Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes

BACKGROUND: This paper summarizes the results of a group effort to bring together the worldwide available data on patients who are either homozygotes or compound heterozygotes for mutations in MAT1A. MAT1A encodes the subunit that forms two methionine adenosyltransferase isoenzymes, tetrameric MAT I...

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Autores principales: Chien, Yin-Hsiu, Abdenur, Jose E., Baronio, Federico, Bannick, Allison Anne, Corrales, Fernando, Couce, Maria, Donner, Markus G., Ficicioglu, Can, Freehauf, Cynthia, Frithiof, Deborah, Gotway, Garrett, Hirabayashi, Koichi, Hofstede, Floris, Hoganson, George, Hwu, Wuh-Liang, James, Philip, Kim, Sook, Korman, Stanley H., Lachmann, Robin, Levy, Harvey, Lindner, Martin, Lykopoulou, Lilia, Mayatepek, Ertan, Muntau, Ania, Okano, Yoshiyuki, Raymond, Kimiyo, Rubio-Gozalbo, Estela, Scholl-Bürgi, Sabine, Schulze, Andreas, Singh, Rani, Stabler, Sally, Stuy, Mary, Thomas, Janet, Wagner, Conrad, Wilson, William G., Wortmann, Saskia, Yamamoto, Shigenori, Pao, Maryland, Blom, Henk J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2015
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4545930/
https://www.ncbi.nlm.nih.gov/pubmed/26289392
http://dx.doi.org/10.1186/s13023-015-0321-y
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author Chien, Yin-Hsiu
Abdenur, Jose E.
Baronio, Federico
Bannick, Allison Anne
Corrales, Fernando
Couce, Maria
Donner, Markus G.
Ficicioglu, Can
Freehauf, Cynthia
Frithiof, Deborah
Gotway, Garrett
Hirabayashi, Koichi
Hofstede, Floris
Hoganson, George
Hwu, Wuh-Liang
James, Philip
Kim, Sook
Korman, Stanley H.
Lachmann, Robin
Levy, Harvey
Lindner, Martin
Lykopoulou, Lilia
Mayatepek, Ertan
Muntau, Ania
Okano, Yoshiyuki
Raymond, Kimiyo
Rubio-Gozalbo, Estela
Scholl-Bürgi, Sabine
Schulze, Andreas
Singh, Rani
Stabler, Sally
Stuy, Mary
Thomas, Janet
Wagner, Conrad
Wilson, William G.
Wortmann, Saskia
Yamamoto, Shigenori
Pao, Maryland
Blom, Henk J.
author_facet Chien, Yin-Hsiu
Abdenur, Jose E.
Baronio, Federico
Bannick, Allison Anne
Corrales, Fernando
Couce, Maria
Donner, Markus G.
Ficicioglu, Can
Freehauf, Cynthia
Frithiof, Deborah
Gotway, Garrett
Hirabayashi, Koichi
Hofstede, Floris
Hoganson, George
Hwu, Wuh-Liang
James, Philip
Kim, Sook
Korman, Stanley H.
Lachmann, Robin
Levy, Harvey
Lindner, Martin
Lykopoulou, Lilia
Mayatepek, Ertan
Muntau, Ania
Okano, Yoshiyuki
Raymond, Kimiyo
Rubio-Gozalbo, Estela
Scholl-Bürgi, Sabine
Schulze, Andreas
Singh, Rani
Stabler, Sally
Stuy, Mary
Thomas, Janet
Wagner, Conrad
Wilson, William G.
Wortmann, Saskia
Yamamoto, Shigenori
Pao, Maryland
Blom, Henk J.
author_sort Chien, Yin-Hsiu
collection PubMed
description BACKGROUND: This paper summarizes the results of a group effort to bring together the worldwide available data on patients who are either homozygotes or compound heterozygotes for mutations in MAT1A. MAT1A encodes the subunit that forms two methionine adenosyltransferase isoenzymes, tetrameric MAT I and dimeric MAT III, that catalyze the conversion of methionine and ATP to S-adenosylmethionine (AdoMet). Subnormal MAT I/III activity leads to hypermethioninemia. Individuals, with hypermethioninemia due to one of the MAT1A mutations that in heterozygotes cause relatively mild and clinically benign hypermethioninemia are currently often being flagged in screening programs measuring methionine elevation to identify newborns with defective cystathionine β-synthase activity. Homozygotes or compound heterozygotes for MAT1A mutations are less frequent. Some but not all, such individuals have manifested demyelination or other CNS abnormalities. PURPOSE OF THE STUDY: The goals of the present effort have been to determine the frequency of such abnormalities, to find how best to predict whether they will occur, and to evaluate the outcomes of the variety of treatment regimens that have been used. Data have been gathered for 64 patients, of whom 32 have some evidence of CNS abnormalities (based mainly on MRI findings), and 32 do not have such evidence. RESULTS AND DISCUSSION: The results show that mean plasma methionine concentrations provide the best indication of the group into which a given patient will fall: those with means of 800 μM or higher usually have evidence of CNS abnormalities, whereas those with lower means usually do not. Data are reported for individual patients for MAT1A genotypes, plasma methionine, total homocysteine (tHcy), and AdoMet concentrations, liver function studies, results of 15 pregnancies, and the outcomes of dietary methionine restriction and/or AdoMet supplementation. Possible pathophysiological mechanisms that might contribute to CNS damage are discussed, and tentative suggestions are put forth as to optimal management.
