Characteristics of Deposition of Inosine Monophosphate(IMP) and Intramuscular Fat(IMF) in Muscles of Jinghai Yellow Chicken and Its Crossbreeds

[Objective] This study aimed to investigate the characteristics of deposition of inosine monophosphate （IMP） and intramuscular fat （IMF） in muscles of Jinghai yellow chickens and its crossbred.[Method] The characteristics of IMP and IMF deposition of 112-day-old Jinghai yellow chickens （J×J） and its two different 70-day- old crossbreeds （J×B and B×B） were analyzed. The IMP content in breast muscle and leg muscle were determined by HPLC. [Result] The contents of IMP and cor- rected inosine monophosphate （IMPc） in breast muscle were significantly or ex- tremely significantly higher than that in leg muscle of the chickens in the three groups whether in male or female chickens （P〈0.05 or P〈0.01）. There were no sig- nificant difference in the contents of IMP and IMPc between hens and roosters （P〉 0.05）. The fresh degree of breast muscle and leg muscle was 96,11%-98.16% and 87.22%-93.07%, respectively. And the fresh degree of breast muscle was higher than that of leg muscle. In the three groups, the IMF content in leg muscle was significantly higher than that in breast muscle whether in male or female chickens （P〈0.05）. The contents of IMF in breast muscle and leg muscle were 0.36%-0.75% and 1.84%-2.38%, respectively. The iMP content in breast muscle of chickens in Bx J group was extremely significantly higher than that in breast muscle of chickens in JxJ group （P〈0.01）, but the contents of IMPc and iMF of breast muscle and leg muscle of the chickens in the three groups had no significant difference （P〉0.05）. [Conclusion] To sum up, the freshness and flavor significantly differ between the breast muscle and leg muscle of chickens, but show no significant difference among the three groups.

Pre-treatment role of inosine triphosphate pyrophosphatase polymorphism for predicting anemia in Egyptian hepatitis C virus patients

AIM: To investigate and clarify, for the first time, the role of inosine triphosphate pyrophosphatase (ITPA ) polymorphism in Egyptian chronic hepatitis C virus (HCV) patients.METHODS:The human genomic DNA of all patients was extracted from peripheral blood cells in order to determine the single nucleotide polymorphism (SNP) of ITPA (rs1127354). SNP genotyping was performed by real time polymerase chain reaction (PCR, ABI TaqMan allelic discrimination kit) for 102 treatment-naive Egyptian patients with chronic HCV. All patients had no evidence of cardiovascular or renal diseases. They received a combination treatment of pegylated interferon α (PEG-IFNα) as a weekly subcutaneous dose plus an oral weight-adjusted dose of ribavirin (RBV). The majority received PEG-IFNα2a (70.6%) while 29.4% received PEG-IFNα2b. The planned duration of treatment was 24-48 wk according to the viral kinetics throughout the course of treatment. Pre-treatment liver biopsy was done for each patient for evaluation of fibrosis stage and liver disease activity. The basal viral load level was detected quantitatively by real time PCR while viral load throughout the treatment course was performed qualitatively by COBAS TaqMan assay. RESULTS: Ninety-three patients (91.2%) had ITPA SNP CC genotype and 9 (8.8%) had non-CC genotype (CA and AA). The percentage of hemoglobin (Hb) decline was higher for CC patients than for non-CC patients, particularly at weeks 4 and 8 (P=0.047 and 0.034, respectively). During the first 12 wk of treatment, CC patients had significantly more Hb decline > 3 g/dL than non-CC patients: 64.5% vs 22.2% at weeks 8 and 12, respectively, (P=0.024 and 0.038). Reduction of the amount of the planned RBV dose was significantly higher for CC patients than non-CC patients during the first 12 wk (18% ± 12.1% vs 8.5% ± 10.2%, P=0.021). The percentage of CC patients with RBV dose reduction was significantly greater than that of non-CC patients (77.4% vs 44.4%, P=0.044). Multivariate analysis identified only the percentage of RBV dose as a predictor for Hb decline. Platelet decline was significantly higher in non-CC patients than CC patients at weeks 12, 24 and 48 (P=0.018, 0.009 and 0.026, respectively). CONCLUSION: Rs1127354 ITPA polymorphism plays a decisive role in protecting against treatment-induced anemia and the need for RBV dose reduction in Egyptian HCV patients.

