Literature DB >> 16605249

Structural perturbations in the Ala --> Val polymorphism of methylenetetrahydrofolate reductase: how binding of folates may protect against inactivation.

Robert Pejchal1, Elizabeth Campbell, Brian D Guenther, Brett W Lennon, Rowena G Matthews, Martha L Ludwig.   

Abstract

In human methylenetetrahydrofolate reductase (MTHFR) the Ala222Val (677C-->T) polymorphism encodes a heat-labile gene product that is associated with elevated levels of homocysteine and possibly with risk for cardiovascular disease. Generation of the equivalent Ala to Val mutation in Escherichia coli MTHFR, which is 30% identical to the catalytic domain of the human enzyme, creates a protein with enhanced thermolability. In both human and E. coli MTHFR, the A --> V mutation increases the rate of dissociation of FAD, and in both enzymes, loss of FAD is linked to changes in quaternary structure [Yamada, K., Chen, Z., Rozen, R., and Matthews, R. G. (2001) Proc. Natl. Acad. Sci. U.S.A. 98, 14853-14858; Guenther, B. D., Sheppard, C. A., Tran, P., Rozen, R., Matthews, R. G., and Ludwig, M. L. (1999) Nat. Struct. Biol. 6, 359-365]. Folates have been shown to protect both human and bacterial enzymes from loss of FAD. Despite its effect on affinity for FAD, the A --> V mutation is located at the bottom of the (betaalpha)(8) barrel of the catalytic domain in a position that does not contact the bound FAD prosthetic group. Here we report the structures of the Ala177Val mutant of E. coli MTHFR and of its complex with the 5,10-dideazafolate analogue, LY309887, and suggest mechanisms by which the mutation may perturb FAD binding. Helix alpha5, which immediately precedes the loop bearing the mutation, carries several residues that interact with FAD, including Asn168, Arg171, and Lys172. In the structures of the mutant enzyme this helix is displaced, perturbing protein-FAD interactions. In the complex with LY309887, the pterin-like ring of the analogue stacks against the si face of the flavin and is secured by hydrogen bonds to residues Gln183 and Asp120 that adjoin this face. The direct interactions of bound folate with the cofactor provide one mechanism for linkage between binding of FAD and folate binding that could account in part for the protective action of folates. Conformation changes induced by folate binding may also suppress dissociation of FAD.

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Year:  2006        PMID: 16605249      PMCID: PMC1868400          DOI: 10.1021/bi052294c

Source DB:  PubMed          Journal:  Biochemistry        ISSN: 0006-2960            Impact factor:   3.162


  41 in total

1.  MTHFR 677C-->T polymorphism and risk of coronary heart disease: a meta-analysis.

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2.  Heterogeneity and inaccuracy in protein structures solved by X-ray crystallography.

Authors:  Mark A DePristo; Paul I W de Bakker; Tom L Blundell
Journal:  Structure       Date:  2004-05       Impact factor: 5.006

3.  High resolution crystal structures of the catalytic domain of human phenylalanine hydroxylase in its catalytically active Fe(II) form and binary complex with tetrahydrobiopterin.

Authors:  O A Andersen; T Flatmark; E Hough
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4.  Mammalian methylenetetrahydrofolate reductase. Partial purification, properties, and inhibition by S-adenosylmethionine.

Authors:  C Kutzbach; E L Stokstad
Journal:  Biochim Biophys Acta       Date:  1971-12-15

5.  Vascular pathology of homocysteinemia: implications for the pathogenesis of arteriosclerosis.

Authors:  K S McCully
Journal:  Am J Pathol       Date:  1969-07       Impact factor: 4.307

6.  Effects of common polymorphisms on the properties of recombinant human methylenetetrahydrofolate reductase.

Authors:  K Yamada; Z Chen; R Rozen; R G Matthews
Journal:  Proc Natl Acad Sci U S A       Date:  2001-12-11       Impact factor: 11.205

7.  Phase I and pharmacokinetic study of LY309887: a specific inhibitor of purine biosynthesis.

Authors:  D R Budman; R Johnson; B Barile; R R Bowsher; V Vinciguerra; S L Allen; J Kolitz; C S Ernest; W Kreis; P Zervos; J Walling
Journal:  Cancer Chemother Pharmacol       Date:  2001-06       Impact factor: 3.333

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9.  Impaired functioning of thermolabile methylenetetrahydrofolate reductase is dependent on riboflavin status: implications for riboflavin requirements.

