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Based on the results of the latest basic research on vitiligo, this article elucidates the significance of reconfiguration of glucose metabolism, lipid metabolism, amino acid metabolism, and metabolism of gut microbiota in the pathogenesis of vitiligo, attempts to delineate a panoramic picture of metabolic reconfiguration in vitiligo, and discusses the importance of dialectically and uniformly grasping the crosstalk between multiple metabolic pathways, and of thinking about the mechanisms of action of multiple metabolic pathway reconfiguration in the occurrence of vitiligo in individuals from a holistic perspective in future basic studies, in order to promote the understanding of the vitiligo pathogenesis and explore potential treatment methods for vitiligo.
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ObjectiveBased on ultra performance liquid chromatography-mass spectrometry(UPLC-MS) and non-targeted metabolomics technology to discuss the central regulatory effect of Chaishao Liujuntang on chronic atrophic gastritis(CAG) rats with liver-depression and spleen-deficiency, and to look for the correlation between cerebral cortex, hypothalamus and metabolic status of gastric tissues. MethodA CAG rat model with liver-depression and spleen-deficiency was established by chemical induction, hunger and satiety disorders, chronic restraint and tail clamping stimulation, lasting for 16 weeks. Twenty-eight Wistar rats were randomly divided into a blank group of 8 rats and a model group of 20 rats. After the completion of modeling, 4 rats in the model group were taken to observe the pathological changes of gastric mucosa. The remaining model rats were randomly divided into a model group of 8 rats and a Chaishao Liujuntang group of 8 rats. Chaishao Liujuntang group rats were given 5.1 g·kg-1 by gavage, and the remaining rats were given equal volume sterilized water by gavage for 4 weeks. Macroscopic characteristics, behavioral indicators and histopathological changes of the gastric mucosa of rats in each group were observed and compared. UPLC-MS non-targeted metabolomics was used to explore the metabolic regulation effect of Chaishao Liujuntang on the cerebral cortex, hypothalamus and stomach tissues of CAG rats with liver-depression and spleen-deficiency. Pearson correlation coefficient method was used to analyze the correlation between different tissue metabolites. ResultCompared with the model group, the macroscopic characteristics of rats in Chaishao Liujuntang group were improved, such as hair color, mental state and stool properties, and the number of times of crossing and standing in the open field experiment was significantly increased, and the static time of forced swimming was significantly reduced(P<0.01), and the gastric mucosa atrophy was reduced. The metabolic data from the cerebral cortex of rats in each group identified a total of 3 common potential biomarkers, but not enriched in pathways, 26 common potential biomarkers were identified in the hypothalamus, and the key metabolic pathways involved were mainly enriched in purine metabolism, glycerol phospholipid metabolism, D-glutamine and D-glutamic acid metabolism. Seventeen common potential biomarkers were identified in the stomach, and the key metabolic pathways involved were mainly enriched in thiamine metabolism, valine, leucine and isoleucine biosynthesis, and taurine and taurine metabolism. Correlation analysis of metabolites in different tissues revealed that multiple amino acids and their derivatives mediated metabolic connections between the cerebral cortex, hypothalamus and stomach of rats. ConclusionThe metabolic disorders in the cerebral cortex, hypothalamus and stomach of CAG rats with liver-depression and spleen-deficiency have their own characteristics, mainly manifested by changes in the content of glycerol phospholipids, fatty acids and bile acid metabolites. Moreover, Chaishao Liujuntang may play a central regulatory role in CAG rats with liver-depression and spleen-deficiency by correcting the metabolic disorders of amino acids.
