidenepag isopropyl (OMDI) is an intraocular pressure (IOP)-lowering drug used to treat glaucoma. The active form of OMDI, omidenepag (OMD), lowers elevated IOP, the main risk factor for glaucoma, by increasing the aqueous humor outflow; however, a detailed understanding of this mechanism is lacking. To clarify the IOP-lowering mechanism of OMDI, the effects of OMD on the mRNA expression of the extracellular matrix, matrix metalloproteinases (MMPs), and tissue inhibitors of metalloproteinases (TIMPs) were evaluated in human trabecular meshwork cells. Under 2D culture conditions, the mRNA expression of FN1, COL1A1, COL1A2, COL12A1, and COL13A1 decreased in a concentration-dependent manner after 6 or 24 h treatment with 10 nM, 100 nM, and 1 μM OMD, while that of COL18A1 decreased after 6 h treatment with 1 μM OMD. Significant changes in expression were observed for many MMP and TIMP genes. Under 3D culture conditions, the extracellular matrix-related genes COL12A1 and COL13A1 were downregulated by OMD treatment at all three concentrations. Under both 2D and 3D culture conditions, COL12A1 and COL13A1 were downregulated following OMD treatment. Reduction in the extracellular matrix contributes to the decrease in outflow resistance, suggesting that the downregulation of the two related genes may be one of the factors influencing the IOP-lowering effect of OMDI. Our findings provide insights for the use of OMDI in clinical practice

A histidine in the β-CASP domain of Artemis is critical for its full in vitro and in vivo functions

International audienceArtemis is a key factor of the nonhomologous end-joining (NHEJ) pathway, which is critical for DNA double-strand break (DSB) repair in eukaryotic cells. It belongs to the β-CASP family of nucleases, forming a distinct group within the metallo-β-lactamase superfamily. Proteins of this group are specific for nucleic acids and contain an original domain, the β-CASP domain, which serves as a cap covering the active site displayed by the metallo-β-lactamase domain. Here, we have identified in the highly divergent sequences of the β-CASP domains from DNA-specific nucleases two conserved residues (Artemis E213 and H254), which are not present in RNA-specific enzymes, and shown that H254 plays a key role in the Artemis function, as it is critical for its full activity in vitro. Moreover, inherited mutation of H254 results in radiosensitive severe combined immune deficiency (RS-SCID) in humans. This residue might play a key role in specificity towards DNA, if not directly in zinc binding