ADSL, AMPD1, and ATIC Expression Levels in Muscle and Their Correlations with Muscle Inosine Monophosphate Content in Dapulian and Hybridized Pig Species

We investigated the relationship between muscle inosine monophosphate (IMP) content and mRNA levels of ADSL, AMPD1, and ATIC in Dapulian (DPL), Landrace × Dapulian (LDPL), and Duroc × Landrace × Dapulian (DLDPL) hybridized pigs. Methods: The total RNA in longissimus dorsi was isolated from Dapulian (DPL), Landrace × Dapulian (LDPL) and Duroc × Landrace × Dapulian (DLDPL) hybridized pigs, weighed about 95.0 kg, n = 8/species. The internal genes with highest stability (YWHAZ and RPL4) were chosen from 11 common internal genes using Quantitative real-time PCR (qPCR) and geNorm software. The mRNA levels of ADSL, AMPD1 and ATIC genes were corrected with YWHAZ and RPL4 genes. The muscular IMP content was determined by HPLC. The muscular IMP content in DPL was higher than that in LDPL and DLDPL, 25.00% (p 0.05) and 15.56% (p > 0.05), respectively. The muscular mRNA level of ADSL gene in DPL and LDPL was higher than that in DLDPL, 24.14% and 12.07%, respectively (p 0.05). The muscular mRNA level of ATIC gene in DPL and LDPL was higher than that in DLDPL, 66.67% and 33.33%, respectively (p 0.05). The muscular mRNA level of AMPD1 gene in DPL and LDPL was higher than that in DLDPL, 14.49% and 33.26%, respectively. Furthermore, the IMP content was positively correlated with the mRNA level of ADSL, AMPD1 and ATIC genes, respectively (p 0.05). The mRNA level of ADSL gene was highly related to that of AMPD1 and ATIC gene, respectively (p 0.01), while that of AMPD1 gene was not strongly correlated with that of ATIC gene (p > 0.05). The muscular mRNA level of AMPD1, ADSL and ATIC genes and the muscular IMP content in DPL were highest, followed by those in LDPL and DLDPL. The muscular IMP content was positively correlated with the muscular mRNA level of ADSL, AMPD1 and ATIC genes, respectively.

CHEMICAL CONVERSION OF INOSINE INTO 6-(2-METHYL PHENOXY)-PURLNENUCLEOSIDE DERIVATIVES

A 6-pyridinium salt(2)was obtalned from 2',3',5'-tri-O-acetyhnosine by use of phosphoryl chloride as the condensmg agent.The conversion of salt(2)into 6-(2- methylphenoxy)-purinenucleoside(3)denvatives under mild condition is also described.

Deposition Pattern of Inosine Monophosphate( IMP) in Pig Muscle during Cold Storage

[ Objective] The paper was to investigate the degradation and deposition changes of inosine monophosphate （IMP） and its metabolites in muscle of lean pigs and crossbreeding pigs under cold storage condition at 4℃. [ Method] The contents of IMP and its metabolites in longissimus dorsi of lean pigs and crossbreeding pigs were determined by HPLC method. [ Result] Duroc, Landrace, Yorkshire and DLY pigs shared the same degradation and deposition pattern on IMP, inosine and hypoxanthine. On the second day of cold storage, the content of IMP reached the maximum value, which increased by 0.4% - 15.32% compared with the first day, and then it started to decline. On the fourth day of cold storage, the content of IMP significantly reduced by 23.81% - 39.06% than that on the second day. On the fifth and sixth day of cold storage, the content of IMP kept on falling down slowly and maintained around 1.0 mg/g. While the contents of inosine and hypoxanthine showed an increasing tendency with the extension of cold storage time. [ Conclusion ] Lean pigs Duroc, Landraee and Yorkshire and DLY three- way crossbreeding pigs shared the same degradation and deposition pattern on IMP and its metabolites. With the extension of cold storage, the content of IMP first increased then gradually decreased; while inosine and hypoxanthine gradually increased, and the difference among breeds was not significant.