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OBJECTIVE To study the effects of the Mongolian medicine Sugemule-4 on the metabolism of insomnia rats, and to preliminarily explore its possible mechanisms for improving insomnia. METHODS The rat model of chronic stress insomnia was established by tail clipping stimulation and intraperitoneal injection of p-chlorophenyl alanine solution. Twenty-four male rats were randomly divided into the normal group, model group, diazepam group (positive control, 0.92 mg/kg), and Sugemule-4 group (5.2 g/kg), with 6 rats in each group. Since the 7th day of tail clipping stimulation, the Sugemule-4 group and diazepam group began to be intragastrically administered with relevant medicine; the normal group and model group were intragastrically administered with an equal volume of distilled water, once a day, for 14 consecutive days. The learning and memory abilities of rats were tested using a water maze experiment, and the non-invasive sleep activity monitoring system was used to monitor the 24- hour sleep time of rats. A metabolomics study was conducted on rat serum and hippocampal tissue by using ultra-high-performance liquid chromatography-tandem mass spectrometry. The multivariate statistical analysis method was adopted to analyze the differential metabolites in serum and hippocampal tissue of rats, and screen for differential metabolites and metabolic pathways among those groups. RESULTS Compared with the normal group, the escape latency of rats in the model group was significantly increased, the times of crossing platforms were significantly reduced, and the percentage of average 24-hour sleep time was significantly reduced (P<0.05). Compared with the model group, the levels of the above indicators were significantly reversed in the diazepam group and Sugemule-4 group (P<0.05). Metabolomics studies found that a total of 9 differential metabolites were identified in rat serum and hippocampal tissue, including 5-hydroxyindoleacetic acid, canine urate, canine urinary quinolinic acid, 5-hydroxytryptamine, phenol sulfate, 1-carboxyethyltyrosine, 3-(4-hydroxyphenyl) lactate, N-acetyl tyrosine, tyrosine and phenol sulfate, mainly involving 2 metabolic pathways of tryptophan and tyrosine.CONCLUSIONS Sugemule-4 can improve the sleep time and behavioral performance of insomnia rats, and its mechanism may be associated with affecting amino acid metabolic pathways such as tryptophan and tyrosine.
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ObjectiveMetabolomics was used to reveal the mechanism of Aconiti Lateralis Radix Praeparata(ALRP) in attenuating toxicity by processing from the aspects of amino acid metabolism, oxidative stress and energy metabolism by analyzing multiple metabolic pathways. MethodTwenty-four rats were randomly divided into control group, raw group and processed group, 8 rats in each group. The raw and processed group were given with 0.64 g·kg-1 of raw ALRP and processed ALRP respectively every day, the control group was given with an equal amount of normal saline once a day. After continuous administration for 7 days, the urine, serum and heart tissue of rats were collected. Pathological examination of the heart was carried out using hematoxylin-eosin(HE) staining, and the activities of lactate dehydrogenase(LDH) and creatine kinase-MB(CK-MB) in serum and cardiac tissues were detected by microplate assay and immunoinhibition assay. The effects of ALRP on rat heart before and after processing were compared and analyzed. Ultra performance liquid chromatography-quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MS) was used to perform urine metabolomics analysis, and multivariate statistical analysis was used to screen for differential metabolites related to ALRP in attenuating toxicity by processing, and pathway enrichment analysis was carried out to explore the processing mechanism. ResultHE staining showed that no obvious pathological changes were observed in the heart tissue of the control group, while obvious infiltration of inflammatory cells such as plasma cells and granulocytes was observed in the heart tissue of the raw group, indicating that the raw ALRP had strong cardiotoxicity. There was no significant difference in HE staining of heart tissue between the processed group and the control group, indicating that the toxicity of ALRP was significantly reduced after processing. Compared with the control group, the activities of LDH and CK-MB were significantly increased in serum and heart tissue of the raw group, and those were significantly decreased in serum and heart tissue of the processed group, suggesting that the myocardial toxicity of processed ALRP was reduced. A total of 108 endogenous differential metabolites associated with the raw ALRP were screened using multivariate statistical analysis in positive and negative modes, of which 51 differential metabolites were back-regulated by the processed ALRP. Biological analysis of the key regulatory pathways and associated network changes showed that the pathways related to toxicity of ALRP mainly included tryptophan metabolism, arginine and proline metabolism, phenylalanine metabolism, aminoacyl-tRNA biosynthesis, alanine, aspartate and glutamate metabolism, etc. The metabolic pathways related to the attenuation of processed ALRP mainly included aminoacyl-tRNA biosynthesis, tryptophan metabolism, phenylalanine, tyrosine and tryptophan biosynthesis, phenylalanine metabolism and caffeine metabolism. ConclusionThe processing technology of ALRP in Guilingji can significantly attenuate the cardiotoxicity of raw products, the mechanism mainly involves amino acid metabolism, oxidative stress and energy metabolism, which can provide experimental bases for the research related to the mechanism of toxicity reduction of ALRP by processing and its clinical safety applications.