Authors:  Helene McNulty; Michelle C McKinley; Barbara Wilson; Joseph McPartlin; J J Strain; Donald G Weir; John M Scott
Journal:  Am J Clin Nutr       Date:  2002-08       Impact factor: 7.045

10.  Thermolabile methylenetetrahydrofolate reductase, homocysteine, and cardiovascular disease risk: the European Concerted Action Project.

Authors:  Raymond Meleady; Per M Ueland; Henk Blom; Alexander S Whitehead; Helga Refsum; Leslie E Daly; Stein Emil Vollset; Cait Donohue; Belinda Giesendorf; Ian M Graham; Arve Ulvik; Ying Zhang; Anne-Lise Bjorke Monsen
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  23 in total

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Authors:  Eugene Ciccimaro; Ian A Blair
Journal:  Bioanalysis       Date:  2010-02       Impact factor: 2.681

2.  Functional characterization of missense mutations in severe methylenetetrahydrofolate reductase deficiency using a human expression system.

Authors:  Patricie Burda; Terttu Suormala; Dorothea Heuberger; Alexandra Schäfer; Brian Fowler; D Sean Froese; Matthias R Baumgartner
Journal:  J Inherit Metab Dis       Date:  2016-10-14       Impact factor: 4.982

Review 3.  The search for genetic polymorphisms in the homocysteine/folate pathway that contribute to the etiology of human neural tube defects.

Authors:  Anne M Molloy; Lawrence C Brody; James L Mills; John M Scott; Peadar N Kirke
Journal:  Birth Defects Res A Clin Mol Teratol       Date:  2009-04

4.  Functional role for the conformationally mobile phenylalanine 223 in the reaction of methylenetetrahydrofolate reductase from Escherichia coli.

Authors:  Moon N Lee; Desire Takawira; Andriana P Nikolova; David P Ballou; Vivek C Furtado; Ngoc L Phung; Brady R Still; Melissa K Thorstad; John J Tanner; Elizabeth E Trimmer
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5.  Biological and structural evaluation of 10R- and 10S-methylthio-DDACTHF reveals a new role for sulfur in inhibition of glycinamide ribonucleotide transformylase.

Authors:  Stephen Connelly; Jessica K DeMartino; Dale L Boger; Ian A Wilson
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Review 6.  "Polymorphisms in folate metabolism genes as maternal risk factor for neural tube defects: an updated meta-analysis".

Authors:  Upendra Yadav; Pradeep Kumar; Sushil Kumar Yadav; Om Prakash Mishra; Vandana Rai
Journal:  Metab Brain Dis       Date:  2014-07-09       Impact factor: 3.584

7.  Heterozygote advantage of methylenetetrahydrofolate reductase polymorphisms on clinical outcomes in advanced non-small cell lung cancer (NSCLC) patients treated with platinum-based chemotherapy.

Authors:  Xiaoying Li; Minhua Shao; Shiming Wang; Xueying Zhao; Hongyan Chen; Ji Qian; Xiao Song; Jiucun Wang; Li Jin; Junjie Wu; Qiang Li; Chunxue Bai; Baohui Han; Zhiqiang Gao; Daru Lu
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8.  Distribution of MTHFR C677T Gene Polymorphism in Healthy North Indian Population and an Updated Meta-analysis.

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9.  Quantification of key red blood cell folates from subjects with defined MTHFR 677C>T genotypes using stable isotope dilution liquid chromatography/mass spectrometry.

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Review 10.  Biomarkers of Nutrition for Development-Folate Review.

Authors:  Lynn B Bailey; Patrick J Stover; Helene McNulty; Michael F Fenech; Jesse F Gregory; James L Mills; Christine M Pfeiffer; Zia Fazili; Mindy Zhang; Per M Ueland; Anne M Molloy; Marie A Caudill; Barry Shane; Robert J Berry; Regan L Bailey; Dorothy B Hausman; Ramkripa Raghavan; Daniel J Raiten
Journal:  J Nutr       Date:  2015-06-03       Impact factor: 4.798
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