Highly-sensitive electrochemiluminescence biosensor for detection of inosine monophosphate in meat based on graphdiyne/AuNPs/luminol nanocomposites

Inosine monophosphate(IMP),as a critical umami substance,is one of the most important indicators for evaluating the quality of meat products.Here,a sensitive electrochemiluminescence(ECL)biosensor based on graphdiyne(GDY)/AuNPs/luminol nanocomposites was constructed to detect IMP.The GDY/AuNPs/luminol nanocomposites were synthesized by using simple one-pot method.GDY utilized its 2D framework to disperse and fix gold nanoparticles,which inhibited the agglomeration of gold nanoparticles and greatly improved its stability and catalytic properties.Importantly,GDY/AuNPs/luminol nanocomposites showed excellent catalytic ability and superior ECL activity towards luminol-H_(2)O_(2) systems due to the synergistic effect of GDY and AuNPs.Under optimal conditions,the prepared biosensor exhibited a wide linear range from 0.01 g/L to 20 g/L,a satisfactory limit detection of 0.0013 g/L,as well as an excellent specificity.Moreover,we carried out the precise analysis of IMP in actual meat samples with acceptable results compared to the liquid chromatography.We believe that this work could offer an efficient ECL platform for accurate and reliable report of IMP levels,which is significant for maintaining food quality and safety.

Inosine inhibits apoptosis and cytochrome C mRNA expression in rat neurons after cerebral ischemia/reperfusion

BACKGROUND: It has been demonstrated that adenosine can induce glial cell to release cytochrome C, enhance expression of apoptotic gene bax, inhibit anti-apoptotic gene bcl-2, and activate caspase-3 to apoptosis; Whereas inosine can inhibit neuronal apoptosis which is similar to bcl-2. OBJECTIVE: To observe the effects of inosine on neuronal apoptosis and expression of cytochrome C mRNA in rats after focal cerebral ischemia/reperfusion, and analyze the pathway of its neuroprotective effect. DESIGN: A randomised controlled animal trial. SETTINGS: Department of Neurology, Rongcheng Second People's Hospital; Department of Neurology, Affiliated Union Hospital, Tongji Medical College, Huazhong University of Science and Technology. MATERIALS: Sixty-eight rats, weighing 230-280 g and clean grade, were used. TdT-mediated dUTP-biotin nick end labeling (TUNEL) and cytochrome C mRNA in situ hybridization kits and DAB staining kit were purchased from Wuhan Boster Biological Co., Ltd.; Inosine injection [200 mg (2 mL) each] from Qingdao First Pharmaceutical Factory. METHODS: The experiment was accomplished in the animal experimental center in Tongji Medical College of Huazhong University of Science and Technology from December 2003 to June 2005. ① Sixty-four rats were made into focal ischemia by middle cerebral artery occlusion (MCAO) with a nylon monofilament suture. The successfully induced rats were assigned to inosine group (n =32) and model group (n =32) at random. Rats in the inosine group were intraperitoneally administrated with inosine in dose of 100 mg/kg preoperatively, twice a day, 7 days in all. The rats in the control group were injected with the same dose of saline solution by the similar way preoperatively. Each group was randomized into ischemia /reperfusion 2, 6, 12, 24 hours, 2, 3, 7 and 14 days subgroups consisted of 4 rats. The other 4 rats were taken as the sham-operated group, the rats were given the same treatment except for not introduced the filament into the external carotid artery stump, and brain tissue was removed at 2 hours of reperfusion. ② In situ hybridization was performed to examine the expression of cytochrome C mRNA while TUNEL staining was made to characterize apoptosis. ③ The t test was used to compare the difference of measurement data. MAIN OUTCOME MEASURES: ① Neuronal apoptosis in the different regions of the ischemic brain tissue; ② Expression of cytochrome C mRNA in the different regions at different time points after MCAO. RESULTS: All the 68 rats were involved in the analysis of results. ① Neuronal apoptosis: A small number of TUNEL-positive cells were detected in the sham-operated brain and non-ischemic brain. The number of apoptotic cells in the ischemic cortex peaked at 24 hours of reperfusion [(72.00±1.98) cells] and that in the striatum peaked at 2 days [(94.75±3.57) cells], then decreased to the level of sham-operated group at 14 days. Inosine could reduce apoptotic cells from 12 hours to 7 days of reperfusion as compared with the model group (t =6.19-26.67, P < 0.01). ② Cytochrome C mRNA expression: There was weak expression of cytochrome C mRNA in both sham-operated brain and contralateral brain. Cytochrome C was detected at 2 hours of reperfusion in ischemic brain [(25.75±3.50), (39.75±2.49) cells], and strongly increased to a peak at 12 hours and 24 hours of reperfusion in cortex and striatum [(122.50±6.69), (119.25±5.12) cells], respectively. Furthermore, inosine could significantly decrease cytochrome C expression in cortex at 12 hours to 14 days of reperfusion after ischemic reperfusion and that in striatum at 12 hours to 3 days (t =8.67-43.26, P < 0.01). CONCLUSION: Inosine can exert a neuroprotective effect by inhibiting apoptosis and cytochrome C mRNA expression.

