Secreted Frizzled-Related Protein 5 Mediates Wnt5a Expression in Microcystin-Leucine-Arginine-Induced Liver Lipid Metabolism Disorder in Mice

Objective Microcystin-leucine-arginine(MC-LR)exposure induces lipid metabolism disorders in the liver.Secreted frizzled-related protein 5(SFRP5)is a natural antagonist of winglesstype MMTV integration site family,member 5A(Wnt5a)and an anti-inflammatory adipocytokine.In this study,we aimed to investigate whether MC-LR can induce lipid metabolism disorders in hepatocytes and whether SFRP5,which has anti-inflammatory effects,can alleviate the effects of hepatic lipid metabolism by inhibiting the Wnt5a/Jun N-terminal kinase(JNK)pathway.Methods We exposed mice to MC-LR in vivo to induce liver lipid metabolism disorders.Subsequently,mouse hepatocytes that overexpressed SFRP5 or did not express SFRP5 were exposed to MC-LR,and the effects of SFRP5 overexpression on inflammation and Wnt5a/JNK activation by MC-LR were observed.Results MC-LR exposure induced liver lipid metabolism disorders in mice and significantly decreased SFRP5 mRNA and protein levels in a concentration-dependent manner.SFRP5 overexpression in AML12cells suppressed MC-LR-induced inflammation.Overexpression of SFRP5 also inhibited Wnt5a and phosphorylation of JNK.Conclusion MC-LR can induce lipid metabolism disorders in mice,and SFRP5 can attenuate lipid metabolism disorders in the mouse liver by inhibiting Wnt5a/JNK signaling.

Mechanistic study of lipid metabolism disorders in diabetic kidney disease treated with GLQMP based on network pharmacology,molecular docking and in vitro experiments

Background:In this study,we used network pharmacology and molecular docking combined with vitro experiments to explore the potential mechanism of action of Gualou Qumai pill(GLQMP)against DKD.Methods:We screened effective compounds and drug targets using Chinese medicine systemic pharmacology database and analysis platform and Chinese medicine molecular mechanism bioinformatics analysis tools;and searched for DKD targets using human online Mendelian genetics and gene cards.The potential targets of GLQMP for DKD were obtained through the intersection of drug targets and disease targets.Cytoscape software was applied to build herbal medicine-active compound-target-disease networks and analyze them;protein-protein interaction networks were analyzed using the STRING database platform;gene ontology and Kyoto Encyclopedia of Genes and Genomes were used for gene ontology and gene and genome encyclopedia to enrich potential targets using the DAVID database;and the AutoDock Vina 1.1.2 software for molecular docking of key targets with corresponding key components.In vitro experiments were validated by CCK8,oil red O staining,TC,TG,RT-qPCR,and Western blot.Results:Through network pharmacology analysis,a total of 99 potential therapeutic targets of GLQMP for DKD and the corresponding 38 active compounds were obtained,and 5 core compounds were identified.By constructing the protein-protein interaction network and performing network topology analysis,we found that PPARA and PPARG were the key targets,and then we molecularly docked these two key targets with the 38 active compounds,especially the 5 core compounds,and found that PPARA and PPARG had good binding ability with a variety of compounds.In vitro experiments showed that GLQMP was able to ameliorate HK-2 cell injury under high glucose stress,improve cell viability,reduce TC and TG levels as well as decrease the accumulation of lipid droplets,and RT-qPCR and Western blot confirmed that GLQMP was able to promote the expression levels of PPARA and PPARG.Conclusion:Overall,this study revealed the active compounds,important targets and possible mechanisms of GLQMP treatment for DKD,and conducted preliminary verification experiments on its correctness,provided novel insights into the treatment of DKD by GLQMP.

