RESUMEN
CONTEXT: The WNT/ß-catenin pathway is central to the pathogenesis of various human diseases including those affecting bone development and tumor progression. OBJECTIVE: To evaluate the role of a gain-of-function variant in CTNNB1 in a child with a sclerosing bone dysplasia and an adrenocortical adenoma. DESIGN: Whole exome sequencing with corroborative biochemical analyses. PATIENTS: We recruited a child with a sclerosing bone dysplasia and an adrenocortical adenoma together with her unaffected parents. INTERVENTION: Whole exome sequencing and performance of immunoblotting and luciferase-based assays to assess the cellular consequences of a de novo variant in CTNNB1. MAIN OUTCOME MEASURE(S)/RESULT: A de novo variant in CTNNB1 (c.131C>T; p.[Pro44Leu]) was identified in a patient with a sclerosing bone dysplasia and an adrenocortical adenoma. A luciferase-based transcriptional assay of WNT signaling activity verified that the activity of ß-catenin was increased in the cells transfected with a CTNNB1p.Pro44Leu construct (Pâ =â 4.00â ×â 10-5). The ß-catenin p.Pro44Leu variant was also associated with a decrease in phosphorylation at Ser45 and Ser33/Ser37/Thr41 in comparison to a wild-type (WT) CTNNB1 construct (Pâ =â 2.16â ×â 10-3, Pâ =â 9.34â ×â 10-8 respectively). CONCLUSION: Increased ß-catenin activity associated with a de novo gain-of-function CTNNB1 variant is associated with osteosclerotic phenotype and adrenocortical neoplasia.