STUDIES ON INOSINE EXTRACTION BY ION EXCHANGE METHOD

The adsorption characteristics of inosine from fermentation solution on anion exchange resin under the condition of different PH, resin type are investigated. Besides 3 the desorption conditions are studied under different temperature.The adsorption and desorption mechanism are described to obtain the optimumtechnological condition of inosine extraction.

Sensitive determination of inosine RNA modification in single cell by chemical derivatization coupled with mass spectrometry analysis

Inosine is a vital RNA modification across three kingdoms of life.It has been demonstrated that inosine plays important roles in modulation of the fate of RNAs.In the current study,we developed a highly sensitive method to determine inosine in a single cell by N-cyclohexyl-N’-β-(4-methylmorpholinium)ethylcarbodiimide p-toluenesulfonate(CMCT)derivatization in combination with mass spectrometry analysis.The results showed that the detection sensitivity of inosine was increased by 556-fold after CMCT derivatization,with the limit of detection(LOD)being 4.5 amol.With the established method,we could detect inosine from 13.0 pg of total RNA of HEK293T cells.Meanwhile,inosine in RNA from a single cell could also be clearly detected due to the improved detection sensitivity.Moreover,we found the level of inosine in RNA of sleep-deprived mice was significantly increased compared to the control mice,indicating that inosine is associated with sleep behavior and might be a potential indicator of sleep disorder.Taken together,the chemical derivatization coupled with mass spectrometry analysis offers a valuable tool in determination of endogenous RNA modifications in a single cell,which should benefit the functional study of RNA modification in rare clinical samples.