Exploiting fly models to investigate rare human neurological disorders

Rare neurological diseases,while individually are rare,collectively impact millions globally,leading to diverse and often severe neurological symptoms.Often attributed to genetic mutations that disrupt protein function or structure,understanding their genetic basis is crucial for accurate diagnosis and targeted therapies.To investigate the underlying pathogenesis of these conditions,researchers often use non-mammalian model organisms,such as Drosophila(fruit flies),which is valued for their genetic manipulability,cost-efficiency,and preservation of genes and biological functions across evolutionary time.Genetic tools available in Drosophila,including CRISPR-Cas9,offer a means to manipulate gene expression,allowing for a deep exploration of the genetic underpinnings of rare neurological diseases.Drosophila boasts a versatile genetic toolkit,rapid generation turnover,and ease of large-scale experimentation,making it an invaluable resource for identifying potential drug candidates.Researchers can expose flies carrying disease-associated mutations to various compounds,rapidly pinpointing promising therapeutic agents for further investigation in mammalian models and,ultimately,clinical trials.In this comprehensive review,we explore rare neurological diseases where fly research has significantly contributed to our understanding of their genetic basis,pathophysiology,and potential therapeutic implications.We discuss rare diseases associated with both neuron-expressed and glial-expressed genes.Specific cases include mutations in CDK19 resulting in epilepsy and developmental delay,mutations in TIAM1 leading to a neurodevelopmental disorder with seizures and language delay,and mutations in IRF2BPL causing seizures,a neurodevelopmental disorder with regression,loss of speech,and abnormal movements.And we explore mutations in EMC1 related to cerebellar atrophy,visual impairment,psychomotor retardation,and gain-of-function mutations in ACOX1 causing Mitchell syndrome.Loss-of-function mutations in ACOX1 result in ACOX1 deficiency,characterized by very-long-chain fatty acid accumulation and glial degeneration.Notably,this review highlights how modeling these diseases in Drosophila has provided valuable insights into their pathophysiology,offering a platform for the rapid identification of potential therapeutic interventions.Rare neurological diseases involve a wide range of expression systems,and sometimes common phenotypes can be found among different genes that cause abnormalities in neurons or glia.Furthermore,mutations within the same gene may result in varying functional outcomes,such as complete loss of function,partial loss of function,or gain-of-function mutations.The phenotypes observed in patients can differ significantly,underscoring the complexity of these conditions.In conclusion,Drosophila represents an indispensable and cost-effective tool for investigating rare neurological diseases.By facilitating the modeling of these conditions,Drosophila contributes to a deeper understanding of their genetic basis,pathophysiology,and potential therapies.This approach accelerates the discovery of promising drug candidates,ultimately benefiting patients affected by these complex and understudied diseases.

The Role of Adipose Tissue-derived Exosomes in Chronic Metabolic Disorders

Excessive fat deposition in obese subjects promotes the occurrence of metabolic diseases,such as type 2 diabetes mellitus(T2DM),cardiovascular diseases,and non-alcoholic fatty liver disease(NAFLD).Adipose tissue is not only the main form of energy storage but also an endocrine organ that not only secretes adipocytokines but also releases many extracellular vesicles(EVs)that play a role in the regulation of whole-body metabolism.Exosomes are a subtype of EVs,and accumulating evidence indicates that adipose tissue exosomes(AT Exos)mediate crosstalk between adipose tissue and multiple organs by being transferred to targeted cells or tissues through paracrine or endocrine mechanisms.However,the roles of AT Exos in crosstalk with metabolic organs remain to be fully elucidated.In this review,we summarize the latest research progress on the role of AT Exos in the regulation of metabolic disorders.Moreover,we discuss the potential role of AT Exos as biomarkers in metabolic diseases and their clinical application.

Huangqin decoction alleviates lipid metabolism disorders and insulin resistance in nonalcoholic fatty liver disease by triggering Sirt1/NF-κB pathway

