• Title/Summary/Keyword: methionine synthase

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Methionine Synthase Reductase A66G Polymorphism is not Associated with Breast Cancer Susceptibility - a Meta-analysis

  • Hu, Shu;Liu, Hong-Chao;Xi, Shou-Ming
    • Asian Pacific Journal of Cancer Prevention
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    • v.15 no.7
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    • pp.3267-3271
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    • 2014
  • Background: Several studies have investigated the association between methionine synthase reductase (MTRR) A66G polymorphism and breast cancer risk, but controversial results were yielded. Therefore, we performed a meta-analysis to provide a more robust estimate of the effect of this polymorphism on susceptibility to breast cancer. Materials and Methods:Case-control studies investigating the relationship between MTRR A66G polymorphism and breast cancer risk were included by searching PubMed, EMBASE, China National Knowledge Infrastructure and Wanfang Database. Either fixed-effects or random-effects models were applied to calculate odds ratios(ORs) and 95% confidence intervals (CIs) by RevMan5.2 software. Results: A total of 9 studies bearing 7,097 cases and 7,710 controls were included in the meta-analysis. The results were that the combined ORs and 95%CIs of MTRR 66AG, GG, (AG+GG) genotypes were 0.98(0.91-1.05), 1.06(0.97-1.16) and 1.02(0.94-1.10), respectively with p=0.52, 0.19 and 0.65. We also performed subgroup analysis by specific ethnicity. The results of the combined analysis of MTRR 66AG, GG, (AG+GG) genotypes and breast cancer in Asian descent were Z=0.50, 0.53 and 0.21, with p all>0.05; for breast cancer in Caucasian descent, the results were Z=1.14, 1.65 and 0.43, with p all>0.05. Conclusions: Our findings suggested that MTRR A66G polymorphism was not associated with breast cancer susceptibility.

ⳑ-Methionine inhibits 4-hydroxy-2-nonenal accumulation and suppresses inflammation in growing rats

  • Zhengxuan, Wang;Mingcai, Liang;Hui, Li;Bingxiao, Liu;Lin, Yang
    • Nutrition Research and Practice
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    • v.16 no.6
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    • pp.729-744
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    • 2022
  • BACKGROUND/OBJECTIVES: 4-Hydroxy-2-nonenal (HNE) is a biomarker for oxidative stress to induce inflammation. Methionine is an essential sulfur-containing amino acid with antioxidative activity. On the other hand, the evidence on whether and how methionine can depress HNE-derived inflammation is lacking. In particular, the link between the regulation of the nuclear factor-κB (NF-κB) signaling pathway and methionine intake is unclear. This study examined the link between depression from HNE accumulation and the anti-inflammatory function of ⳑ-methionine in rats. MATERIALS/METHODS: Male Wistar rats (3-week-old, weighing 70-80 g) were administered different levels of ⳑ-methionine orally at 215.0, 268.8, 322.5, and 430.0 mg/kg body weight for two weeks. The control group was fed commercial pellets. The hepatic HNE contents and the protein expression and mRNA levels of the inflammatory mediators were measured. The interleukin-10 (IL-10) and glutathione S-transferase (GST) levels were also estimated. RESULTS: Compared to the control group, hepatic HNE levels were reduced significantly in all groups fed ⳑ-methionine, which were attributed to the stimulation of GST by ⳑ-methionine. With decreasing HNE levels, ⳑ-methionine inhibited the activation of NF-κB by up-regulating inhibitory κBα and depressing phosphoinositide 3 kinase/protein kinase B. The mRNA levels of the inflammatory mediators (cyclooxygenase-2, interleukin-1β, interleukin-6, inducible nitric oxide synthase, tumor necrotic factor alpha) were decreased significantly by ⳑ-methionine. In contrast, the protein expression of these inflammatory mediators was effectively down regulated by ⳑ-methionine. The anti-inflammatory action of ⳑ-methionine was also reflected by the up-regulation of IL-10. CONCLUSIONS: This study revealed a link between the inhibition of HNE accumulation and the depression of inflammation in growing rats, which was attributed to ⳑ-methionine availability. The anti-inflammatory mechanism exerted by ⳑ-methionine was to inhibit NF-κB activation and to up-regulate GST.

Folate-Related Nutrients, Genetic Polymorphisms, and Colorectal Cancer Risk: the Fukuoka Colorectal Cancer Study