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Objective @#To evaluate the change of energy metabolism during cisplatin ⁃induced acute kidney injury.@*Methods @#Adult CD⁃1 male mice were intraperitoneally inj ected with a single dose of cisplatin (20 mg/kg) , and renal function and renal tissue pathology were tested; gene expression was analyzed and signaling pathways were enriched in cisplatin ⁃treated renal tubular epithelial cells using transcriptome; the contents of renal glycolysis and amino acid metabolites were analyzed using liquid chromatography⁃tandem mass spectrometry ( LC⁃MS/MS) . @*Results@#Serum urea nitrogen and blood creatinine significantly increased in cisplatin ⁃treated mice. Pathological histology ob served swelling and shedding of renal tubular epithelial cells. Transcriptome analysis revealed that 2 632 genes were upregulated and 2 799 genes were downregulated in cisplatin ⁃treated HK⁃2 cells. GO and KEGG analyatin caused an upregulation of the oxidative phosphorylation pathway and a downregulation of the glycolysis pathway in renal tubular epithelial cells , further KEGG analysis demonstrated that cisplatin caused changes in the expression of amino acid genes in renal cells. Metabolomics showed that the contents of glycolytic intermediates and several amino acids were altered in the kidney of cisplatin ⁃treated mice. @*Conclusion @#Cisplatin ⁃induced acute renal injury is accompanied by modification in renal tubular cell glycolysis and amino acid metabolism.
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This study aimed to demonstrate the effect of Banxia Baizhu Tianma Decoction(BBTD) on realizing withdrawal of anti-epileptic drugs and explore the relationship between BBTD and the amino acid metabolism by transcriptomic analysis in the rat model of epilepsy induced by lithium chloride-pilocarpine. The rats with epilepsy were divided into a control group(Ctrl), an epilepsy group(Ep), a BBTD & antiepileptic drug integrative group(BADIG), and an antiepileptic drug withdrawal group(ADWG). The Ctrl and Ep were given ultrapure water by gavage for 12 weeks. The BADIG was given BBTD extract and carbamazepine solution by gavage for 12 weeks. The ADWG was given carbamazepine solution and BBTD extract by gavage for the former 6 weeks, and then only given BBTD extract for the latter 6 weeks. The therapeutic effect was evaluated by behavioral observation, electroencephalogram(EEG), and hippocampal neuronal morphological changes. High-throughput sequencing was used to obtain amino acid metabolism-related differen-tial genes in the hippocampus, and the mRNA expression in the hippocampus of each group was verified by real-time quantitative polymerase chain reaction(RT-qPCR). The hub genes were screened out through protein-protein interaction(PPI) network, and Gene Ontology(GO) functional enrichment analysis and Kyoto Encyclopedia of Genes and Genomes(KEGG) pathway enrichment analysis were performed. Two ceRNA networks, namely circRNA-miRNA-mRNA and lncRNA-miRNA-mRNA, were constructed for ADWG vs BADIG. The experimental results showed that compared with those in Ep, rats in ADWG were significantly improved in the behavioral observation, EEG, and hippocampal neuronal impairment. Thirty-four amino acid metabolism-related differential genes were obtained by transcriptomic analysis, and the sequencing results were confirmed by RT-qPCR. Eight hub genes were obtained through PPI network, involving several biological processes, molecular functions, and signal pathways related to amino acid metabolism. Finally, the circRNA-miRNA-mRNA ternary transcription network of 17 circRNA, 5 miRNA, and 2 mRNA, and a lncRNA-miRNA-mRNA ternary network of 10 lncRNA, 5 miRNA, and 2 mRNA were constructed in ADWG vs BADIG. In conclusion, BBTD can effectively achieve the withdrawal of antiepileptic drugs, which may be related to the transcriptomic regulation of amino acid metabolism.
