The 4q subtelomere harboring the FSHD locus is specifically anchored with peripheral heterochromatin unlike most human telomeres

doi:10.1083/jcb.200403128

Published 25 October 2004. doi:10.1083/jcb.200403128
The Rockefeller University Press, 0021-9525 $8.00
JCB, Volume 167, Number 2, 269-279

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Article

The 4q subtelomere harboring the FSHD locus is specifically anchored with peripheral heterochromatin unlike most human telomeres

Rose Tam, Kelly P. Smith, and Jeanne B. Lawrence

Department of Cell Biology, University of Massachusetts Medical School, Worcester, MA 01655

Correspondence to J.B. Lawrence: Jeanne.Lawrence{at}umassmed.edu

This paper investigates the nuclear localization of human telomeresand, specifically, the 4q35 subtelomere mutated in facioscapulohumeraldystrophy (FSHD). FSHD is a common muscular dystrophy that hasbeen linked to contraction of D4Z4 tandem repeats, widely postulatedto affect distant gene expression. Most human telomeres, suchas 17q and 17p, avoid the nuclear periphery to reside withinthe internal, euchromatic compartment. In contrast, 4q35 localizesat the peripheral heterochromatin with 4p more internal, generatinga reproducible chromosome orientation that we relate to geneexpression profiles. Studies of hybrid and translocation celllines indicate this localization is inherent to the distal tipof 4q. Investigation of heterozygous FSHD myoblasts demonstratedno significant displacement of the mutant allele from the nuclearperiphery. However, consistent association of the pathogenicD4Z4 locus with the heterochromatic compartment supports a potentialrole in regulating the heterochromatic state and makes a telomerepositioning effect more likely. Furthermore, D4Z4 repeats onother chromosomes also frequently organize with the heterochromaticcompartment at the nuclear or nucleolar periphery, demonstratinga commonality among chromosomes harboring this subtelomere repeatfamily.

Abbreviations used in this paper: FSHD, facioscapulohumeraldystrophy; TPE, telomere position effect.

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