Objective To analyze differences in the intestinal microbiota and transcriptomics between N-methyl-N'-nitro-N-nitrosoguanidine(MNNG)gastric cancer rats and normal rats and to analyze the correlation between the two,so as to provide a reference for related studies using MNNG gastric cancer rats as a model.Methods A total of 12 Wistar rats were randomly divided into normal(NM)and gastric cancer(GC)groups.The GC group was given a concentration of 20 mg/mL of MNNG by gavage with a dose of 100 g/mL once a day,and the NM group was given the same amount of normal saline by gavage.Samples were collected for testing after 16 weeks of continuous intervention.The gastric tissues were collected and stained by HE staining to observe morphological changes in the gastric mucosa of the two groups,and the expression levels of differential genes were detected by transcriptome sequencing.The cecal contents were collected for 16S rRNA sequencing.Results(1)Visual observation and HE results showed that the volume of gastric mucosa in the NM group was normal,the surface was glossy,the gastric wall was elastic,the direction of the mucosal folds was regular,there were no hyperplasia or hemorrhagic spots.In the GC group,the volume of gastric mucosa was reduced,the gastric wall was thinned,elasticity was poor,the direction of the folds was disordered and irregular,and there was a bulge accompanied by yellow-black keratotic hyperplasia.In the NM group,the squamous epithelial layer,submucosa,and muscular layer of the gastric mucosa were clear,with no hyperplasia and keratinization.In the GC group,the gastric mucosa had disorganized layers and cell polarity,with different cell morphologies;the squamous epithelial layer was destroyed,and squamous epithelial cells were hyperplasic,keratinized,and had invaded the muscular layer by proliferation.The modeling was considered successful.(2)The results of intestinal microbiota sequencing showed that the abundance of Akkermansia and Lactobacillus in MNNG gastric cancer rats decreased significantly,and the abundance of the rumen coccaceae Prevonella,and Blauter increased significantly.(3)The three key pathways obtained by transcriptomic sequencing and KEGG pathway enrichment analysis were amebiasis,systemic lupus erythematosus,and the PI3K-Akt signaling pathway,and five genes differentially enriched in these three pathways were those for MCPT8I2,IGH-6,IGHG1,ACTN2,and VEGF-D.(4)Combined analysis of intestinal microbiota and transcriptomics showed that_UCG-005,Prevonella_UCG-003 and Brautella were positively correlated with amebiasis,systemic lupus erythematosus,and the PI3K-Akt signaling pathway.Conclusions The abundance of intestinal microbiota in gastric cancer rats formed by MNNG gavage is different from that of normal rats.The genes for MCPT8I2,IGH-6,IGHG1,ACTN2 and VEGF-D may be up-regulated in gastric cancer induced by MNNG gavage.Combined analysis of intestinal microbiota and differential genes suggested that the mechanism of MNNG carcinogenesis may be mainly related to the destruction of gastric mucosa and the inflammatory response.

