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The irregular use of antibiotics has created a natural selection pressure for bacteria to adapt resistance. Bacterial resistance caused by metallo-β-lactamases (MβLs) has been the most prevalent in terms of posing a threat to human health. The New Delhi metallo-β-lactamase-1 (NDM-1) has been shown to be capable of hydrolyzing almost all β-lactams. In this work, eight aromatic Schiff bases 1-8 were prepared and identified by enzyme kinetic assays to be the potent inhibitors of NDM-1 (except 4). These molecules exhibited a more than 95 % inhibition, and an IC50 value in the range of 0.13-19 μM on the target enzyme, and 3 was found to be the most effective inhibitor (IC50 = 130 nM). Analysis of structure-activity relationship revealed that the o-hydroxy phenyl improved the inhibitory activity of Schiff bases on NDM-1. The inhibition mode assays including isothermal titration calorimetry (ITC) disclosed that both compounds 3 and 5 exhibited a reversibly mixed inhibition on NDM-1, with a Ki value of 1.9 and 10.8 μM, respectively. Antibacterial activity tests indicated that a dose of 64 μg·mL-1 Schiff bases resulted in 2-128-fold reduction in MICs of cefazolin on E. coli producing NDM-1 (except 4). Cytotoxicity assays showed that both Schiff bases 3 and 5 have low cytotoxicity on the mouse fibroblast (L929) cells at a concentration of up to 400 μM. Docking studies suggested that the hydroxyl group interacts with Gln123 and Glu152 of NDM-1, and the amino groups interact with the backbone amide groups of Glu152 and Asp223. This study provided a novel scaffold for the development of NDM-1 inhibitors.Observations from laboratory-based gait analysis are difficult to extrapolate to real-world environments where gait behavior is modulated in response to complex environmental conditions and surface profiles. read more Inertial measurement units (IMUs) permit real-world gait analysis; however, automatic detection of surfaces encountered remains largely unexplored. The aims of this study are to quantify for machine learning models the effect of (1) random and subject-wise data splitting and (2) sensor location and count on surface classification performance. Thirty participants walked on nine surface conditions (flat-even, slope-up, slope-down, stairs-up, stairs-down, cobblestone, grass, banked-left, banked-right) wearing IMUs (wrist, trunk, bilateral thighs, bilateral shanks). Data were separated into gait cycles, normalized to 101 samples, and spilt into train and test sets (85 and 15%, respectively). For random splitting, trials were randomly assigned to the train or test set. In subject-wise splitting, all trials from 4 random participants were selected for testing. Linear discriminant analysis extracted features from the IMUs. Features were delivered to a neural network. F1-score evaluated model performance. Models achieved F1 scores of 0.96 and 0.78 using random and subject-wise splitting, respectively. Random splitting performance was mainly invariant to sensor location/count; however, subject-wise splitting showed best performance using lower-limb sensors. In general, stairs and sloped surfaces were easily predicted (F1 > 0.85) while banked surfaces were challenging, especially for subject-wise models (F1 ≈ 0.6). Neural networks can detect surfaces based on subtle changes in walking behavior captured by IMUs. Data splitting approaches and sensor location/count (subject-wise) have a non-negligible effect on model performance.Osimertinib, a third-generation EGFR tyrosine kinase inhibitor, shows significant benefit among patients with EGFR T790M mutation at disease progression. We analyzed the whole exome sequence of 48 samples obtained from 16 lung cancer patients with a longitudinal follow-up treatment-naïve-baseline primary tumors positive for EGFR activating-mutations, paired re-biopsies upon disease progression but negative for EGFR T790M mutation based on qPCR, and their matched normal blood samples. Our Next generation sequencing (NGS) analysis identified an additional set of 25% re-biopsy samples to harbor EGFR T790M mutation occurring at a low-allele frequency of 5% or less, undetectable by conventional qPCR-based assays. Notably, the clinical utility of osimertinib among patients harboring low-allele frequency of EGFR T790M in tissue biopsy upon disease progression remains less explored. We established erlotinib-resistant PC-9R cells and twenty single-cell sub-clones from erlotinib-sensitive lung cancer PC-9 cells using in vitro drug-escalation protocol. NGS and allele-specific PCR confirmed the low-allele frequency of EGFR T790M present at 5% with a 100-fold higher resistance to erlotinib in the PC-9R cells and its sub-clones. Additionally, luciferase tagged PC-9, and PC-9R cells were orthotopically injected through the intercostal muscle into NOD-SCID mice. The orthotopic lung tumors formed were observed by non-invasive bioluminescence imaging. Consistent with in vitro data, osimertinib, but not erlotinib, caused tumor regression in mice injected with PC-9R cells, while both osimertinib and erlotinib inhibited tumors in mice injected with PC-9 cells. Taken together, our findings could extend the benefit of osimertinib treatment to patients with low EGFR T790M mutation allele frequency on disease progression.Background Apathy is a common behavioral syndrome that occurs across neurological and psychiatric disorders. An influential theoretical framework defined apathy as the quantitative reduction of self-generated voluntary and purposeful behaviors. There is evidence in the literature of the multidimensional nature of apathy with cognitive, behavioral, and emotional dimensions. To date, apathy has been assessed using various scales and questionnaires. Alternative objective and ecological measurements of apathy are needed. New method We used the ECOCAPTURE protocol and an ethological approach to investigate behavior in bvFTD patients under ecological conditions (a waiting room) while they freely explored a novel environment. Data were collected by behavioral coding from 7-minute video using an ethogram and transformed into behavior time series data. We present an approach considering behavioral kinetics to assess behavior. We aimed to construct a new behavior analysis method, called ECOCAPTURE kinetics, using temporal classification for behavior time series data analysis. To develop our classifier, we retained a nonelastic Euclidian metric, combined with a convolutional approach. Results We applied the ECOCAPTURE kinetics method to a cohort of 20 bvFTD patients and 18 healthy controls. We showed that bvFTD patients can be classified according to their behavioral kinetics into three groups. Each subgroup was characterized by specific behavior disorders and neuropsychological profile. Comparison with Existing Method(s) The ECOCAPTURE kinetics method is different from those of the classical approach of measuring behavior, producing time budgets, frequency of behavior occurrences, or kinematic diagrams. Conclusions This approach can be extended to any behavioral study encoding time.The intestinal mucosa protects the body from physical damage, pathogens, and antigens. However, inflammatory bowel diseases (IBDs) patients suffer from poor mucosal tissue function, including the lack of an effective cellular and/or mucus barrier. We investigated the mucus producing human colonic epithelial cell line HT29-MTX E12 to study its suitability as an in vitro model of cell/mucus barrier adaption during IBD. It was found that the proinflammatory cytokine interferon-gamma (IFN-γ), but not tumor necrosis factor-alpha (TNF-α), reduced cell viability. IFN-γ and TNF-α were found to synergize to decrease barrier function, as measured by trans-epithelial electric resistance (TER) and molecular flux assays. Cells cultured under an air-liquid interface produced an adherent mucus layer, and under these conditions reduced barrier function was found after cytokine exposure. Furthermore, IFN-γ, but not TNF-α treatment, upregulated the IFN-γ receptor 1 (IFNGR1) and TNF-α receptor super family 1A (TNFRSF1A) subunit mRNA in vitro. Co-stimulation resulted in increased mRNA expression of CLDN 2 and 5, two gene known to play a role in epithelial barrier integrity. Analysis of IBD patient samples revealed IFNGR1 and TNFRSF mRNA increased coincidently with guanylate binding protein 1 (GBP1) expression, an indicator of NFkB activity. Lastly, CLDN2 was found at higher levels in IBD patients while HNF4a was suppressed with disease. In conclusion, IFN-γ and TNF-α degrade epithelial/mucus barriers coincident with changes in CLDN gene and cytokine receptor subunit mRNA expression in HT29-MTX E12 cells. These changes largely reflect those observed in IBD patient samples.

