Expression and Functional Interaction of the Catalytic and Regulatory Subunits of Human Methionine Adenosyltransferase in Mammalian Cells

Halim, Abdel; LeGros, Leighton; Geller, Arthur M.; Kotb, Malak

doi:10.1074/jbc.274.42.29720

Cited by 93 publications

(124 citation statements)

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“…In contrast to MAT ␣ subunits, which are highly conserved throughout evolution, the ␤ subunit of MAT II seems to be only present in the mammalian species (15,19). Recently, we cloned and characterized the human MAT II ␤ subunit (26,31), found that it has no catalytic activity, and confirmed that it acts as a regulatory subunit for the enzyme. When ␤ associates with the ␣ subunit it alters its kinetic properties and renders MAT II more susceptible to product inhibition by AdoMet (26,31).…”

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 96%

“…Recently, we cloned and characterized the human MAT II ␤ subunit (26,31), found that it has no catalytic activity, and confirmed that it acts as a regulatory subunit for the enzyme. When ␤ associates with the ␣ subunit it alters its kinetic properties and renders MAT II more susceptible to product inhibition by AdoMet (26,31). Interestingly, the human ␤ subunit can also interact with the ␣1 subunit of MAT I/III and the Escherichia coli ␣ MAT subunit and alter their kinetic properties as well (26,31).…”

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 96%

“…The ␣2/␤ hetero-oligomeric composition of MAT II was also determined in bovine brain, Ehrlich ascites tumor, and calf thymus (15,19). The ␣2 subunit is responsible for the enzyme catalytic activity and is post-translationally modified to generate ␣2Ј (15,(22)(23)(24)(25)(26). Recently, Halim et al (27) reported the characterization and regulation of the human MAT2A gene and found it to be remarkably similar to that of the rat and mouse MAT2A genes (28, 29) as well as to the human MAT1A gene (30), which encodes the liver-specific ␣1 subunit.…”

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 99%

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 99%

“…When ␤ associates with the ␣ subunit it alters its kinetic properties and renders MAT II more susceptible to product inhibition by AdoMet (26,31). Interestingly, the human ␤ subunit can also interact with the ␣1 subunit of MAT I/III and the Escherichia coli ␣ MAT subunit and alter their kinetic properties as well (26,31).The expression of the MAT II ␣2, ␣2Ј, and ␤ subunits varies considerably in different tissues. The ␣2, ␣2Ј, and ␤ subunits are constitutively expressed at high levels in leukemic cells and at low levels in normal resting T cells.…”

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Regulation of the Human MAT2B Gene Encoding the Regulatory β Subunit of Methionine Adenosyltransferase, MAT II

LeGros

Halim

Chamberlin³

et al. 2001

Journal of Biological Chemistry

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Methionine adenosyltransferase (MAT) catalyzes the biosynthesis of S-adenosylmethionine (AdoMet), a key molecule in transmethylation reactions and polyamine biosynthesis. The MAT II isozyme consists of a catalytic ␣2 and a regulatory ␤ subunit. Down-regulation of the MAT II ␤ subunit expression causes a 6 -10-fold increase in intracellular AdoMet levels. To understand the mechanism by which the ␤ subunit expression is regulated, we cloned the MAT2B gene, determined its organization, characterized its 5-flanking sequences, and elucidated the in vitro and in vivo regulation of its promoter. Transcription of the MAT2B gene initiates at position ؊203 relative to the translation start site. Promoter deletion analysis defined a minimal promoter between positions ؉52 and ؉93 base pairs, a GC-rich region. Inclusion of the sequences between ؊4 and ؉52 enhanced promoter activity; this was primarily because of an Sp1 recognition site at ؉9/؉15. The inclusion of sequences up to position ؊115 provided full activity; this was attributed to a TATA at ؊32. The Sp1 site at position ؉9 was key for the formation of protein⅐DNA complexes. Mutation of both the Sp1 site at ؉9 and the TATA at ؊32 reduced promoter activity to its minimal level. Supershift assays showed no effect of the anti-Sp1 antibody on complex formation, whereas the anti-Sp3 antibody had a strong effect on protein⅐DNA complex formation, suggesting that Sp3 is one of the main factors binding to this Sp1 site. Chromatin immunoprecipitation assays supported the involvement of both Sp1 and Sp3 in complexes formed on the MAT2B promoter. The data show that the 5-untranslated sequences play an important role in regulating the MAT2B gene and identifies the Sp1 site at ؉9 as a potential target for modulating MAT2B expression, a process that can have a major effect on intracellular AdoMet levels. Methionine adenosyltransferase (MAT)1 (ATP⅐L-methionine S-adenosyltransferase) (EC 2.5.1.6) catalyzes the biosynthesis of S-adenosylmethionine (AdoMet) (1, 2). AdoMet is the major methyl donor in transmethylation reactions and the propylamine donor in the biosynthesis of polyamines (3-5). Furthermore, AdoMet participates as a co-factor in key metabolic pathways (3-5). Most species studied to date have more than one MAT isozyme (6). In mammals, the two major MAT isozymes are designated MAT I/III and MAT II (7-10). The MAT I/III isozymes are, respectively, a tetramer and dimer of a catalytic ␣1 subunit that is expressed only in liver (7, 11-13). The MAT II isozyme is expressed in all tissues including the liver (9, 14 -21). Previous studies from our group (15, 22) have determined that MAT II from human leukemic T and B cells, as well from activated human lymphocytes, is a hetero-oligomer that consists of ␣2 (53 kDa), ␣2Ј (51 kDa), and ␤ (38 kDa) subunits. The ␣2/␤ hetero-oligomeric composition of MAT II was also determined in bovine brain, Ehrlich ascites tumor, and calf thymus (15,19). The ␣2 subunit is responsible for the enzyme catalytic activity and is post-translationally modifie...