BACKGROUND Nonalcoholic fatty liver disease(NAFLD)is a clinicopathological entity characterized by intrahepatic ectopic steatosis.As a consequence of increased consumption of high-calorie diet and adoption of a sedentary lifestyle,the incidence of NAFLD has surpassed that of viral hepatitis,making it the most common cause of chronic liver disease globally.Huangqin decoction(HQD),a Chinese medicinal formulation that has been used clinically for thousands of years,has beneficial outcomes in patients with liver diseases,including NAFLD.However,the role and mechanism of action of HQD in lipid metabolism disorders and insulin resistance in NAFLD remain poorly understood.AIM To evaluate the ameliorative effects of HQD in NAFLD,with a focus on lipid metabolism and insulin resistance,and to elucidate the underlying mechanism of action.METHODS High-fat diet-induced NAFLD rats and palmitic acid(PA)-stimulated HepG2 cells were used to investigate the effects of HQD and identify its potential mechanism of action.Phytochemicals in HQD were analyzed by highperformance liquid chromatography(HPLC)to identify the key components.RESULTS Ten primary chemical components of HQD were identified by HPLC analysis.In vivo,HQD effectively prevented rats from gaining body and liver weight,improved the liver index,ameliorated hepatic histological aberrations,decreased transaminase and lipid profile disorders,and reduced the levels of pro-inflammatory factors and insulin resistance.In vitro studies revealed that HQD effectively alleviated PA-induced lipid accumulation,inflammation,and insulin resistance in HepG2 cells.In-depth investigation revealed that HQD triggers Sirt1/NF-κB pathwaymodulated lipogenesis and inflammation,contributing to its beneficial actions,which was further corroborated by the addition of the Sirt1 antagonist EX-527 that compromised the favorable effects of HQD.CONCLUSION In summary,our study confirmed that HQD mitigates lipid metabolism disorders and insulin resistance in NAFLD by triggering the Sirt1/NF-κB pathway.

Biochemical Changes in the Brain and Metabolism as Risk Factors of Neurological Disorders

This paper aims to examine theories that attempt to explain biochemical changes in the brain as well as the metabolism of individuals who experience symptoms and conditions related to neurological disorders like depression. A systematic literature search was performed on NCBI and PubMed. The search included the keywords neurological disorders, monoamine hypothesis, metabolic syndrome, oxytocin receptor, dietary health, and magnesium intake. Twenty-five research articles met the criteria for the literature review of this examination. In particular, this paper will review multiple studies that investigate the monoamine (MAO) hypothesis of depression and metabolic syndrome (MetS) as a risk factor for neurological disorders. While studies that evaluate additional risk factors for neurological disorders, such as autoimmunity and rheumatic diseases, oxytocin receptor (OXTR) DNA methylation in postpartum depression, dietary health in children and their psychological health, and dietary magnesium and cardiovascular disease, will be reviewed as well.

The effect of iron metabolism on anxiety disorder

Anxiety disorder is one of the most common emotional disorders,but its pathogenesis re-mains unclear.Research has shown that iron deficiency is more common in people with emotional disorders and that these disorders can improve after taking iron supple-ments.Many factors can cause anxiety disorders,includ-ing external stress,genetic factors,impaired neurodevel-opment,and abnormal monoamine metabolism.Studies have shown that abnormal monoamine metabolism and impaired neurodevelopment can contribute to the severity of emotional disorders.The synthesis of serotonin(5-HT)and dopamine(DA)require iron as a cofactor in the syn-thesis of monoamine metabolism,and the release of epi-nephrine(E)was potentially associated with labile iron in plasma.At the same time,iron is also directly involved in myelin synthesis as a cofactor in neural development.Therefore,iron maybe involved some of the main causes of the onset of anxiety disorders.

A review of methylenetetrahydrofolate reductase in one-carbon metabolism and psychiatric disorders

Methylenetetrahydrofolate reductase(MTHFR)is a key enzyme for the critical process of one-carbon circulation,which convert5,10-methylenetetrahydrofolate to5-methyltetrahydrofolate and participate in folate and homocysteine conversion correlated to methyl group supply.The enzyme activity decline depends on the gene polymorphism.MTHFR impacts on the methylation process which is related to psychiatric diseases.Studies have shown association between MTHFR gene polymorphisms and mental disorders,some of which stratified by folate and cobalamin levels.In this review,we will summarize the testimony on the relationship between methylation and MTHFR polymorphism as well as the implication on psychiatric diseases by MTHFR mutation.