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Rats , Animaux , ARN circulaire/génétique , Transcriptome , ARN long non codant/génétique , Anticonvulsivants , microARN/génétique , ARN messager , Carbamazépine , Acides aminés , Réseaux de régulation géniqueRÉSUMÉ
ObjectiveTo explore the regulatory effect of polysaccharides and n-butanol fractions of Atractylodis Rhizoma stir-fried with bran on the plasma metabolites of spleen-deficient rats, and then to elucidate their mechanisms of spleen-enhancing effects. MethodForty male SD rats were randomly divided into the blank group, model group, polysaccharide group (FD group, 0.075 6 g·mL-1·d-1), n-butanol fractions group (FZ group, 0.012 1 g·mL-1·d-1), with 10 rats in each group. Except the blank group, the other three groups used the compound factors of overwork, dietary disorders and intragastric administration of Sennae Folium decoction to replicate the rat model of spleen deficiency. After the end of modeling, the FD group and FZ group were given the corresponding medicinal solution by gavage for 7 d, meanwhile, the blank group and model group were given an equal volume of saline. The plasma samples from rats in the blank, model, FZ and FD groups were analyzed by ultra-high performance liquid chromatography-quadrupole/electrostatic field orbitrap high-resolution mass spectrometry (UHPLC-Q-Orbitrap-MS), multivariate statistical methods were used to process the data and screen differential metabolites, and metabolic pathway enrichment analysis of the screened differential metabolites was performed using the Kyoto Encyclopedia of Genes and Genomes (KEGG))database and MetaboAnalyst 5.0. ResultThe results of multivariate statistical analysis showed that there were significant differences in plasma metabolites between the model group and blank group, FZ group and model group, FD group and model group. There were 380 differential metabolites between the blank group and the model group, of which 78 and 57 were called back by polysaccharides and n-butanol fractions of Atractylodis Rhizoma stir-fried with bran, respectively. Metabolic pathway enrichment results showed that the n-butanol fractions mainly affected glycine, serine and threonine metabolism, alanine, aspartate and glutamate metabolism, D-arginine and D-ornithine metabolism, which were summarized as amino acid metabolism, while the polysaccharides mainly affected glycine, serine and threonine metabolism, alanine, aspartate and glutamate metabolism, tricarboxylic acid cycle, biotin metabolism and thiamine metabolism. ConclusionBoth of polysaccharides and n-butanol fractions of Atractylodis Rhizoma stir-fried with bran have significant regulating effects on the metabolic abnormalities in spleen-deficient rats, in which the n-butanol fractions is mainly involved in amino acid metabolism, and the polysaccharides are involved in energy metabolism and cofactor and vitamin metabolism in addition to regulating amino acid metabolism.
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Objective:This study aimed to analyze differential metabolites in patients using a dual metabolic platform and to orientate early nutritional intervention in patients with cirrhosis.Methods:The skeletal muscle index (SMI) was calculated based on computed tomography (CT) measurements of skeletal muscle cross-sectional area at the third lumbar vertebra level. Pre-sarcopenia was diagnosed for males with SMI < 46.96 and for females with SMI < 32.46. Fifteen HBV-related liver cirrhosis patients with pre-sarcopenia were included as Group S while fourteen liver cirrhosis without pre-sarcopenia were Group NS. Liquid chromatography-mass spectrometry (LC-MS) and gas chromatography-mass spectrometry (GC-MS) analyses were used to detect differential metabolites and disturbed pathways in the two groups.Results:Five pathways and twenty-eight pathways were defined as disturbed pathways in the plasma of liver cirrhosis patients with pre-sarcopenia by LC-MS and GC-MS, respectively. Most of these pathways are related to amino acid metabolism. Forty-two differential metabolites were imported into the disturbed pathways. Moreover, 3-hydroxypropanal, hydrocinnamic acid, betaine aldehyde, phosphohydroxypyruvic acid, (r)-3-hydroxybutyric acid, and creatinine were identified as potential biomarkers for pre-sarcopenia in HBV-related liver cirrhosis.Conclusions:The study identified a total of 33 pathways and related differential metabolites that were disturbed in HBV-related liver cirrhosis with pre-sarcopenia. The amino acid metabolism, urea cycle, and glyoxylate and dicarboxylate metabolism pathways may be associated with pre-sarcopenia in patients with HBV-related liver cirrhosis. These results provide a direction for nutritional supplementation in liver cirrhosis.
