Howellmalloy7858

Background & aims Anorexia Nervosa is a severe disease depending on both biological, psychological and environmental factors. The gut microbiota has recently been proposed as one of the biological factors potentially involved in the onset or maintenance of Anorexia Nervosa. To unravel the potential role of the gut microbiota in this disease, we characterized the dysbiosis occurring in a mouse model of Anorexia and correlated bacteria level changes with different physiological parameters such as body weight, food intake or levels of hypothalamic neuropeptides. Methods We used the Activity-Based Anorexia (ABA) mouse model, which combines food restriction and physical activity, and which mimics core features of Anorexia Nervosa. We characterized the gut microbiota alteration in ABA mice by combining 16S rRNA gene sequencing and quantitative PCR analyses of targeted genera or species. Results We identified 68 amplicon sequence variants (ASVs) with decreased levels and 8 ASVs with increased levels in the cecal content of ABA mice compared to control mice. We observed in particular in ABA mice increases in the abundance of Clostridium cocleatum and several Lactobacillus species and a decrease in the abundance of Burkholderiales compared to control mice. Interestingly, we show that most of the observed gut microbiota alterations are due to food restriction and are not affected by physical activity. In addition, we identified several bacterial groups that correlate with mice body weight, food intake, lean and fat masses as well as with hypothalamic mRNA levels of NPY (Neuropeptide Y) and POMC (Pro-opiomelanocortin). Conclusions Our study provides a comprehensive characterization of the gut microbiota dysbiosis occurring in the Activity-Based Anorexia mouse model. These data constitute a valuable resource to further decipher the role of the gut microbiota in the different facets of anorexia pathophysiology, such as functional gastrointestinal disorders, appetite regulation and mood disorders.A novel Kunitz-type neurotoxin peptide that inhibited voltage-gated sodium channel was purified and characterized from the skin secretions of rufous-spotted torrent frog, Amolops loloensis. It has a 240-bp cDNA encoding an 79-amino acid residue (aa) precursor protein containing 6 half-cysteines. The precursor was proven to release a 57-aa mature peptide with amino acid sequence, DRNPICNLPPKEGFCLWMMRRSFFNPSKGRCDTFGYRGCGGNKNNFETPRACKEACG. The mature was named amotoxin. Selleckchem TPA activator Amotoxin shares sequence homology with other Kunitz-type toxins and also has three cysteine bridges. Amotoxin showed an inhibitory ability against trypsin with an inhibitory constant (Ki) of 0.087 μM. To the best of our knowledge, this is the first gene-encoded neurotoxin found in Amolops loloensis. Recombinant amotoxin showed similar functional properties as the native amotoxin. The functional properties of amotoxin may provide insights into the ecological adaptation of amphibians and deepen our understanding about the biological function spectrum of amphibian skin peptides.The technique of CRISPR-Cas9 gene editing has been widely used to specifically delete the selected target genes through generating double strand breaks (DSBs) and inducing insertion and/or deletion (indel) of the genomic DNAs in the cells. We recently applied this technique to disrupt mineral dust-induced gene (mdig), a potential oncogene as previously reported, by single guide RNA (sgRNA) targeting the third exon of mdig gene in several cell types, including human bronchial epithelial cell line BEAS-2B, lung cancer cell line A549, and human triple negative breast cancer cell line MDA-MB-231 cells. In addition to the successful knockout of mdig gene in these cells, we unexpectedly noted generation of several alternatively spliced mdig mRNAs. Amplification of the mdig mRNAs during the screening of knockout clones by reverse transcription-polymerase chain reaction (RT-PCR) and the subsequent sanger sequencing of DNA revealed deletion and alternative splicing of mdig mRNAs induced by CRISPR-Cas9 gene editing. The most common deletions include nine and twenty-four nucleotides deletion around the DSBs. In addition, interestingly, some mdig mRNAs showed skipping of the entire exon 3, or alternative splicing between exon 2 and exon 8 using the new donor and accept splicing sites, leading to deletion of exons 3, 4, 5, 6, and 7. Accordingly, cautions should be taken when using CRISPR-Cas9 strategy to edit human genes due to the unintended alterative splicing of the target mRNAs. It is very likely that new proteins, some of which may be highly oncogenic, may be generated from CRISPR-Cas9 gene editing.Culture shapes our basic sensory experience of the world. This is particularly striking in the study of religion and psychosis, where we and others have shown that cultural context determines both the structure and content of hallucination-like events. The cultural shaping of hallucinations may provide a rich case-study for linking cultural learning with emerging prediction-based models of perception.Object Many neurosurgeons pursue graduate degrees as part of their training. In some jurisdictions, graduate degrees are considered a necessary condition of employment in academic neurosurgery. However, the relationship between possession of a graduate degree and eventual research productivity is not well established. We used bibliometric methods to analyze publications from academic Canadian neurosurgeons, with an emphasis on level of graduate training. Methods All neurosurgeons holding academic appointments at Canadian institutions from 2012-2016 were included. Over that time frame, Scopus was used to quantify the number of papers, number of citations, 5-year h-index and 5-year r-index, CiteScore, authorship position, and paper type (clinical or basic science). Publication output was compared between neurosurgeons grouped as MD-only, MD-Masters, or MD-PhD. Results In total, 2557 abstracts from 131 Canadian neurosurgeons were analyzed. We found that MD-Masters neurosurgeons published significantly more total papers, clinical papers, and first/last author papers than MD-only neurosurgeons. MD-PhD neurosurgeons had the same findings, in addition to more basic science papers, in journals with a higher CiteScore, 5-year h-index, and 5-year r-index than both other groups. These results were preserved even with significant outliers removed. There was no difference if graduate degrees were obtained before or after starting residency. There was no correlation with career length and number of recent papers published. Conclusion The attainment of a graduate degree has an important association with future publication productivity for academic neurosurgeons. These data should be useful for hiring committees considering the value of graduate degrees from applicants for positions in academic neurosurgery.