Study on mechanism and genetic analysis of lipid metabolism disorder in pregnant rats

Objective: To analyze the characteristics and possible mechanism of lipid metabolism in pregnant rats with intestinal flora imbalance. Methods: A total of 129 sexually mature female SD rats were divided into three groups: non-pregnant group (untreated healthy rats), healthy pregnant group (natural insemination pregnant rats), and pregnant microflora disorder group (pregnant rats were given mixed antibiotics by gavage to build the modeling), with 43 rats in each group. The contents of TG, LDL, HDL and TC were detected by automatic biochemical analyzer, and the contents of SCD1, PGC-1 alpha, PEPCK, ApoE and MTTP genes were detected by fluorescence quantitative PCR technology. Regression analysis was used to explore the comprehensive influence of each gene on total cholesterol expression in rats. Principal component analysis was used to explore the internal mechanism of lipid metabolism in pregnant rats with intestinal flora disorder. Results: The contents of TG, TC, LDL and HDL were compared among the three groups of rats and the differences were statistically significant (P<0.05) . The expression levels of related genes (SCD1, PGC-1, PEPCK, ApoE, MTTP) in the three groups were statistically significant (P<0.05) . SCD1 content in the non-pregnant group, healthy pregnancy group, and disordered pregnancy group was (0.92±0.12) μg/mL, (1.20±0.15)μg/mL, and (1.53±0.20) μg/mL, respectively. PGC-1 alpha content in the non-pregnant group, healthy pregnancy group, and disordered pregnancy group was (1.34±0.21) μg/mL, (0.93±0.12) micron /mL, and (0.41±0.08) μg/mL, respectively. PEPCK content in the non-pregnant group, healthy pregnancy group, and disordered pregnancy group was (0.48±0.06) μg/mL, (0.35±0.09)μg/mL, and (0.22±0.05) μg/mL, and the differences were statistically significant (P<0.05) . Multivariate linear regression analysis showed that the influence of gene content on The effect of each gene content on TC content was in order from large to small: SCD1 (OR=4.572) , PGC-1 (OR=3.387) , PEPCK (OR=3.935) , ApoE (OR=3.597) , MTTP (OR=3.096) . The principal component analysis showed that three principal components could be extracted from five related genes of lipid metabolism in pregnant rats with intestinal dysbiosis: SCD1/PEPCK pathway (contribution rate: 36.28%) , PGC-1 /ApoE pathway (contribution rate: 30.42%) , and MTTP pathway (contribution rate: 15.37%) . Conclusion: After pregnancy, blood lipids in rats are significantly increased while the imbalance of intestinal flora will lead to decreased blood lipids. The disorder of lipid metabolism in pregnant rats with intestinal flora imbalance is mainly related to the disorder of gene expression, which further affects the functions of SCD1/PEPCK, PGC-1 /ApoE and MTTP pathways.

Lean-non-alcoholic fatty liver disease increases risk for metabolic disorders in a normal weight Chinese population

AIM: To study the prevalence and clinical biochemical, blood cell and metabolic features of lean-non-alcoholic fatty liver disease (lean-NAFLD) and its association with other diseases.

Gastric xanthelasma and metabolic disorders: A large retrospective study among Chinese population

AIM To gain knowledge of xanthelasma,a large populationbased study was conducted. METHODS Patients who underwent upper gastrointestinal endoscopy at the First Affiliated Hospital,College of Medicine,Zhejiang University,Hangzhou,China during Jan 2009 to Nov 2016 were included. General characteristics as well as clinical data were collected,including blood routine,serum biochemical analysis,endoscopic findinds,histological evaluation and comorbiditie. Statistical analyses was performed using SPSS 20.0 software for Windows(IBM Inc.,Chicago,IL,United States) using Student's t-test,Mann-Whitney U test,χ2 test,univariable and multivariable logistic analysis. 2-tailed P value less than 0.05 was considered to be statistically significant. RESULTS A total of 176006 endoscopies were retrieved and we included 1370 xanthelasma participants(703 men,667 women) in this study. Prevalence of xanthelasma was 0.78% with average age of 56.6 ± 11.2 years. Chief complaint of xanthelasma consisted abdominal pain (24.2%),up-abdominal discomfort(14.1%),abdominal distention(10.1%),dyspepsia(9.1%),et al. Most xanthelasma occurred as single lesion in gastric antrum. Xanthelasma patients witnessed higher Helicobacter pylori(H. pylori) infection rate,more of other gastric lesions including atrophy,intestinal metaplasia and dysplasia(P < 0.01). In xanthelasma patients,serum carcinoembryonic antigen,triglyceride,fasting glucose,neutrophil,neutrophil-to-lymphocyte ratio were significantly higher,and high density lipoprotein-cholesterol,lymphocyte was lower(P < 0.05). Xanthelasma accompanied with more fatty liver disease and hepatic cyst,but fewer gallbladder polyp(P < 0.05). In logistic regression,it revealed that fasting plasma glucose(OR = 3.347,1.170-9.575,P < 0.05),neutrophil(OR = 1.617,1.003-2.605,P < 0.05),and carcinoembryonic antigen(OR = 2.011,1.236-3.271,P < 0.01) were all independent risk factors in xanthelasma. CONCLUSION Current study described a large xanthelasma cohort in Chinese population,revealed its relationship with H. pylori infection,carcinogenesis,metabolic dysfunction and inflammation as well.