By collecting the data of all relevant articles, the goal of this study was to better understand the relationship between the IL-6/IL-18 polymorphism and susceptibility to tuberculosis in several regional populations.

Pubmed, Embase, WOS and CNKI were used to find relevant literature. The findings of separate research were merged using Review Manager.

A total of 25 studies were included in this study. IL-6 rs1800795 (dominant. comparison p-value<0.0001, OR 1.43, 95 % CI 1.23-1.67; recessive comparison p-value<0.0001, OR 0.48, 95 % CI 0.35-0.65; allele comparison p-value<0.0001, OR 1.43, 95 % CI 1.27-1.62), IL-18 rs1946518 (dominant comparison p-value=0.01, OR 1.19, 95 % CI 1.04-1.35; recessive comparison p-value=0.01, OR 0.82, 95 % CI 0.71-0.96; allele comparison p-value=0.002, OR 1.14, 95 % CI 1.05-1.24), IL-18 rs187238 (dominant comparison p-value=0.0002, OR 1.35, 95 % CI 1.15-1.58; allele comparison p-value<0.0001, OR 1.31, 95 % CI 1.14-1.50). All gene polymorphisms were shown to be substantially linked to tuberculosis in the general population. Positive findings of rs187238 and rs1800795 polymorphisms were primarily driven by several regional populations, according to subgroup analyses.

This meta-analysis found that the the IL-6 rs1800795and IL-18 rs187238 polymorphisms may have a role in TB susceptibility.

This meta-analysis found that the the IL-6 rs1800795and IL-18 rs187238 polymorphisms may have a role in TB susceptibility.

In order to clarify the interaction mechanism, the phenotype and abnormal gene loci of FXI, FXII, and PS were investigated in this study.

Chinese pedigree with hereditary combined deficiency of coagulation factor (F) XI, FXII, and PS was enrolled in our study. Activated partial thromboplastin time (APTT), partial thromboplastin time (PT), FXIC, FXIIC, and protein S (PS)C were determined using the one-stage coagulation method. FXIantigen (Ag), FXIIAg, and PSAg were detected using enzyme-linked immunosorbent assay (ELISA). Exons and introns of the FXI, FXII, and PS genes were amplified by polymerase chain reaction (PCR), and gene sequencing results were analyzed using Chromas software.

A deletion of two bases located in introns A-149 and-150 within the FXI gene of the proband, his father, wife, and both sons. A missense variant in exon 14 (GGT→AGT, Gly542Ser) within FXII of the proband, his parents, and both sons. Four variants in exon 4 within the PS gene of all members of the pedigree GTT→GTG (Val46Val), CGC→CTC (Arg49Leu), CGT→CAT (Arg60His), and CAG→TAG (Gln61stop).

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