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spelling pubmed-45459302015-08-23 Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes Chien, Yin-Hsiu Abdenur, Jose E. Baronio, Federico Bannick, Allison Anne Corrales, Fernando Couce, Maria Donner, Markus G. Ficicioglu, Can Freehauf, Cynthia Frithiof, Deborah Gotway, Garrett Hirabayashi, Koichi Hofstede, Floris Hoganson, George Hwu, Wuh-Liang James, Philip Kim, Sook Korman, Stanley H. Lachmann, Robin Levy, Harvey Lindner, Martin Lykopoulou, Lilia Mayatepek, Ertan Muntau, Ania Okano, Yoshiyuki Raymond, Kimiyo Rubio-Gozalbo, Estela Scholl-Bürgi, Sabine Schulze, Andreas Singh, Rani Stabler, Sally Stuy, Mary Thomas, Janet Wagner, Conrad Wilson, William G. Wortmann, Saskia Yamamoto, Shigenori Pao, Maryland Blom, Henk J. Orphanet J Rare Dis Research BACKGROUND: This paper summarizes the results of a group effort to bring together the worldwide available data on patients who are either homozygotes or compound heterozygotes for mutations in MAT1A. MAT1A encodes the subunit that forms two methionine adenosyltransferase isoenzymes, tetrameric MAT I and dimeric MAT III, that catalyze the conversion of methionine and ATP to S-adenosylmethionine (AdoMet). Subnormal MAT I/III activity leads to hypermethioninemia. Individuals, with hypermethioninemia due to one of the MAT1A mutations that in heterozygotes cause relatively mild and clinically benign hypermethioninemia are currently often being flagged in screening programs measuring methionine elevation to identify newborns with defective cystathionine β-synthase activity. Homozygotes or compound heterozygotes for MAT1A mutations are less frequent. Some but not all, such individuals have manifested demyelination or other CNS abnormalities. PURPOSE OF THE STUDY: The goals of the present effort have been to determine the frequency of such abnormalities, to find how best to predict whether they will occur, and to evaluate the outcomes of the variety of treatment regimens that have been used. Data have been gathered for 64 patients, of whom 32 have some evidence of CNS abnormalities (based mainly on MRI findings), and 32 do not have such evidence. RESULTS AND DISCUSSION: The results show that mean plasma methionine concentrations provide the best indication of the group into which a given patient will fall: those with means of 800 μM or higher usually have evidence of CNS abnormalities, whereas those with lower means usually do not. Data are reported for individual patients for MAT1A genotypes, plasma methionine, total homocysteine (tHcy), and AdoMet concentrations, liver function studies, results of 15 pregnancies, and the outcomes of dietary methionine restriction and/or AdoMet supplementation. Possible pathophysiological mechanisms that might contribute to CNS damage are discussed, and tentative suggestions are put forth as to optimal management. BioMed Central 2015-08-20 /pmc/articles/PMC4545930/ /pubmed/26289392 http://dx.doi.org/10.1186/s13023-015-0321-y Text en © Chien et al. 2015 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research
Chien, Yin-Hsiu
Abdenur, Jose E.
Baronio, Federico
Bannick, Allison Anne
Corrales, Fernando
Couce, Maria
Donner, Markus G.
Ficicioglu, Can
Freehauf, Cynthia
Frithiof, Deborah
Gotway, Garrett
Hirabayashi, Koichi
Hofstede, Floris
Hoganson, George
Hwu, Wuh-Liang
James, Philip
Kim, Sook
Korman, Stanley H.
Lachmann, Robin
Levy, Harvey
Lindner, Martin
Lykopoulou, Lilia
Mayatepek, Ertan
Muntau, Ania
Okano, Yoshiyuki
Raymond, Kimiyo
Rubio-Gozalbo, Estela
Scholl-Bürgi, Sabine
Schulze, Andreas
Singh, Rani
Stabler, Sally
Stuy, Mary
Thomas, Janet
Wagner, Conrad
Wilson, William G.
Wortmann, Saskia
Yamamoto, Shigenori
Pao, Maryland
Blom, Henk J.
Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title_full Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title_fullStr Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title_full_unstemmed Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title_short Mudd’s disease (MAT I/III deficiency): a survey of data for MAT1A homozygotes and compound heterozygotes
title_sort mudd’s disease (mat i/iii deficiency): a survey of data for mat1a homozygotes and compound heterozygotes
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4545930/
https://www.ncbi.nlm.nih.gov/pubmed/26289392
http://dx.doi.org/10.1186/s13023-015-0321-y
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