Prevalence of Metabolic Syndrome and Its Associations with Other Metabolic Disorders and Cardiovascular Changes in Health Examination Population in Beijing

Objective To investigate the prevalence of metabolic syndrome(MS) and its associations with other metabolic disorders and cardiovascular changes in health examination population in Beijing.Methods Totally,10 916 individuals who received health examination in Health Examination Center of Peking Union Medical College Hospital were enrolled.The height,weight,blood pressure,serum levels of triglyceride,high-density lipoprotein cholesterol(HDL-C),and fasting blood glucose were recorded.MS was diagnosed based on the working criteria of Chinese Diabetes Society 2004(CDS2004).Meanwhile,other metabolic disorders,including fatty liver and hyperuricemia,were recorded.The cardiovascular changes were reflected by the reports of electrocardiogram(ECG) ST-T changes and atherosclerosis of retinal arteries.Results The overall prevalence rate of MS was 6.1%(666/10 916) in the population.The prevalence rate of MS in male was much higher than that in female(9.0% vs.2.7%,P=0.000).For individuals with MS,the prevalence rates of fatty liver and hyperuricemia were significantly higher than those without MS,respectively(70.4% vs.35.4%,P=0.000;29.9% vs.17.7%,P=0.000).As for cardiovascular changes,the prevalence rates of ECG ST-T changes and atherosclerosis of retinal arteries were significantly higher in individuals with MS than those without MS,respectively(13.8% vs.11.7%,P=0.012;12.0% vs.6.8%,P=0.000).Conclusions The prevalence of MS in Beijing population is high.The individuals with MS have a higher risk for other metabolic disorders and cardiovascular changes.

Asiaticoside ameliorates type 2 diabetes mellitus in rats by modulating carbohydrate metabolism and regulating insulin signaling

Objective:To evaluate the effect of asiaticoside on streptozotocin(STZ)and nicotinamide(NAD)-induced carbohydrate metabolism abnormalities and deregulated insulin signaling pathways in rats.Methods:Asiaticoside(50 and 100 mg/kg body weight)was administered to STZ-NAD-induced diabetic rats for 45 days,and its effects on hyperglycaemic,carbohydrate metabolic,and insulin signaling pathway markers were examined.Results:Asiaticoside increased insulin production,lowered blood glucose levels,and enhanced glycolysis by improving hexokinase activity and suppressing glucose-6-phosphatase and fructose-1,6-bisphosphatase activities.Abnormalities in glycogen metabolism were mitigated by increasing glycogen synthase activity and gluconeogenesis was decreased by decreasing glycogen phosphorylase activity.Furthermore,asiaticoside upregulated the mRNA expressions of IRS-1,IRS-2,and GLUT4 in STZ-NAD-induced diabetic rats and restored the beta cell morphology to normal.Conclusions:Asiaticoside has the potential to ameliorate type 2 diabetes by improving glycolysis,gluconeogenesis,and insulin signaling pathways.

