Abnormal Hypermethylation at Imprinting Control Regions in Patients with S-Adenosylhomocysteine Hydrolase (AHCY) Deficiency

6533b872fe1ef96bd12d3961

RESEARCH PRODUCT

Abnormal Hypermethylation at Imprinting Control Regions in Patients with S-Adenosylhomocysteine Hydrolase (AHCY) Deficiency

Ulrich Zechner Oliver Vugrek Jelena Knežević Alexis Cooper Kevin A. Strauss Kevin A. Strauss Ivo Barić Erik G. Puffenberger Erik G. Puffenberger Robert Beluzić Olivier J. Switzeny S. Harvey Mudd Antje Motzek

subject

Male 0301 basic medicine Methyltransferase lcsh:Medicine Artificial Gene Amplification and Extension Glycine N-Methyltransferase Biochemistry Polymerase Chain Reaction law.invention Methionine 0302 clinical medicine law Amino Acids lcsh:Science Polymerase chain reaction Genetics DNA methylation Mammalian Genomics Multidisciplinary Organic Compounds Genomics Methylation Chromatin Enzymes 3. Good health Nucleic acids Chemistry Physical Sciences DNA methylation Epigenetics Female DNA modification Chromatin modification Research Article Chromosome biology Cell biology Alu element Biology Research and Analysis Methods Genomic Imprinting 03 medical and health sciences Alu Elements Genetics Sulfur Containing Amino Acids Humans Repeated Sequences Molecular Biology Techniques Molecular Biology Amino Acid Metabolism Inborn Errors Gene Biology and life sciences Organic Chemistry lcsh:R Chemical Compounds Infant Newborn Proteins Infant DNA Methyltransferases Creatine Molecular biology Long Interspersed Nucleotide Elements 030104 developmental biology Differentially methylated regions Animal Genomics Enzymology AHCY ; Hypermethylation lcsh:Q Gene expression Genomic imprinting 030217 neurology & neurosurgery Developmental Biology

description

S-adenosylhomocysteine hydrolase (AHCY) deficiency is a rare autosomal recessive disorder in methionine metabolism caused by mutations in the AHCY gene. Main characteristics are psychomotor delay including delayed myelination and myopathy (hypotonia, absent tendon reflexes etc.) from birth, mostly associated with hypermethioninaemia, elevated serum creatine kinase levels and increased genome wide DNA methylation. The prime function of AHCY is to hydrolyse and efficiently remove S-adenosylhomocysteine, the by-product of transmethylation reactions and one of the most potent methyltransferase inhibitors. In this study, we set out to more specifically characterize DNA methylation changes in blood samples from patients with AHCY deficiency. Global DNA methylation was increased in two of three analysed patients. In addition, we analysed the DNA methylation levels at differentially methylated regions (DMRs) of six imprinted genes (MEST, SNRPN, LIT1, H19, GTL2 and PEG3) as well as Alu and LINE1 repetitive elements in seven patients. Three patients showed a hypermethylation in up to five imprinted gene DMRs. Abnormal methylation in Alu and LINE1 repetitive elements was not observed. We conclude that DNA hypermethylation seems to be a frequent but not a constant feature associated with AHCY deficiency that affects different genomic regions to different degrees. Thus AHCY deficiency may represent an ideal model disease for studying the molecular origins and biological consequences of DNA hypermethylation due to impaired cellular methylation status.

year	journal	country	edition	language
2016-03-14	PLOS ONE

https://doi.org/10.1371/journal.pone.0151261