BACKGROUND: SHOX, located in the pseudoautosomal region 1 (PAR1) of the sexual chromosomes, encodes a transcription factor implicated in human growth. Defects in SHOX or its enhancers have been observed in ∼60% of Leri-Weill dyschondrosteosis (LWD) patients, a skeletal dysplasia characterised by short stature and/or the characteristic Madelung deformity, and in 2-5% of idiopathic short stature (ISS). To identify the molecular defect in the remaining genetically undiagnosed LWD and ISS patients, this study screened previously unanalysed PAR1 regions in 124 LWD and 576 ISS probands. METHODS: PAR1 screening was undertaken by multiplex ligation dependent probe amplification (MLPA). Copy number alterations were subsequently confirmed and delimited by locus-specific custom-designed MLPA, array comparative genomic hybridisation (CGH) and breakpoint junction PCR/sequencing. RESULTS: A recurrent PAR1 deletion downstream of SHOX spanning 47543 bp with identical breakpoints was identified in 19 LWD (15.3%) and 11 ISS (1.9%) probands, from 30 unrelated families. Eight evolutionarily conserved regions (ECRs 1-8) identified within the deleted sequence were evaluated for SHOX regulatory activity by means of chromosome conformation capture (3C) in chicken embryo limbs and luciferase reporter assays in human U2OS osteosarcoma cells. The 3C assay indicated potential SHOX regulatory activity by ECR1, which was subsequently confirmed to act as a SHOX enhancer, operating in an orientation and position independent manner, in human U2OS cells. CONCLUSIONS: This study has identified the first recurrent PAR1 deletion in LWD and ISS, which results in the loss of a previously uncharacterised SHOX enhancer. The loss of this enhancer may decrease SHOX transcription, resulting in LWD or ISS due to SHOX haploinsufficiency.
BACKGROUND:SHOX, located in the pseudoautosomal region 1 (PAR1) of the sexual chromosomes, encodes a transcription factor implicated in human growth. Defects in SHOX or its enhancers have been observed in ∼60% of Leri-Weill dyschondrosteosis (LWD) patients, a skeletal dysplasia characterised by short stature and/or the characteristic Madelung deformity, and in 2-5% of idiopathic short stature (ISS). To identify the molecular defect in the remaining genetically undiagnosed LWD and ISS patients, this study screened previously unanalysed PAR1 regions in 124 LWD and 576 ISS probands. METHODS:PAR1 screening was undertaken by multiplex ligation dependent probe amplification (MLPA). Copy number alterations were subsequently confirmed and delimited by locus-specific custom-designed MLPA, array comparative genomic hybridisation (CGH) and breakpoint junction PCR/sequencing. RESULTS: A recurrent PAR1 deletion downstream of SHOX spanning 47543 bp with identical breakpoints was identified in 19 LWD (15.3%) and 11 ISS (1.9%) probands, from 30 unrelated families. Eight evolutionarily conserved regions (ECRs 1-8) identified within the deleted sequence were evaluated for SHOX regulatory activity by means of chromosome conformation capture (3C) in chicken embryo limbs and luciferase reporter assays in humanU2OSosteosarcoma cells. The 3C assay indicated potential SHOX regulatory activity by ECR1, which was subsequently confirmed to act as a SHOX enhancer, operating in an orientation and position independent manner, in humanU2OS cells. CONCLUSIONS: This study has identified the first recurrent PAR1 deletion in LWD and ISS, which results in the loss of a previously uncharacterised SHOX enhancer. The loss of this enhancer may decrease SHOX transcription, resulting in LWD or ISS due to SHOXhaploinsufficiency.
Authors: Philip M Boone; Bo Yuan; Ian M Campbell; Jennifer C Scull; Marjorie A Withers; Brett C Baggett; Christine R Beck; Christine J Shaw; Pawel Stankiewicz; Paolo Moretti; Wendy E Goodwin; Nichole Hein; John K Fink; Moon-Woo Seong; Soo Hyun Seo; Sung Sup Park; Izabela D Karbassi; Sat Dev Batish; Andrés Ordóñez-Ugalde; Beatriz Quintáns; María-Jesús Sobrido; Susanne Stemmler; James R Lupski Journal: Am J Hum Genet Date: 2014-07-24 Impact factor: 11.025
Authors: Sara Benito-Sanz; Alberta Belinchon-Martínez; Miriam Aza-Carmona; Carolina de la Torre; Celine Huber; Isabel González-Casado; Judith L Ross; N Simon Thomas; Andrew R Zinn; Valerie Cormier-Daire; Karen E Heath Journal: J Hum Genet Date: 2016-09-08 Impact factor: 3.172
Authors: Mariana Del Pino; Miriam Aza-Carmona; David Medino-Martín; Abel Gomez; Karen E Heath; Virginia Fano; María Gabriela Obregon Journal: J Pediatr Genet Date: 2019-05-28