6-Thioguanine incorporates into RNA and induces adenosine-to-inosine editing in acute lymphoblastic leukemia cells

6-Thioguanine(6TG)is a widely used chemotherapeutic agent for the treatment of a variety of human diseases including acute lymphoblastic leukemia.After entry into cells,6TG is metabolically converted into 6-thioguanosine(^(S)G)nucleotide that can be incorporated into the genome during DNA replication.^(S)G in genomic DNA could induce cell death by triggering the post-replicative mismatch repair(MMR)pathway.Meanwhile,incorporation of 6TG into the Cp G sites could perturb the global DNA methylation and gene regulation.However,the effect of 6TG on RNA modifications is still unknown.Adenosine-toinosine(A-to-I)editing in RNA is one of the most common post-transcriptional modifications in mammals and there is growing evidence showing the significant alteration of A-to-I RNA editing in tumor tissues compared to normal tissues.In the current study,we examined the incorporation of 6TG into RNA and investigated its effect on A-to-I editing of bladder cancer-associated protein(BLCAP)transcript in acute lymphoblastic leukemia cells.The results demonstrated that ^(S)G could be incorporated into various RNA species,with m RNA having the most abundant ^(S)G.In addition,the results showed 6TG treatment elevated A-to-I editing in BLCAP transcript through upregulating adenosine deaminase 2 acting on RNA(ADAR2),which eventually contributes to the decreased cell viability.This study highlights a new mechanism of the cytotoxicity of 6TG in inducing cell death.

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Role of genetic polymorphisms in hepatitis C virus chronic infection

AIM: To analyze the host genetics factors influencing the clinical course and the response to antiviral treatment in patients with chronic hepatitis C(CHC).METHODS: We conducted an electronic search on the Pub Med and MEDLINE(2000-2014) databases and Cochrane library(2000-2014). A total of 73 articles were retrieved and their data were extensively evaluated and discussed by the authors and then analyzed in this review article.RESULTS: Several studies associated polymorphisms in the interleukin 28 B gene on chromosome 19(19q13.13) with a spontaneous viral clearance in acute hepatitis C and with the response to pegylated interferon(PegIFN)-based treatment in chronic hepatitis C patients. Other investigations demonstrated that inosine triphosphate pyrophosphatase genetic variants protect hepatitis C virus-genotype-1 CHC patients from ribavirin-induced anemia, and other studies that a polymorphism in the patatin-like phospholipase domain-containing protein 3 was associated with hepatic steatosis in CHC patients. Although not conclusive, some investigations suggested that the vitamin D-associated polymorphisms play an important role in the achievement of sustained virologic response in CHC patients treated with Peg-IFN-based antiviral therapy. Several other polymorphisms have been investigated to ascertain their possible impact on the natural history and on the response to treatment in patients with CHC, but the data are preliminary and warrant confirmation. CONCLUSION: Several genetic polymorphisms seem to influence the clinical course and the response to antiviral treatment in patients with CHC, suggesting individualized follow up and treatment strategies.

Epitranscriptomics of cancer

The functional impact of modifications of cellular RNAs,including m RNAs,mi RNAs and lnc RNAs,is a field of intense study.The role of such modifications in cancer has started to be elucidated.Diverse and sometimes opposite effects of RNA modifications have been reported.Some RNA modifications promote,while ot-hers decrease the growth and invasiveness of cancer.The present manuscript reviews the current knowledge on the potential impacts of N6-Methyladenosine,Pse-udouridine,Inosine,2’O-methylation or methylcytidine in cancer’s RNA.It also highlights the remaining qu-estions and provides hints on research avenues and potential therapeutic applications,whereby modulating dynamic RNA modifications may be a new method to treat cancer.

Individualization of chronic hepatitis C treatment according to the host characteristics

Hepatitis C virus(HCV)infection is a global health problem that affects more than 170 million people worldwide.It is a major cause of cirrhosis and hepatocellular carcinoma,making the virus the most common cause of liver failure and transplantation.The standardof-care treatment for chronic hepatitis C(CHC)has been changed during the last decade and direct acting antiviral drugs have already been used.Besides,understanding of the pathogenesis of CHC has evolved rapidly during the last years and now several host factors are known to affect the natural history and response to treatment.Recent genome-wide association studies have shown the important role of interleukin-28B and inosine triphosphatase in HCV infection.The present review article attempts to summarize the current knowledge on the role of host factors towards individualization of HCV treatment.