Better understanding of c-reactive protein and leukocytes in psychiatric inpatients with affective disorders:A biopsychosocial approach

BACKGROUND Affective disorders(AD)have been linked to inflammatory processes,although the underlying mechanisms of this relationship are still not fully elucidated.It is hypothesized that demographic,somatic,lifestyle,and personality variables predict inflammatory parameters in AD.AIM To identify biopsychosocial factors contributing to inflammation in AD measured with two parameters,C-reactive protein(CRP)and leukocytes.METHODS This observational study investigated 186 hospital inpatients diagnosed with AD using demographic parameters,serum inflammatory markers,somatic variables,psychological questionnaires,and lifestyle parameters.Hierarchical regression analyses were used to predict inflammatory markers from demographic,somatic,lifestyle,and personality variables.RESULTS Analyses showed that 33.8%of the variance of CRP was explained by body mass index and other somatic medication(e.g.anti-diabetics),age and education,and age of affective disorder diagnosis.For leukocytes,20.1%of the variance was explained by smoking,diet,metabolic syndrome(MetS),and anti-inflammatory medication(e.g.non-steroidal anti-inflammatory drugs).Other psychiatric or behavioural variables did not reach significance.CONCLUSION Metabolic components seem important,with mounting evidence for a metabolic affective disorder subtype.Lifestyle modifications and psychoeducation should be employed to prevent or treat MetS in AD.

Impact of the adherence to medical treatment on the main urinary metabolic disorders in patients with kidney stones

Objective:To assess the effect of the adherence to medical treatment on urinary parameters in the 24-h metabolic study of patients with kidney stones.Methods:A retrospective,longitudinal,descriptive,and observational study was carried out by reviewing the hospital electronic medical record from 2014 to 2018.The adherence to drug treatment was measured 6 months after its initiation,and the numerical values of the metabolic studies were compared.Wilcoxon tests were performed to compare the difference before and after treatment.Results:Ninety patients were evaluated,with 73.3% of adherence.The 180-day overall adherence rate was 61.2% in patients treated with a single drug and 85.4% in patients treated with multiple drugs.There is a statistically significant increase in citrate levels in patients with good adherence in comparison with non-adherent patients(p=0.031 vs.p=0.528).Conclusions:Medical treatment and dietary measures in patients with kidney stones have an initial impact at 6 months on the values of the main urinary metabolic alterations that predispose to calculi formation;the most significant is seen in those patients with adherence to medical treatment for hypocitraturia.

Endocrine disrupting chemicals in mixture and obesity,diabetes and related metabolic disorders

Obesity and associated metabolic disorders represent a major societal challenge in health and quality of life with large psychological consequences in addition to physical disabilities. They are also one of the leading causes of morbidity and mortality. Although, different etiologic factors including excessive food intake and reduced physical activity have been well identified, they cannot explain the kinetics of epidemic evolution of obesity and diabetes with prevalence rates reaching pandemic proportions. Interestingly, convincing data have shown that environmental pollutants, specifically those endowed with endocrine disrupting activities, could contribute to the etiology of these multifactorial metabolic disorders. Within this review, we will recapitulate characteristics of endocrine disruption. We will demonstrate that metabolic disorders could originate from endocrine disruption with a particular focus on convincing data from the literature. Eventually, we will present how handling an original mouse model of chronic exposition to a mixture of pollutants allowed demonstrating that a mixture of pollutants each at doses beyond their active dose could induce substantial deleterious effects on several metabolic end-points. This proof-of-concept study, as well as other studies on mixtures of pollutants, stresses the needs for revisiting the current threshold model used in risk assessment which does not take into account potential effects of mixtures containing pollutants at environmental doses, e.g., the real life exposure. Certainly, more studies are necessary to better determine the nature of the chemicals to which humans are exposed and at which level, and their health impact. As well, research studies on substitute products are essential to identify harmless molecules.

Lipid droplets in the nervous system:involvement in cell metabolic homeostasis

Lipid droplets serve as primary storage organelles for neutral lipids in neurons,glial cells,and other cells in the nervous system.Lipid droplet formation begins with the synthesis of neutral lipids in the endoplasmic reticulum.Previously,lipid droplets were recognized for their role in maintaining lipid metabolism and energy homeostasis;however,recent research has shown that lipid droplets are highly adaptive organelles with diverse functions in the nervous system.In addition to their role in regulating cell metabolism,lipid droplets play a protective role in various cellular stress responses.Furthermore,lipid droplets exhibit specific functions in neurons and glial cells.Dysregulation of lipid droplet formation leads to cellular dysfunction,metabolic abnormalities,and nervous system diseases.This review aims to provide an overview of the role of lipid droplets in the nervous system,covering topics such as biogenesis,cellular specificity,and functions.Additionally,it will explore the association between lipid droplets and neurodegenerative disorders.Understanding the involvement of lipid droplets in cell metabolic homeostasis related to the nervous system is crucial to determine the underlying causes and in exploring potential therapeutic approaches for these diseases.

