Two autosomal dominant neuropathies result from reciprocal DNA duplication/deletion of a region on chromosome 17

Abstract

Charcot-Marie-Tooth disease type 1A (CMT1A) is a common autosomal dominant demyelinating neuropathy that is associated with a 1.5 megabase (Mb) tandem DNA duplication in chromosome 17p11.2-p12. Hereditary neuropathy with liability to pressure palsies (HNPP, tomaculous neuropathy) is another less frequently diagnosed autosomal dominant neuropathy and is associated with a 1.5 Mb deletion in chromosome 17p11.2-12. Meiotic unequal crossover is a proposed mechanism for the generation of both the duplication in CMT1A and the deletion in HNPP. CMT1A-REP is a repeat that flanks the region which is duplicated/deleted in CMT1A/HNPP. The CMT1A-REP repeat sequence may mediate unequal crossover through misalignment of the homologous, repeated sequences. Three copies of the CMT1A-REP repeat are present on stably inherited CMT1A duplication chromosomes. In this report, molecular analysis in multiple patients detected three copies of the CMT1A-REP sequence on both inherited and de novo CMT1A duplication chromosomes, and one copy of the CMT1A-REP repeat on the deleted chromosome in both inherited and de novo HNPP. These observations support the hypothesis that a reciprocal recombination mechanism involving the CMT1A-REP is responsible for the generation of both the duplicated and deleted chromosomes, and document the first examples in humans of Mendelian syndromes resulting from the reciprocal products of unequal exchange involving large intra-chromosomal segments.