Allelic inactivation of the pseudoautosomal gene SYBL1 is controlled by epigenetic mechanisms common to the X and Y chromosomes

doi:10.1093/hmg/11.25.3191

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Human Molecular Genetics, 2002, Vol. 11, No. 25 3191-3198
© 2002 Oxford University Press

Allelic inactivation of the pseudoautosomal gene SYBL1 is controlled by epigenetic mechanisms common to the X and Y chromosomes

Maria Rosaria Matarazzo¹, Maria Luigia De Bonis¹, Richard I. Gregory³, Marcella Vacca¹, R. Scott Hansen⁴, Grazia Mercadante¹, Michele D'Urso¹, Robert Feil²^,3 and Maurizio D'Esposito¹^,*

¹Institute of Genetics and Biophysics ‘A. Buzzati Traverso’, CNR, Naples, Italy, ²Institute of Molecular Genetics, CNRS, UMR-5535, Montpellier, France, ³Programme in Developmental Genetics, The Babraham Institute, Cambridge CB2 4AT, UK and ⁴Department of Medicine, University of Washington, Seattle, WA 98195, USA

Received August 5, 2002; Accepted October 1, 2002

On the human long-arm pseudoautosomal region (XqPAR), genesthat are subject to inactivation are closely linked with thosethat escape. Genes subject to inactivation are not only silencedon the inactive X in females, but they are also inactivatedon the Y chromosome in males. One of the genes subject to thisunusual inactivation pattern is the synaptobrevin-like 1 gene(SYBL1). Previously we showed that its silencing on the inactiveX and the Y allele involves DNA methylation. This study exploresthe molecular events associated with SYBL1 silencing and investigatestheir relationship. Promoter DNA methylation profiles were determinedby bisulfite sequencing and immunoprecipitation experimentsdemonstrate that chromatin on the repressed Xi and the Y alleleshas underacetylated histones H3 and H4 and H3-lysine 9 methylation.In addition, the inactive X and the Y allele were found to havea condensed chromatin conformation. In contrast, the expressedallele shows H3 and H4 acetylation, H3-lysine 4 methylationand a less compacted chromatin conformation. In ICF syndrome,a human disease affecting DNA methylation, SYBL1 escapes fromsilencing and this correlates with altered patterns of histonemethylation and acetylation. Combined, our data suggest thatspecific combinations of histone methylation and acetylationare involved in the somatic maintenance of permissive and repressedchromatin states at SYBL1. Although it is unclear at presenthow this allele-specific silencing comes about, the data alsoindicate that the epigenetic features of the ‘Y inactivation’of SYBL1 are mechanistically similar to those associated withX-chromosome inactivation.

^* To whom correspondence should be addressed at: Institute ofGenetics and Biophysics, ‘A. Buzzati Traverso’,CNR, via Marconi 10, 80125, Naples, Italy. Tel: +39 0817257250;Fax: +39 0815936123; Email: desposit{at}iigb.na.cnr.it

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