Impact of the Association of a High Fructose Diet and Chronic Mild Stress on Metabolic and Affective Disorders in Male Rat

An early unbalanced nutritional diet can induce affective disorders in adulthood. As well as stress in adolescence can accentuate these disorders. Both human and rat structural changes have been demonstrated in the hippocampus, likewise, oxidative stress may be involved in these disturbances. The objective of this study is to see the impact of a high-fructose diet (PN21) associated with chronic mild stress (CMS) at the end of adolescence (PN55) on metabolic and affective disorders in rats Wistar. This study was performed on four groups of male rats: control group, CMS for five weeks (PN55), fructose for ten weeks (PN21) and fructose for ten weeks (PN21) associated with CMS for five weeks (PN55). These animals underwent behavioral tests to evaluate their affective states (open field test, Sucrose preference test). After sacrifice, the dosage of glucose, triglycerides and total cholesterol was performed at the prefrontal cortex (CPF) and also at the hippocampus;the dosage of nitric oxide (NO) was performed, too. The bulk of our results show that fructose induces metabolic disturbances;the CMS induces a state of depression-like, while the association potentiated metabolic disturbances, depression-like state and also inducing anxiety. This study has shown that fructose and CMS can disrupt the various functions of the body and their association can potentiate these disturbances.

High Sugar-Fat Diet Induces Metabolic-Inflammatory Disorders Independent of Obesity Development

Background: The modern dietary habit, which is rich in refined carbohydrates and saturated fats, increases the risk of chronic diseases due to the proinflammatory effect of these nutrients. Aim: To evaluate the impact of high sugar-fat diet in the development of metabolic-inflammatory disorders in non-obese animals. Methods: Male Wistar rats were distributed into two groups according to the diet: control and high sugar-fat for 30 weeks. It was analyzed: dietary efficiency;chow, water and caloric intake;metabolic and hormonal profile in plasma and inflammatory cytokines in epididymal adipose tissue. Data were compared by Student’s t test or by Mann-Whitney U test with p Results: HSF presented lower chow intake, higher water consumption and dietary efficiency with no difference in the caloric intake. The final body weight (FBW) and weight gain (WG) were lower in the HSF group and there was no difference in the adiposity index (AI). HSF diet-induced hyperglycemia and hyperinsulinemia with no difference for Homeostatic Model Assessment for Insulin Resistance (HOMA-IR). Triglycerides, uric acid, adiponectin and leptin levels were higher in the HSF group. The HSF group showed increased interleukin-6 (IL-6) and tumoral necrosis factor-alpha (TNF-α) levels in epidydimal adipose tissue. The urinary protein-creatinine ratio and albuminuria were higher in the HSF group. Conclusion: HSF diet intake is directly involved in the development of metabolic-inflammatory disorders independent of obesity, dissociating the view that increased adiposity is the major risk factor for complications commonly found in obese individuals.

Liujunzi decoction ameliorats cisplatin-induced anorexia via adjusting metabolic disorders in rats

