Léri-Weill syndrome associated with a pseudodicentric X;Y translocation chromosome and skewed X-inactivation: implications for genetic counselling.

A female patient of normal intelligence with short stature and Madelung deformity is reported with Léri-Weill dyschondrosteosis and a de novo pseudodicentric X;Y translocation chromosome. The phenotype is consistent with the observed deletion of the SHOX gene by FISH and molecular studies. The Y chromosome breakpoint was in the short arm but proximal to SRY, consistent with her phenotypic sex. X-inactivation studies have shown a skewed pattern in favour of the dic (X;Y) chromosome. The ARSE gene was also deleted on the dic (X;Y) chromosome but chondrodysplasia punctata was not expressed, as CDP is recessive and ARSE escapes inactivation on the normal X chromosome. Breakpoint mapping assisted in karyotype/phenotype correlation and reproductive counselling. In particular, molecular analysis showed that the putative MRX 49 gene for mental retardation is unlikely to be deleted in this case.

Mutation and deletion of the pseudoautosomal gene SHOX cause Leri-Weill dyschondrosteosis.

Leri-Weill Dyschondrosteosis (LWD; OMIM 127300) is a dominantly inherited skeletal dysplasia characterized by disproportionate short stature with predominantly mesomelic limb shortening. Expression is variable and consistently more severe in females, who frequently display the Madelung deformity of the forearm (shortening and bowing of the radius with dorsal subluxation of the distal ulna). The rare Langer Mesomelic Dysplasia (LD; OMIM 249700), characterized by severe short stature with hypoplasia/aplasia of the ulna and fibula, has been postulated to be the homozygous form of LWD (refs 4-6). In a six-generation pedigree with LWD, we established linkage to the marker DXYS6814 in the pseudoautosomal region (PAR1) of the X and Y chromosomes (Z max=6.28; theta=0). Linkage analysis of three smaller pedigrees increased the lod score to 8.68 (theta=0). We identified submicroscopic PAR1 deletions encompassing the recently described short stature homeobox-containing gene SHOX (refs 7,8) segregating with the LWD phenotype in 5 families. A point mutation leading to a premature stop in exon 4 of SHOX was identified in one LWD family.