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Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 96%

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 96%

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 99%

Section: Methionine Adenosyltransferase (Mat)mentioning

confidence: 99%

mentioning

confidence: 99%

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Regulation of the Human MAT2B Gene Encoding the Regulatory β Subunit of Methionine Adenosyltransferase, MAT II

LeGros

Halim

Chamberlin³

et al. 2001

Journal of Biological Chemistry

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Methionine Adenosyltransferase

Chou¹

2002

Wiley Encyclopedia of Molecular Medicine

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Methionine Adenosyltransferase (S‐Adenosylmethionine Synthetase)

Pajares

Markham

2011

Advances in Enzymology - And Related Areas of Molecular Biology

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10.3. Thermal Unfolding 10.4. Association of MAT III to form MAT I: Role of the Disulfide C35-C61 10.5. Complementary Folding Data Obtained in MAT Proteins of Different Origins 11. MAT Inhibitors 12. Role of MAT in Diseases 12.1. Cognitive and Neurodegenerative Diseases 12.2. Human Mutations in MAT1A Gene: Hypermethioninemia and Demyelination 12.3. MAT and Cancer 12.4. MAT and Ethanol 2. MAMMALIAN MATs Early studies on mammalian MATs showed the existence of this activity in all the tissues studied, the highest being observed in liver. However, complex kinetics were obtained which made the results difficult to interpret until the presence of several isoenzymes was realized. Separations carried out on phenyl Sepharose columns showed elution of three peaks with different hydrophobic character; these were named according to the order of elution as MAT I, II and III. All these isoenzymes share some characteristics such as the Mg 2+ dependence of their 9/14/2012 Page 6 of 80 activity (S 0.5 !1 mM), stimulation by K + ions, and their AdoMet-inducible tripolyphosphatase activity [4, 5]. 2.1. MAT I/III isoenzymes Since their discovery, these isoenzymes were known as liver-specific forms of MAT, until Lu et al. in 2003 [6] showed their presence also in pancreas. Several laboratories have reported in depth studies of MAT I and III which have been carried out using adult liver. The differences can be summarized as follows: i) MAT I is a tetramer whereas MAT III is a dimer, with respective Mr appearing as 200 and 110 kDa upon gel filtration chromatography, ii) their Km values for methionine are in the micromolar range for MAT I (60-120 µM) and in the millimolar range for MAT III (1 mM) [7, 8]; iii) MAT III can be activated by DMSO at physiological concentrations of methionine (60 µM) and is highly hydrophobic (eluting from phenyl Sepharose columns at 50% DMSO (v/v)); and, iv) AdoMet inhibits MAT I and activates MAT III. Some of these differences are normally used to distinguish between isoenzymes in activity assays. Both purified proteins show a common single band (designated "1) of approximately 48 kDa on SDS-PAGE, and antibodies raised against the dimer form recognized both, thus suggesting that a single type of subunit arranged in two assemblies could explain the presence of both oligomers [7]. Further experiments that supported this hypothesis included peptide mapping of the purified isoenzymes [7], dissociation of the tetramer to the dimer using LiBr [9] or N-ethylmaleimide (NEM) modification [10]. The final confirmation came upon cloning of a single cDNA [11, 12] followed by overexpresion in E. coli cells [13], which showed in vivo production of dimers and tetramers. This single subunit type is a product of the MAT1A gene that contains nine exons and eight introns spanning !20 kb [14], and has been localized by fluorescence in situ hybridization to the human chromosome 10q.22 [15]. Animal models, as well as the analysis of human samples, led to the identification of changes in the MAT I/III ratio in pathological conditi...

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Expression and Functional Interaction of the Catalytic and Regulatory Subunits of Human Methionine Adenosyltransferase in Mammalian Cells

Cited by 93 publications

References 30 publications

Regulation of the Human MAT2B Gene Encoding the Regulatory β Subunit of Methionine Adenosyltransferase, MAT II

Regulation of the Human MAT2B Gene Encoding the Regulatory β Subunit of Methionine Adenosyltransferase, MAT II

Methionine Adenosyltransferase

Methionine Adenosyltransferase (S‐Adenosylmethionine Synthetase)

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