Objective To analyze differences in the intestinal microbiota and transcriptomics between N-methyl-N'-nitro-N-nitrosoguanidine(MNNG)gastric cancer rats and normal rats and to analyze the correlation between the two,so as to provide a reference for related studies using MNNG gastric cancer rats as a model.Methods A total of 12 Wistar rats were randomly divided into normal(NM)and gastric cancer(GC)groups.The GC group was given a concentration of 20 mg/mL of MNNG by gavage with a dose of 100 g/mL once a day,and the NM group was given the same amount of normal saline by gavage.Samples were collected for testing after 16 weeks of continuous intervention.The gastric tissues were collected and stained by HE staining to observe morphological changes in the gastric mucosa of the two groups,and the expression levels of differential genes were detected by transcriptome sequencing.The cecal contents were collected for 16S rRNA sequencing.Results(1)Visual observation and HE results showed that the volume of gastric mucosa in the NM group was normal,the surface was glossy,the gastric wall was elastic,the direction of the mucosal folds was regular,there were no hyperplasia or hemorrhagic spots.In the GC group,the volume of gastric mucosa was reduced,the gastric wall was thinned,elasticity was poor,the direction of the folds was disordered and irregular,and there was a bulge accompanied by yellow-black keratotic hyperplasia.In the NM group,the squamous epithelial layer,submucosa,and muscular layer of the gastric mucosa were clear,with no hyperplasia and keratinization.In the GC group,the gastric mucosa had disorganized layers and cell polarity,with different cell morphologies;the squamous epithelial layer was destroyed,and squamous epithelial cells were hyperplasic,keratinized,and had invaded the muscular layer by proliferation.The modeling was considered successful.(2)The results of intestinal microbiota sequencing showed that the abundance of Akkermansia and Lactobacillus in MNNG gastric cancer rats decreased significantly,and the abundance of the rumen coccaceae Prevonella,and Blauter increased significantly.(3)The three key pathways obtained by transcriptomic sequencing and KEGG pathway enrichment analysis were amebiasis,systemic lupus erythematosus,and the PI3K-Akt signaling pathway,and five genes differentially enriched in these three pathways were those for MCPT8I2,IGH-6,IGHG1,ACTN2,and VEGF-D.(4)Combined analysis of intestinal microbiota and transcriptomics showed that_UCG-005,Prevonella_UCG-003 and Brautella were positively correlated with amebiasis,systemic lupus erythematosus,and the PI3K-Akt signaling pathway.Conclusions The abundance of intestinal microbiota in gastric cancer rats formed by MNNG gavage is different from that of normal rats.The genes for MCPT8I2,IGH-6,IGHG1,ACTN2 and VEGF-D may be up-regulated in gastric cancer induced by MNNG gavage.Combined analysis of intestinal microbiota and differential genes suggested that the mechanism of MNNG carcinogenesis may be mainly related to the destruction of gastric mucosa and the inflammatory response.

Radiotherapy uses high-energy X-rays or other particles to destroy cancer cells and medical practitioners have used this approach extensively for cancer treatment (Hachadorian et al., 2020). However, it is accompanied by risks because it seriously harms normal cells while killing cancer cells. The side effects can lower cancer patients' quality of life and are very unpredictable due to individual differences (Bentzen, 2006). Therefore, it is essential to assess a patient's body damage after radiotherapy to formulate an individualized recovery treatment plan. Exhaled volatile organic compounds (VOCs) can be changed by radiotherapy and thus used for medical diagnosis (Vaks et al., 2012). During treatment, high-energy X-rays can induce apoptosis; meanwhile, cell membranes are damaged due to lipid peroxidation, converting unsaturated fatty acids into volatile metabolites (Losada-Barreiro and Bravo-Díaz, 2017). At the same time, radiotherapy oxidizes water, resulting in reactive oxygen species (ROS) that can increase the epithelial permeability of pulmonary alveoli, enabling the respiratory system to exhale volatile metabolites (Davidovich et al., 2013; Popa et al., 2020). These exhaled VOCs can be used to monitor body damage caused by radiotherapy.
Breath Tests/methods* ; Exhalation ; Humans ; Quality of Life ; Respiratory System/chemistry* ; Volatile Organic Compounds/analysis*

Rutin-degrading enzymes (RDE) can degrade rutin into poorly water soluble compound, quercetin, and cause the bitter taste in tartary buckwheat. In the present study RDE from Yu 6-21 tartary buckwheat seeds was purified by ammonium sulphate precipitation, followed by hydrophobic interaction chromatography on Phenyl Sepharose CL-4B, ion exchange chromatography on CM-Cellulose and gel filtration chromatography on Sephadex G-150. Purified RDE showed single band with molecular weight of 66 kDa on SDS-PAGE. The optimum pH and temperature of RDE were 5.0 and 50 ℃ respectively. The Km was 0.27 mmol/L, and the Vmax was 39.68 U/mg. The RDE activity could be inhibited by Cu²⁺, Zn²⁺, Mn²⁺ and EDTA, and showed tolerance to 50% methanol (V/V). The N terminal sequence (TVSRSSFPDGFLFGL) was obtained by Edman degradation method and 15 internal peptide sequences were determined by MALDI-TOF-MS (matrix-assisted laser desorption ionization time of flight mass spectrometry). These results established the foundations for identification of the candidate gene of RDE via transcriptome data and further studying RDE biological function.