  • Morita, Makiko;Yin, Guang;Yoshimitsu, Shin-Ichiro;Ohnaka, Keizo;Toyomura, Kengo;Kono, Suminori;Ueki, Takashi;Tanaka, Masao;Kakeji, Yoshihiro;Maehara, Yoshihiko;Okamura, Takeshi;Ikejiri, Koji;Futami, Kitaroh;Maekawa, Takafumi;Yasunami, Yohichi;Takenaka, Kenji;Ichimiya, Hitoshi;Terasaka, Reiji
    • Asian Pacific Journal of Cancer Prevention
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    • v.14 no.11
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    • pp.6249-6256
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    • 2013
  • One-carbon metabolism plays an important role in colorectal carcinogenesis. Meta-analyses have suggested protective associations of folate and vitamin $B_6$ intakes with colorectal cancer primarily based on studies in Caucasians, and genetic polymorphisms pertaining to the folate metabolism have been a matter of interest. Less investigated are the roles of methionine synthase (MTR) and thymidylate synthetase (TS) polymorphisms in colorectal carcinogenesis. In a study of 816 cases and 815 community controls in Japan, we investigated associations of dietary intakes of folate, methionine, vitamin $B_2$, vitamin $B_6$, and vitamin $B_{12}$ with colorectal cancer risk. The associations with MTR 2756A>G, MTRR 66A>G, and TSER repeat polymorphism were examined in 685 cases and 778 controls. Methionine and vitamin $B_{12}$ intakes were inversely associated with colorectal cancer risk, but the associations were totally confounded by dietary calcium and n-3 fatty acids. The other nutrients showed no association with the risk even without adjustment for calcium and n-3 fatty acids. The TSER 2R allele was dose-dependently associated with an increased risk. The MTR and MTRR polymorphisms were unrelated to colorectal cancer risk. There was no measurable gene-gene or gene-nutrient interaction, but increased risk associated with the TSER 2R allele seemed to be confined to individuals with high folate status. This study does not support protective associations for folate and vitamin $B_6$. The TSER 2R allele may confer an increased risk of colorectal cancer. The role of the TSER polymorphism in colorectal carcinogenesis may differ by ethnicity.

Investigation of the association of idiopathic male infertility with polymorphisms in the methionine synthase (MTR) gene

  • Tanoomand, Asghar;Hajibemani, Abolfazl;Abouhamzeh, Beheshteh
    • Clinical and Experimental Reproductive Medicine
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    • v.46 no.3
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    • pp.107-111
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    • 2019
  • Objective: Spermatogenesis is a complex process that is regulated by a number of genes, some of which are involved in folate-dependent 1-carbon metabolism. Methionine synthase (encoded by MTR) is a key enzyme participating in this pathway. This study aimed to investigate the relationship of the MTR 2756A > G polymorphism with idiopathic male fertility in the Iranian population. Methods: The participants of this study included 100 men with idiopathic infertility and 100 healthy men as the control group. Genotyping of MTR 2756A > G was performed using the polymerase chain reaction and restriction fragment length polymorphism technique. The obtained data were analyzed using SPSS ver. 20.0 with a level of confidence of p< 0.05. Results: The frequencies of the A and G alleles at this locus were 77% and 23% in infertile patients and 84% and 16% in the control group, respectively. The frequencies of the GG, GA, and AA genotypes were 5%, 36%, and 59% in the infertile patients versus 3%, 27%, and 70% in the control group, respectively. No significant difference was observed in any genetic models. Conclusion: In general, the findings of this study suggest that the MTR 2756A > G single-nucleotide polymorphism is not a predisposing factor for idiopathic infertility in men.

Regulation of Sulfur Metabolism in Cephalosporium acremonium (Cephalosporium acremonium에서 황화합물 대사의 조절)

  • Lee, Kyoung;Park, Sang-Ho;Lee, Jung-Joon;Mheen, Tae-Ick
    • Microbiology and Biotechnology Letters
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    • v.15 no.5
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    • pp.361-367
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    • 1987
  • A DL-seleno-methionine resistant mutant, Cephalosporium acremonium MS-92 showed increased activities of sulfate and L-methionine uptake than the parent strain, and accumulated excess methionine and S-adenosylmethionine (SAM) intracellularly. And the sulfate uptake system was severely inhibited by L-cysteine. In crude enzyme extracts, the mutant MS-92 showed lower L-serine sulfhydrylase (identical with cystathionine $\beta$-synthase) activity than the parent. Also, cysteine desulfhydrylase activity, an index of intracellular L-cysteine concentration, of the mutant MS-92 was decreased by about 50% as com-pared with that of the parent. Thus, it was supposed that the mutant MS-92 should have n lower level of L-cysteine than the parent. In C. acremonium like A. nidulans, the enzymes related to the biosynthesis of methionine might be regulated by L-cysteine, but not by methionine or SAM.

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Effects of Fasting on Hepatic Metabolism of Sulfur Amino Acids in Rats (절식이 랫트 간의 황함유 아미노산 대사에 미치는 영향)