OBJECTIVE Cisplatin is a formidable chemotherapy agent widely applying in antineoplastic treatments,but its side effects often limit the clinical usage.Metabolic disorders are one of the side effects induced by cisplatin,which closely relate to the onset of chemotherapy-induced anorexia(CIA)in cancer patients but lacks effective controls.Liujunzi decoction(LJZD)is a traditional Chinese formula that has a promising effect in treating CIA.However,whether LJZD ameliorates CIA through adjusting cisplatin-induced metabolic disorders remain unknow.The present study evaluated the mechanism of cisplatin-induced metabolic disorders,and the effect of LJZD in ameliorating these disturbances.METHODS 42 male Sprague-Dawley(SD)rats(180-220 g)were randomly divided into 3 groups:normal control group(distilled water+saline),model group(distilled water+cisplatin),LJZD group(4.8 g·kg^(-1)Liujunzi decoction ingredients+cisplatin).Intragastrical administered each drug twice a day(7∶00-19∶00)since day 0 for 4 d,animals were intraperitoneal injected with cisplatin 6 mg·kg^(-1)1 h after administration while normal control groups were injected with same volume of saline.On day 3,each group was anesthetized with pentobarbital sodium 45 mg·kg^(-1)(ip),and blood samples were collected from aorta abdominalis.Then the samples were analyzed using an LC-ESI-MS/MS system.Significantly regulated metabolites between groups were determined by VIP≥1 and absolute Log2FC(fold change)≥1.Identified metabolites were mapped to Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway database using Metaboanalyst 5.0(https://www.metaboanalyst.ca/).RESULTS A total of 133,77 and 32 differential metabolites were filtrated in control vs model,control vs LJZD and model vs LJZD groups respectively.Comparing to control,the levels of hexadecanoic acid(Log2FC=6.3153),linoleic acid(Log2FC=5.3478),and 8,11-icosadienoic acid(Log2FC=5.2342)significantly increased,and the levels of N-acetyl-L-tyrosine(Log2FC=-2.6283),cinnamic acid(Log2FC=-2.3381),N-acetylphenylalanine(Log2FC=-2.2501)significantly decreased in model group.The KEGG pathway enrichments of these metabolites indicated that,cisplatin-induced metabolic disorders by disturbing metabolism pathways such as linoleic acid metabolism,biosynthesis of unsaturated fatty acids,and phenylalanine metabolism,which suggested that the onset of CIA was partly associated with the metabolic disorders of linoleic acid,unsaturated fatty acids,and phenylalanine.Compared to control,treatment of LJZD significantly increased the levels of 4-hydroxytryptamine(Log2FC=12.0186),hexadecanoic acid(Log2FC=5.7412),linoleic acid(Log2FC=5.1877)and significantly decreased the levels of N-acetylmethionine(Log2FC=-1.7317),2-aminoethanesulfinic acid(Log2FC=-1.6578),N-acetyl-L-tyrosine(Log2FC=-1.5355).And comparing to the model group,4-hydroxytryptamine(Log2FC=12.0186),7,12-diketocholic acid(Log2FC=2.0998),N-acetylneuraminic acid(Log2FC=2.0560)markedly increased,and 3-hydroxy-3-methylpentane-1(Log2FC=-1.9202),5-dioic acid(Log2FC=-1.7166),N-isovaleroylglycine,hexanoyl glycine(Log2FC=-1.4958)markedly decreased in LJZD group.It was worth noting that,there were 23 differential metabolites filtrated both in control vs model and model vs LJZD groups,which were the key metabolites of LJZD in treating CIA.Among these 23 common metabolites,there were 16 metabolites excluding the control vs LJZD group,that was,LJZD had no effect in normal rats while being able to ameliorated cisplatin-induced metabolic disorders by regulating these 16 metabolites.Cisplatin-induced downregulation of 11 metabolites such as hydrocinnamic acid,(±)12(13)epoxy-9Z-octadecenoic acid,cinnamic acid were upregulated after LJZD treatment,and cisplatin-induced upregulation of imidazoleacetic acid,2′-deoxycytidine-5′-monophosphate and other 5 metabolites were downregulated by LJZD.The KEGG pathway analysis indicated that the linoleic acid metabolism,histidine metabolism,and pyrimidine metabolism were the most enriched metabolic pathway.Thus,cisplatin-induced metabolic disturbances mainly by disturbing linoleic acid metabolism,histidine metabolism,and pyrimidine metabolism,and LJZD interacted with these metabolic pathways to reduce metabolic disorders and thus ameliorated CIA.CONCLUSION Cisplatin-induced anorexia was closely related to the metabolic disorders of linoleic acid metabolism,biosynthesis of unsaturated fatty acids,and phenylalanine metabolism.The mechanism of LJZD in ameliorating CIA was in concerned with the metabolic adjustments,relating to the regulation of linoleic acid metabolism,histidine metabolism,and pyrimidine metabolism.