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etection was verified. SUNI and NDSUNI showed obvious photoisomerization under light exposure. Therefore, strict light protection was applied for all sample collection and handling steps of SUNI and NDSUNI. Compared with heparin anticoagulant tubes, the stability of the eight compounds in both whole blood and plasma was better in K3-EDTA and sodium citrate anticoagulant tubes. Given that all the analytes were stable in plasma at 4 °C for 48 h and in whole blood at room temperature for 48 h but OSI and REGO were unstable in whole blood and plasma at room temperature, samples should be centrifuged as soon as possible to be preserved as plasma at 4 °C when OSI or REGO is detected. In conclusion, this validated method can provide support for clinical practice, such as therapeutic drug monitoring (TDM) and pharmacokinetic studies of these six TKIs and two active metabolites.The inhalation of peptides comes with the advantage of directly targeting the lung as tissue of interest. However, peptides are often rapidly metabolized in lung tissue through proteolytic cleavage. We have developed an assay workflow to obtain half-life and metabolite ID data for peptides incubated with four proteases abundant in lungs of asthma and COPD patients. The assay system has been validated using 28 structurally diverse linear and cyclic peptides with a molecular weight between 708 and 5808 Da. Experimental conditions for incubation, sample preparation, chromatography, data acquisition and analysis are compatible with the required throughput in early stage peptide projects. Together with co-crystal structures and Ala scans, we are using the described assay workflow to guide the first chemical modifications of peptide hits in early respiratory drug discovery projects.L-Kynurenine (KYN) and kynurenic acid (KYNA) are products of the metabolism of L-tryptophan (TRP) in the central nervous system of animals, but they are not commonly found in plants. In particular, KYNA is known for its interesting pharmacological properties (anti-oxidative, anti-inflammatory, hypolipidemic, and neuroprotective), which suggest a potential functional food ingredient role. The three compounds were identified in samples of Cannabis sativa L. by means of high-performance liquid chromatography coupled to high-resolution mass spectrometry using an untargeted metabolomics approach. Their concentrations were evaluated using a targeted metabolomics method in three organs of the plant (roots, stem, and leaves) in soil at two different growth stages and in hydroponics conditions. The distribution of TRP, KYN and KYNA was found tendentially higher in leaves compared to stem and roots and changed over time. Moreover, the levels of KYNA found in this study are unprecedentedly high compared to those found so far in other plant species, suggesting that Cannabis sativa L. could be a promising alternative source of this metabolite.A composite monolithic column was prepared via polymerization in a 10-mm-long tube, using a porphyrin-based covalent organic framework (COF) as the co-monomer. The fabricated monolith exhibit good permeability, relatively uniform porous structure and high specific surface area, which was used as a guard column prior to an analytical column for the analysis of active components in medicinal plants with HPLC. Ten kinds of medicinal plants were used as the samples, in which sixteen target components were separated and analyzed, as well as the fingerprints of herb and herb couple. Compared to a generally used commercial VAST silica gel-C18 guard column, the homemade guard column shows good permeability with fast mass transfer, short analytical time and strong reusability with more than 100 injections, thus indicating the present monolith is an outstanding guard column prior to the C18 analytical column for the analysis of multiple active components in various medicinal plants.Proanthocyanidins (PACs) refer to a group of polyphenols consisting of flavan-3-ol units, and are ubiquitously distributed in fruits, vegetables, nuts and grains. PACs possess high-level structural diversity because of the fickle linkage manners amongst units, the polymerization degree and stereoisomeric forms, thus leading to a great challenge for structural analysis. Although LC-MS/MS currently serves as the workhorse to profile PACs in complicated matrices, it's still challenging to achieve confirmatively structural annotation even employing the cutting-edged high-resolution MS/MS techniques, and the key technical obstacle lies at isomeric discrimination. To pursue as many auxiliary structural clues as possible, full collision energy ramp-MS2 (FCER-MS2) spectrum was conceptually designed here to involve all mass fragmentation behaviors of a given compound, such as m/z, optimal collision energy (OCE) and the maximal relative ion intensity (RIImax) aiming to advance the structural annotation confidences of PACs through reliably differentiating isomers. Thirteen authentic compounds were collected to mine relationships between chemical structures and FCER-MS2 spectra that were correlated by three progressive steps (1) recording MS/MS spectrum by LC-Q-TOF-MS; (2) proposing mass fragmentation pathways to assign those obvious fragment ion species; and (3) acquiring breakdown graph for each concerned fragment ion species by programming online energy-resolved mass spectrometry to compose FCER-MS2 spectrum. Afterwards, the rules were applied for PACs-focused chemical characterization of a medicinal herb namely Indigofera stachyodes (Chinese name Xuerenshen), and as a result, 22 PACs were captured and more importantly, isomerically identified by deciphering FCER-MS2 spectra. Therefore, FCER-MS2 spectrum provides a promising way to achieve in-depth isomeric discrimination of, but not limited to, PACs.Obesity is a major public health problem. Gut microbiome dysbiosis has been associated with