The microdialysis results revealed that intrathecal nefopam significantly increased 5-HT and NE levels and attenuated the formalin-induced release of glutamate in the spinal cord. Thus, the present data suggest that the increase in the extracellular levels of 5-HT and NE, and reductions in glutamate release in the spinal cord, may have contributed to the analgesic effects of nefopam.Multifactorial pathological processes of Alzheimer’s disease (AD) begin decades prior to clinical onset. Early identification of patients at risk of developing AD using biomarkers reflecting various aspects of pathogenesis is necessary for prevention and early intervention. Cortical β-amyloid (Aβ) burden assessed by positron emission tomography (PET) or cerebrospinal fluid (CSF) levels of Aβ42 are validated biomarkers for early identification. Recently, alterations in levels of neuronal proteins, neuronal pentraxin receptor (NPTXR) and neurofilament light (NfL), in the CSF have emerged as promising AD biomarkers. However, their association with Aβ deposition is not well understood. In this pilot study, we evaluate whether CSF NfL and NPTXR are associated with PET-Aβ imaging and core CSF biomarkers (Aβ42, T-tau, and P-tau). CSF samples were collected from a sub-cohort of participants from the Australian Imaging Biomarkers and Lifestyle study of aging (AIBL) and categorized as either PET-Aβ positive (n = 15) or negative (n = 15). NPTXR was significantly lower in PET-Aβ positive than negative individuals (p = 0.04), and correlated with Aβ42 (rho = 0.69, p less then 0.0001), T-tau (rho = 0.45, p = 0.01), and P-tau (rho = 0.51, p = 0.004). However, CSF NfL was not significantly different between PET-Aβ positive and negative individuals and did not correlate with any of the core CSF biomarkers. Similar associations of NPTXR and the core CSF biomarkers persisted in the cognitively normal individuals. Together, NPTXR concentration in CSF may be more sensitive NfL to identify AD risk during the preclinical stage, warranting further investigation into its contribution to AD pathogenesis.Tryptophan (TRP) metabolism could occur both peripherally and centrally, which plays an essential role in brain and gastrointestinal disorders. Metformin purchase The participation of TRP metabolism in the bidirectional brain-gut interactions is of value to better understand the mechanism of the pathophysiology of depression. To compare the difference between peripheral and cerebral TRP metabolism in depression, the chronic unpredicted mild stress (CUMS) was used to induce depressive-like syndrome in rats. After the rats were subjected to CUMS for five weeks, TRP and its metabolites were determined by prominence ultrafast liquid chromatography (UFLC) coupled with a QTRAP 5500 mass spectrometer (UFLC-QTRAP-5500/MS), and the expression of TRP metabolic enzymes were examined by Real-time quantitative PCR (qRT-PCR). CUMS induced TRP metabolism abnormalities in the colon, cortex and hippocampus of rats. There were regional metabolism differences, but the common points were the upregulation of indoleamine-2,3-dioxygenase 1 (IDO1) and the increased contents of Kynurenine (KYN), which suggested that KYN pathway (KP) was more favored than the serotonin (5-HT) pathway in the TRP metabolism under CUMS in the three regions studied. More importantly, KYN was preferentially metabolized into neurotoxic 3-hydroxycaninuric acid (3-HK) branch in the cortex and hippocampus while Kynurenic acid (KA) branch in the colon under CUMS. Interestingly, according to the Pearson’s correlation coefficients, there may be correlations between the colonic KYN and cerebral 3-HK and KA. It advances our understanding of the role of TRP metabolism in gut-brain communication and provides new research ideas and methods for depression.Myocardial function is tuned by dynamic changes in length and load via mechano-calcium feedback. This regulation may be significantly affected by heart rhythm. We evaluated the mechano-induced modulation of contractility and Ca-transient (CaT) in the rat myocardium subjected to twitch-by-twitch shortening-re-lengthening (↓-↑) trains of different lengths (N = 1 … 720 cycles) at low (1 Hz) and near-physiological (3.5 Hz) pacing rates. Force/CaT characteristics were evaluated in the first post-train isometric twitch (immediate effect) and during slow changes (delayed maximal elevation/decrease) and compared with those of the pre-train twitch. The immediate inotropic effect was positive for N = 30 … 720 and negative for N = 1 … 20, while the delayed effect was always positive. The immediate and delayed inotropic effects were significantly higher at 3.5-Hz vs 1-Hz (P less then 0.05). The prominent inotropism was accompanied by much smaller changes in the CaT diastolic level/amplitude. The shortening-re-lengthening train induced oscillations of the slow change in force at 3.5-Hz (always) and at 1-Hz (∼50% of muscles), which were dependent of the train length and independent of the pacing rate. We suggest that twitch-by-twitch shortening-re-lengthening of cardiac muscle decreases Ca2+ buffering by troponin C and elevates Ca2+ loading of the sarcoplasmic reticulum (SR); the latter cumulatively depends on the train length. A high pacing rate intensifies the cumulative transient shift in the SR Ca2+ loading, augmenting the post-train inotropic response and prolonging its recovery to the pre-train level. The pacing-dependent mechano-induced inotropic effects remain to be elucidated in the myocardium with impaired Ca handling.Lysogenic bacterial strains abound in the Lactobacillus genus and contain dormant prophages inserted within their genomes. To evaluate the prophage-induction potential of the Lactobacillus strains of six species, 142 randomly selected strains from these species were induced with Mitomycin C. Eight newly-induced phages were identified and found to be diverse in morphology. Among the six species assessed, Lactobacillus plantarum and Lactobacillus rhamnosus strains were generally insensitive to induction. The genomic characterizations of eight phages were performed via whole genome sequencing and protein prediction. Meanwhile, genome comparison of the induced phages and predicted prophages demonstrated that the prediction software PHASTER can accurately locate major prophage regions in Lactobacillus. A phylogenetic tree of the Lactobacillus phage population was constructed to obtain further insights into the clustering of individuals, two major groups were found, one of which consisted mostly of L. plantarum virulent phages, the other was represented by Lactobacillus casei/paracasei temperate phages.