  • Kim, Sang-Kyum
    • YAKHAK HOEJI
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    • v.53 no.2
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    • pp.74-77
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    • 2009
  • Food deprivation decreases hepatic glutathione (GSH) levels, which is ascribed to alterations in availability of hepatic cysteine, a rate limiting factor for the GSH synthesis. The present study examines the effects of food deprivation on hepatic metabolism of sulfur amino acid in male rats. In rats fasted for 24 or 48 hours, hepatic GSH levels were decreased from $6.70{\pm}0.16{\mu}mol/g$ liver to $4.02{\pm}0.20$ or $4.06{\pm}0.07{\mu}mol/g$ liver, respectively. Hepatic S-adenosylmethionine levels were also decreased in fasted rats, but S-adenosylhomocysteine levels were increased. Hepatic methionine levels were not changed by food deprivation for 48 hours. On the other hand, hepatic cysteine or taurine levels were increased from $106.2{\pm}4.1$ to $130.0{\pm}2.7$ nmol/g liver or from $2.45{\pm}0.43$ to $5.07{\pm}0.78{\mu}mol/g$ liver, respectively, in 48-hour fasted rats. Activity of cystathionine beta-synthase catalyzed homocysteine to cystathionine, was markedly decreased, but activity of betaine homocysteine methyltransferase was increased in fasted rats, indicating that methylation of homocysteine to methionine is activated. Also activity of cysteine dioxygenase, involved in taurine synthesis, was increased. These results suggested that hepatic methionine levels were maintained in rats fasted for 48 hours through increase in homocysteine methylation, and hepatic GSH may serve as a cysteine supplier reservoir in fasting state.

MTHFR 유전자의 돌연변이와 hyperhomocysteinemia에 의한 stroke

  • Lee, Beom-Hui;Kim, Gu-Hwan;Jeong, Chang-U;Lee, Jin;Choe, Jin-Ho;Yu, Han-Uk
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.11 no.1
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    • pp.103-105
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    • 2011
  • 고호모시스틴혈증(hyperhomocysteinemia)은 호모시스테인과 메티오닌의 대사과정에 관여하는 여러 효소들의 결핍에 의해 발생할 수 있으며, 대표적인 효소 결핍으로는 cysthathione beta-synthase (CBS) 결핍증, Methionine synthase (MS) 결핍증, methylenetetrahydrofolate reductase (MTHFR) 결핍증이 있다. 이들은 고호모시스테인혈증을 보이나 임상증상, 메티오닌의 동반 상승, 거대적아구성빈혈, 메칠말로닌산뇨증등의 동반 여부등을 토대로 감별진단에 도움을 받을 수 있다. 본 연자는 뇌혈전증과 뇌졸중을 동반하는 고호모시스테인혈증의 원인으로 MTHFR 유전자의 돌연변이를 발견한 증례를 경험하였기에 이를 보고하는 바이다.

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Endogenous Proteinaceous Inhibitor for Protein Methylation Reactions

  • Paik, Woon-Ki;Lee, Hyang-Woo;Kim, Sangduk
    • Archives of Pharmacal Research
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    • v.10 no.3
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    • pp.193-196
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    • 1987
  • Protein methylation occurs ubiquitously in nature and involves N-methylation of lysine, arginine, histidine, alanine, proline and glutamine, O-methylesterfication o dicarboxylic acids, and S-methylation of cysteine and methionine. In nature, methylated amino acids accur in highly specialized proteins such as histones, flagella proteins, myosin, actin, ribosomal proteins. hn RNA-bound protein, HMG-1 and HMG-2 protein, opsin, EF-Tu, EF-$1\alpha$, porcine heart citrate synthase, calmodulin, ferredoxin, $1\alpha$-amylase, heat shock protein, scleroderma antigen, nucleolar protein C23 and IF-3l.

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Age-Related Changes in Sulfur Amino Acid Metabolism in Male C57BL/6 Mice

  • Jeon, Jang Su;Oh, Jeong-Ja;Kwak, Hui Chan;Yun, Hwi-yeol;Kim, Hyoung Chin;Kim, Young-Mi;Oh, Soo Jin;Kim, Sang Kyum
    • Biomolecules & Therapeutics
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    • v.26 no.2
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    • pp.167-174
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    • 2018
  • Alterations in sulfur amino acid metabolism are associated with an increased risk of a number of common late-life diseases, which raises the possibility that metabolism of sulfur amino acids may change with age. The present study was conducted to understand the age-related changes in hepatic metabolism of sulfur amino acids in 2-, 6-, 18- and 30-month-old male C57BL/6 mice. For this purpose, metabolite profiling of sulfur amino acids from methionine to taurine or glutathione (GSH) was performed. The levels of sulfur amino acids and their metabolites were not significantly different among 2-, 6- and 18-month-old mice, except for plasma GSH and hepatic homocysteine. Plasma total GSH and hepatic total homocysteine levels were significantly higher in 2-month-old mice than those in the other age groups. In contrast, 30-month-old mice exhibited increased hepatic methionine and cysteine, compared with all other groups, but decreased hepatic S-adenosylmethionine (SAM), S-adenosylhomocysteine and homocysteine, relative to 2-month-old mice. No differences in hepatic reduced GSH, GSH disulfide, or taurine were observed. The hepatic changes in homocysteine and cysteine may be attributed to upregulation of cystathionine ${\beta}-synthase$ and down-regulation of ${\gamma}-glutamylcysteine$ ligase in the aged mice. The elevation of hepatic cysteine levels may be involved in the maintenance of hepatic GSH levels. The opposite changes of methionine and SAM suggest that the regulatory role of SAM in hepatic sulfur amino acid metabolism may be impaired in 30-month-old mice.