obesity, however, little is known on the effect of the dysbiosis on the microbiotic bio-transformation of xenobiotics. Fecal samples of lean (n = 9) and obese (n = 4) female volunteers were collected and characterized by 16 S rDNA gene sequencing. The microbiotic biotransformation of chlorogenic acid was studied using the collected fecal samples of lean and obese subjects in the colon stage of the gastro-intestinal dialysis model with colon stage (GIDM-Colon). The concentration of anaerobic bacteria was lower for all obese samples in comparison to the samples of the lean volunteers. Differences in gut microbiome composition and bacterial concentration were observed between the two populations. The obese gut microbiome presented a lower metabolic activity in comparison to the lean population. Chlorogenic acid was completely biotransformed after 24 h colonic dialysis in the lean population while it was still present in the obese population. Furthermore, 23 and 13 biotransformation products were identified in the lean and obese population, respectively; 11 unique biotransformation products from the caffeic, feruoylquinic and quinic acid pathways were identified in the lean population. The results confirm that changes in gut microbiota related to obesity are associated with differences in microbiotic biotransformation of xenobiotics and thus possibly influencing the activity, bioavailability and toxicity of orally administered xenobiotics and drugs.Liquid chromatography and the tandem mass spectrometry method to quantitate SUVN-D4010 (Usmarapride) in human plasma and urine have been developed and fully validated in compliance with regulatory guidelines. The sample preparation technique is simple and rapid consisting of acetonitrile precipitation followed by dilution of supernatant with a compatible solvent. Chromatographic separation was achieved on an X-Bridge C18 (2.1×50 mm, 3.5 µm) column using 0.1% v/v ammonium hydroxide and acetonitrile as mobile phase components, delivered at a flow rate of 0.75 mL min-1. Electrospray Ionization technique in positive mode was used for mass spectrometric detection. Selective reaction monitoring (SRM) transitions of m/z 384.2 → 352.1 for SUVN-D4010 and m/z 388.2 → 356.1 for SUVN-D4010-d4 were used for quantitation. Calibration curves for SUVN-D4010 were linear across the concentration range of 0.3-300 ng mL-1 in human plasma and 5.00-5000 ng mL-1 in human urine. The method generated results with acceptable accuracy (± 9.0%), precision (%CV, ≤8.7), and mean extraction recovery (≥93.4%) with negligible matrix effect in both plasma and urine. SUVN-D4010 was found to be stable in human plasma and urine at the defined storage conditions. The validated method was successfully applied to quantitate SUVN-D4010 in human plasma and urine from a clinical first-in-human study conducted to evaluate its safety, tolerability, and pharmacokinetics in healthy adults.Nonalcoholic fatty liver (NAFLD) is associated with metabolic abnormalities and changes in lipid processing. learn more Fatty acids (FAs) are important signaling molecules in the body and are the main raw materials for lipid synthesis. To explore the lipidomic profile of serum fatty acids in mice, we put the mice on a high-fat diet (HFD) to induce NAFLD. We applied a targeted metabolic analysis approach using gas chromatography-mass spectrometry (GC-MS) and established a method for simultaneous determination of 36 medium and long-chain fatty acids in the serum of mice. This method was validated for linearity, range, sensitivity, precision, accuracy, recovery, stability, and dilution integrity. The levels of most FA species and total FAs were increased in the HFD group (n = 9) compared with the lean group (n = 9). The principal component analysis (PCA) and the orthogonal partial least squares discriminant analysis (OPLS-DA) of all FA species were analyzed in both groups. We found that palmitic acid (160), stearic acid (180), oleic acid (181), and arachidonic acid (204) were significantly different (VIP>1, p<0.05 and FC>1.5) in the two groups. We also calculated serum indices measure the activities of different enzymes involved in fatty acid metabolism. The de novo lipogenesis index, elongase index, n-6 FAs, saturated FAs, unsaturated FAs, and SCD1 index 2 were increased in the HFD group compared with the lean group while the n-3 FAs, n-3/n-6 of the index, and SCD1 index 1 were decreased in the HFD group compared with the lean group. Relationships between major FA species and biochemical indicators (LDL-C, TC, TG, ALT, and AST) were evaluated by Pearson analysis. The serum FA concentrations (C160, C180, C181, and C204) and serum indices (De novo lipogenesis index, elongase index, saturated FAs, unsaturated FAs and n-6 FAs) positively correlated with LDL-C, TC, TG, ALT, and AST. Collectively, our study provides insights into NAFLD and its effect on lipid metabolism.The increase in the consumption of poultry meat intensified production, which allowed the emergence of myopathies associated with broiler and turkey meat. The aim to examine possible quality alterations in the 240 Pectoralis major muscle (breast fillets) from carcasses of turkey breeder hens. Regarding DPM, 120 samples of breast fillets from turkey of the Nicholas strain with Pectoralis minor muscle together were selected according to the occurrence of the myopathy in the Pectoralis minor muscle (tender), as follows DPM score 2 (n = 40), DPM score 3 (n = 40), and a control group unaffected by DPM, score 0 (n = 40). Then, different 120 samples, from the same flock of birds, were selected according to White Striping (WS) anomaly in the Pectoralis major muscle (breast fillets), considering the degree of severity of the striations apparent in the muscle, as follows moderate (n = 40), severe (n = 40) and a control group (normal) without the presence of WS anomaly (n = 40), with set up as a completely randomized design with 3 treatments for DPM and WS.