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This paper reports a case of neonatal lupus syndrome manifested by metabolic disease. A male neonate was admitted to the Children's Hospital of Soochow University due to poor response and vomiting for 1 day. Based on the clinical symptoms, including the patterned skin and a full anterior fontanelle, and a result of leukocytosis, neonatal sepsis was considered. Lysinuric protein intolerance was not excluded from the genetic metabolic disorders screening. The patient was positive for lupus-related autoantibodies and antinuclear antibodies, which were also found in his mother and elder sister. He had no functional variant of the SCL7A7 gene, a gene related to lysinuric protein intolerance, thereby the diagnosis of neonatal lupus syndrome manifested by metabolic disorders was confirmed. After treatment with methylprednisolone, the patient recovered well with no specific change in blood genetic metabolism at re-examination. Monthly follow-up after discharge found decreased antibody titers.
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This article reports a pedigree with two previously deceased neonates. Both neonates did not experience asphyxia but passed away on their 5th and 13th day of life. The chromosomal analysis of the parents' karyotype revealed no abnormalities. Clinical manifestations of the two deceased cases and relevant medical records were recollected. Whole exome sequencing was conducted on the stem blood sample of Neonate 2, revealing a c.729_730insTT homozygous mutation (p.D244Lfs*39) in the methylmalonyl-CoA mutase gene (NM_000255). It was confirmed that Neonate 2 was affected with methylmalonic acidemia. Amniocentesis was performed at 20 +3 weeks in the current pregnancy. Sanger sequencing of amniotic fluid indicated that the fetus carried the same gene mutation as Neonate 2. Consequently, the fetus was expected to be a patient with methylmalonic acidemia and to exhibit the same phenotype as Neonate 2. Termination of pregnancy, therefore, was selected at 24 weeks of gestation.
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This paper aims to investigate the regulatory mechanism of blood-activating and stasis-dissipating drugs on fecal metabolic characteristics of rhubarb-peach kernel in mice with adenomyosis (AM) using fecal metabolome method. Adenomyosis was modeled by pituitary transplantation, and after the end of modeling administration, fecal samples were collected from mice. Non-targeted metabolomics studies were performed using liquid chromatography-mass spectrometry (LC-MS) to compare the metabolic characteristics of the feces of mice in each group and to find intestinal differential metabolites and potential differential metabolic pathways. The results showed that compared with the normal group, 5-hydroxy-L-tryptophan, histidine, L-acetylcarnitine, 16-hydroxy hexadecanoic acid, thromboxane B2, etc. were significantly up-regulated, L-urobilin and prostaglandin D3 were down-regulated in the feces of the model group, and were reversed after treatment with the rhubarb-peach kernel. The results of metabolic pathway enrichment analysis showed that tryptophan metabolism and histidine metabolism were the main intervention pathways of the rhubarb-peach kernel on AM intestinal metabolism. This study found that the underlying mechanism of the rhubarb-peach kernel in the treatment of AM is related to the intervention of intestinal metabolism of tryptophan, histidine, bile acid, choline and arachidonic acid, and the regulation of pro-inflammatory microenvironment and fatty acid metabolic homeostasis. This study has been approved by the Experimental Animal Ethics Committee of China Three Gorges University (No. 20190801).
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A case of Usher syndrome with methylmalonic acidemia and homocysteine is reported. The patient was a two-month-old and small for gestational age male infant hospitalized for "feeding difficulties" during the neonatal period. The baby boy presented hypotonia, microcephaly, and hearing loss after birth. Genetic test found compound heterozygous mutations of c.482G>A and c.567dup in MMACHC, and both were pathogenic mutations inherited from his parents. Moreover, the patient also had compound heterozygous variants at c.2802T>G and c.14017T>C of USH2A gene. The former was suspected to be pathogenic, and the latter was of unknown clinical significance. Both were from the parents. Usher syndrome and methylmalonic acidemia with homocysteine were clinically diagnosed. Followed up to the age of two, the child was found with moderate mental retardation, while the physical development was comparable to that of the same age group.
