RT Journal Article SR Electronic T1 Deletions of 5′ HOXC genes are associated with lower extremity malformations, including clubfoot and vertical talus JF Journal of Medical Genetics JO J Med Genet FD BMJ Publishing Group Ltd SP 250 OP 255 DO 10.1136/jmedgenet-2015-103505 VO 53 IS 4 A1 David M Alvarado A1 Kevin McCall A1 Jacqueline T Hecht A1 Matthew B Dobbs A1 Christina A Gurnett YR 2016 UL http://jmg.bmj.com/content/53/4/250.abstract AB Background Deletions of the HOXC gene cluster result in variable phenotypes in mice, but have been rarely described in humans.Objective To report chromosome 12q13.13 microdeletions ranging from 13 to 175 kb and involving the 5′ HOXC genes in four families, segregating congenital lower limb malformations, including clubfoot, vertical talus and hip dysplasia.Methods Probands (N=253) with clubfoot or vertical talus were screened for point mutations and copy number variants using multiplexed direct genomic selection, a pooled BAC targeted capture approach. SNP genotyping included 1178 probands with clubfoot or vertical talus and 1775 controls.Results The microdeletions share a minimal non-coding region overlap upstream of HOXC13, with variable phenotypes depending upon HOXC13, HOXC12 or the HOTAIR lncRNA inclusion. SNP analysis revealed HOXC11 p.Ser191Phe segregating with clubfoot in a small family and enrichment of HOXC12 p.Asn176Lys in patients with clubfoot or vertical talus (rs189468720, p=0.0057, OR=3.8). Defects in limb morphogenesis include shortened and overlapping toes, as well as peroneus muscle hypoplasia. Finally, HOXC and HOXD gene expression is reduced in fibroblasts from a patient with a 5′ HOXC deletion, consistent with previous studies demonstrating that dosage of lncRNAs alters expression of HOXD genes in trans.Conclusions Because HOXD10 has been implicated in the aetiology of congenital vertical talus, variation in its expression may contribute to the lower limb phenotypes occurring with 5′ HOXC microdeletions. Identification of 5′ HOXC microdeletions highlights the importance of transcriptional regulators in the aetiology of severe lower limb malformations and will improve their diagnosis and management.