Ameliorative effect of Lacticaseibacillus rhamnosus Fmb14 from Chinese yogurt on hyperuricemia

Hyperuricemia is a critical threat to human health,and a high inosine diet can increase the prevalence of it.Lacticaseibacillus rhamnosus Fmb14 was isolated from traditional fermented Chinese yogurt,and its inosine degradation rate reached 36.3%at 109 CFU/mL for 24 h.LC-MS analysis revealed that high concentrations of inosine could activate compensatory metabolic pathways of L.rhamnosus Fmb14 to catalyse inosine as an energy source and produce intracellular folic acid and riboflavin.The contents of folic acid and riboflavin were 6.0 and 4.3 fold increased after inosine treatment in the cell-free extracts(CFE).L.rhamnosus Fmb14 CFE treatment ameliorates hyperuricemia through xanthine oxidase(XOD)inhibition and ATP-binding cassette subfamily G member 2(ABCG2)promotion,both of which are responsible for uric acid(UA)synthesis and secretion in HepG2 and Caco2 cells,respectively.The in vivo results showed that the serum UA level decreased from 236.28 to 149.28μmol/L after 8 weeks of oral administration of L.rhamnosus Fmb14 in inosine-induced hyperuricemia model mice.Our results revealed that L.rhamnosus Fmb14 has a potential as a biological therapeutic agent in hyperuricemia prevention.

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Association of ITPA polymorphism with outcomes of peginterferon-α plus ribavirin combination therapy

AIM:To analyzed the association between inosine triphosphatase(ITPA)(rs1127354) genotypes and sustained virological response(SVR) rates in peginterferon(Peg-IFN)α + ribavirin(RBV) treatment.METHODS:Patients who underwent Peg-IFNα + RBV combination therapy were enrolled(n = 120) and they had no history of other IFN-based treatments.Variation in hemoglobin levels during therapy,cumulative reduction of RBV dose,frequency of treatment withdrawal,and SVR rates were investigated in each ITPA genotype.RESULTS:In patients with ITPA CC genotype,hemoglobin decline was significantly greater and the percentage of patients in whom total RBV dose was < 60% of standard and/or treatment was withdrawn was significantly higher compared with CA/AA genotype.However,SVR rates were equivalent between CC and CA/AA genotypes,and within a subset of patients with Interleukin 28B(IL28B)(rs8099917) TT genotype,SVR rates tended to be higher in patients with ITPA CC genotype,although the difference was not significant.CONCLUSION:ITPA CC genotype was a disadvantageous factor for Peg-IFNα + RBV treatment in relation to completion rates and RBV dose.However,CC genotype was not inferior to CA/AA genotype for SVR rates.When full-length treatment is accomplished,it is plausible that more SVR is achieved in patients with ITPA CC variant,especially in a background of IL28B TT genotype.

Effect of Cooking Methods on the Chemical Compounds Associated with Umami Taste in Duck Breast Meat

Dry-curing,wet-curing,stewing and marinating are sequential Chinese traditional meat-processing methods dating back thousands of years ago.However,little information is available about the contribution of each processing stage to the umami taste in duck breast meat.Therefore,effects of those meat-processing methods on umami taste related chemical compounds were determined in this study.Dry-curing significantly increased free amino acids,oligopeptides and nucleotides and nucleotides degradation products(P<0.05),however,in the following wet-curing,stewing and marinating stages,the percentages of inosine and hypoxanthine were gradually declined.Electronic tongue and principle component analysis results revealed the difference between dry-cured/wet-cured duck breast meat and marinated/stewed duck breast meat was due to the increase of free amino acids,oligopeptides and inosine monophosphate.Therefore,dry-curing is an important stage in meat processing,not only it produces a pool of taste related compounds,it also stimulates the enzyme activities in the muscle.Meanwhile,in the stewing stage,the umami taste profile of duck breast meat was gradually established.We can conclude that dry-curing and stewing are the two crucial stages to form the umami taste profile in duck breast meat.