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Angiogenesis,the formation of new blood vessels from the development of existing capillaries or posterior capillar)' veins,is a key event in various physiological and pathological en-vironments.In recent years,the role of endothelial cell metabo¬lism in pathological angiogenesis has attracted much attention.More and more studies have shown that endothelial angiogenesis switches and pathological angiogenesis are regulated by key fac¬tors of energy metabolism.'Hie unique glycolysis properties of endothelial cells are essential for cell proliferation,migration and response to environmental changes.In this review, we provide an overview of recent research on endothelial cell energy metabolism and summarize and discuss the potential therapeutic strategies u- sing endothelial cell metabolism to provide some reference for dnjg development targeting endothelial cell metabolism.
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OBJECTIVE@#To observe the effect of acupuncture combined with rehabilitation training on cognitive function and amino acid metabolism in children with cerebral palsy.@*METHODS@#Twenty children with cerebral palsy (cerebral palsy group) were randomly divided into an acupuncture and rehabilitation group (11 cases) and a rehabilitation group (9 cases), and 10 healthy children were included as the normal group. The rehabilitation group was treated with rehabilitation training, 30 min each time; on the basis of rehabilitation training, the acupuncture and rehabilitation group was treated with acupuncture at Sishenzhen, Zhisanzhen, Naosanzhen, Niesanzhen, Dazhui (GV 14), Shenzhu (GV 12), Mingmen (GV 4), etc. The Sishenzhen (left and right points) and the ipsilateral Niesanzhen were respectively connected with a group of electrodes, intermittent wave, frequency of 2 Hz for 30 min. Both groups were treated once every other day, three times a week, totaling for 3 months. The Gesell developmental diagnostic scale (GESELL) was used to evaluate the developmental quotient (DQ) scores before and after treatment, and the blood samples of children with cerebral palsy before and after treatment and normal children were collected for amino acid metabolomics.@*RESULTS@#Compared before treatment, the DQ scores of adaptation, fine motor and social in the acupuncture and rehabilitation group was increased after treatment (@*CONCLUSION@#Acupuncture combined with rehabilitation training could improve cognitive function in children with cerebral palsy, and the effect may be related to the down-regulation of L-histidine and L-citrulline metabolism.
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Enfant , Humains , Points d'acupuncture , Thérapie par acupuncture , Acides aminés , Paralysie cérébrale/thérapie , CognitionRÉSUMÉ
Aim To investigate the effects of YL- IPA08 on the endogenous metabolites of PTSD model rats by metabolomics methods, and to explore the metabolic pathways and possible mechanisms of YL-IPA08 against PTSD. Methods The rats were randomly divided into control group, PTSD model group, and administration group of PTSD rats induced by forced swimming test, and the treatment group was given YL- IPA08 (2 mg • kg"1) by intragastric gavage for 15 consecutive days. High-performance liquid chromatog- raphy-mass spectrometry (HPLC-MS/MS) technology was used to detect the endogenous differential metabolites and the associated metabolic pathways in rat plasma samples. Targeted quantitative technology was simultaneously applied to detect the concentrations of 18 bile acids in rat plasma. Results Compared with control group, 40 kinds of endogenous metabolites including glutamic acid, proline, valine, arginine, leucine , cholic acid, and creatine showed significant difference, and the concentrations of 11 bile acids significantly increased in plasma of model group as well. Compared with model group, after YL-IPA08 intervention , the above-mentioned potential metabolites ap-peared to return to normal levels. Conclusions Metabolomics analysis reveals that YL-IPA08 has intervention effect on PTSD model rats. The mechanism may be related to the regulation of amino acid metabolism and bile acid metabolism.