Objective To compare the antibody persistence 5 years after primary immunization with 5 μg and 10 μg recombinant hepatitis B vaccine (HepB) among newborns with normal and high response.Methods Newborns who completed three doses of 5 μ g HepB made by recombinant dexyribonucleic acid technique in Saccharomyces (HepB-SC) or 10 μg HepB made by recombinant dexyribonucleic acid technique in Hansenula polymorpha (HepB-HP) were recruited.Standardized questionnaire was used and blood samples were collected 1-6 months (T0) and five years (T1) after the third dose respectively.The titer of anti-HBs was detected by chemiluminescence microparticle imunoassay (CMIA).Those who achieved normal or high antibody response (anti-HBs titer ≥100 mIU/ml) were included in the study and the positive rate (≥ 10 mIU/ml) and titer of anti-HBs at T1 were compared between 5 μg HepB group and 10 μg HepB group.Multivariable analysis was conducted to identify the independent factors associated with the antibody persistence.Results The positive rate of anti-HBs at T1 was 49.92％ (943/1 883) and 75.92％ (1 135/1 495) respectively in 5 μg HepB group and 10 μg HepB group,the difference was significant (x2=237.75,P＜0.001).The anti-IBs geometric mean concentrations at T1 were 10.23 mIU/ml (95％CI:9.38-11.16) and 28.91 mIU/ml (95％CI:26.65-31.35) in the two groups respectively,the difference was also significant (F=280.36,P＜0.001).Among those whose anti-HBs titer was ＜ 10 mIU/ml at T1,the distributions of anti-HBs titer were significantly different between 5 μg HepB group and 10 μg HepB group (x2=39.75,P＜ 0.001).The multivariable analysis showed that dosage of HepB was independently associated with both positive rate and titer of anti-HBs at T1 after excluding the other factors [P＜0.001,OR=1.44(95％ CI:1.20-1.73);P＜0.001,β =0.27 (95％ CI:0.14-0.40)].Conclusion Five year anti-HBs persistence after primary immunization with 10 μg HepB might be better than that after primary immunization with 5 μg HepB among infants who achieved normal or high anti-HBs response after primary HepB immunization.

BACKGROUND:In the initial stage of ischemia,organisms complete angiogenesis and maintain the blood supply of organization through compensatory regulation and repair,in which process a variety of cytokines,especially vascular endothelial growth factor (VEGF),have played a key role.OBJECTIVE:To observe the characteristics and rules of VEGF level changes in both ischemic tissues and blood serums at different time points after establishing rat models of lower limb ischemia.DESIGN,TIME AND SETTING:A randomized controlled animal experiment was performed at the Loboratory for Key Subjects in Dongzhimen Hospital and the Laboratory of Molecular Biology in Beijing University of Chinese Medicine from April to November in 2007.MATERIALS:A total of 42 male SD rats of 4 weeks were divided by random digits table into 6 groups,namely a control group and a model group which was subdivided into 5 groups at the time points of hour 4,day 3,weeks 1,2 and 4 post modeling respectivly.METHODS:Rat models of lower limb ischemia were established in the model group by performing ligation and mutilation operation to left femoral arteries of rats that were anesthetized with 100 g/L chloral hydrate. At the time points of hour 4,day 3,weeks 1,2 and 4 following modeling respectively,rats were selected to extract their abdominal aorta blood samples whose supernatant was then obtained through 10 minutes of 3 000r/min centrifugalization. Gastrocnemius tissues in left legs of rats were isolated at the same time. Samples in control group were obtained directly from anesthetized rats.MAIN OUTCOME MEASURES:Western blotting method was used for detecting protein expression of VEGF in ischemic tissues and ELASA method for VEGF level in serum.RESULTS:The protein expression of VEGF in ischemic tissues began to increase immediately at hour 4 following ischemia and reached a peak at day 3,after which it reduced gradually till week 2 when it reached its minimum. Then it began to increase again and reached the level close to that of normal tissues by the end of week 4 following ischemia. As for the VEGF level in serum,it decreased immediately after ischemia,with the maximum decrease amplitude between immediate and hour 4 following ischemia,a smaller one between hour 4 and week 1;From week 1 following ischemia on,it began to increase but was still lower than the normal level by the end of week 4 (P＜0.01 ).The VEGF level in serum changed with the tendency of immediate decrease from hour 4,minimum at week 1 and graduate increase after week 1 following ischemia.CONCLUSION:After ischemia in lower limb,VEGF level in ischemic tissues changes in the direction of increase-decrease-increase;VEGF level in serum changed in the direction of decrease-increase. In another words,VEGF levels after ischemia shows the characteristics of being low in serum and high in local ischemic tissues.