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Overuse of antibiotics in medical care and animal husbandry has led to the development of bacterial antimicrobial resistance, causing increasingly more health concern. In addition to genetic mutations and the formation of resistance, the various stresses bacteria encountered in the natural environment trigger their stress responses, which not only protect them from these stresses, but also change their tolerance to antimicrobials. The emergence of antimicrobial tolerance will inevitably affect the physiological metabolism of bacteria. However, bacteria can restore their sensitivity to drugs by regulating their own metabolism. This article reviews recent studies on the relationship between bacterial stress responses or the physiological metabolism and antimicrobial tolerance, intending to take more effective measures to control the occurrence and spread of antimicrobial resistance.
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Animaux , Antibactériens/pharmacologie , Anti-infectieux , Bactéries/génétique , Résistance bactérienne aux médicaments , Stress physiologiqueRÉSUMÉ
Objective: To study the phagocytosis of mouse monocyte-macrophage Raw 264.7 by the active constituents of Astragalus polysaccharides for injection based on LC-MS metabolomics. Methods: Neutral red method was used to detect the phagocytosis of Raw 264.7 by different molecular weight fractions of Astragalus polysaccharides for injection. The active components were selected, and the cell culture supernatant and cell lysate were analyzed by LC-MS. Combined with multivariate statistical analysis and metabolism pathway analysis, the mechanism of action was studied. Results: The small molecular weight fraction of Astragalus polysaccharides for injection significantly promoted the phagocytosis of Raw 264.7 at a concentration of 30 μg/mL. Compared with the control group, after the active part of the injection of Astragalus polysaccharides was applied to Raw 264.7, 41 differential metabolites were found in and out of the cells, mainly related to amino acid metabolism, energy metabolism and antioxidant effects. Conclusion: The small molecular weight fraction of Astragalus polysaccharides for injection can increase the phagocytosis of Raw 264.7, and its mechanism may be closely related to amino acid metabolism, energy metabolism and antioxidant effects.
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Pluripotent stem cells (PSCs) can immortally self-renew in culture with a high proliferation rate, and they possess unique metabolic characteristics that facilitate pluripotency regulation. Here, we review recent progress in understanding the mechanisms that link cellular metabolism and homeostasis to pluripotency regulation, with particular emphasis on pathways involving amino acid metabolism, lipid metabolism, the ubiquitin-proteasome system and autophagy. Metabolism of amino acids and lipids is tightly coupled to epigenetic modification, organelle remodeling and cell signaling pathways for pluripotency regulation. PSCs harness enhanced proteasome and autophagy activity to meet the material and energy requirements for cellular homeostasis. These regulatory events reflect a fine balance between the intrinsic cellular requirements and the extrinsic environment. A more complete understanding of this balance will pave new ways to manipulate PSC fate.
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Pluripotent stem cells (PSCs) can immortally self-renew in culture with a high proliferation rate, and they possess unique metabolic characteristics that facilitate pluripotency regulation. Here, we review recent progress in understanding the mechanisms that link cellular metabolism and homeostasis to pluripotency regulation, with particular emphasis on pathways involving amino acid metabolism, lipid metabolism, the ubiquitin-proteasome system and autophagy. Metabolism of amino acids and lipids is tightly coupled to epigenetic modification, organelle remodeling and cell signaling pathways for pluripotency regulation. PSCs harness enhanced proteasome and autophagy activity to meet the material and energy requirements for cellular homeostasis. These regulatory events reflect a fine balance between the intrinsic cellular requirements and the extrinsic environment. A more complete understanding of this balance will pave new ways to manipulate PSC fate.
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Pluripotent stem cells (PSCs) can immortally self-renew in culture with a high proliferation rate, and they possess unique metabolic characteristics that facilitate pluripotency regulation. Here, we review recent progress in understanding the mechanisms that link cellular metabolism and homeostasis to pluripotency regulation, with particular emphasis on pathways involving amino acid metabolism, lipid metabolism, the ubiquitin-proteasome system and autophagy. Metabolism of amino acids and lipids is tightly coupled to epigenetic modification, organelle remodeling and cell signaling pathways for pluripotency regulation. PSCs harness enhanced proteasome and autophagy activity to meet the material and energy requirements for cellular homeostasis. These regulatory events reflect a fine balance between the intrinsic cellular requirements and the extrinsic environment. A more complete understanding of this balance will pave new ways to manipulate PSC fate.