Selenoprotein-Related Disease in a Young Girl Caused by Nonsense Mutations in theSBP2Gene

Monalisa Ferreira Azevedo, Gustavo Barcelos Barra, Luciana Ansaneli Naves, Lara Franciele Ribeiro Velasco, Patrícia Godoy Garcia Castro, Luiz Claudio Gonçalves de Castro, Angélica Amorim Amato, Angela Miniard, Donna Driscoll, Lutz Schomburg, Francisco de Assis Rocha Neves
2010 Journal of Clinical Endocrinology and Metabolism  
Context: Selenoproteins are essential for life, and their biosynthesis requires the incorporation of the rare amino acid selenocysteine (Sec) in a process mediated by the Sec insertion sequencebinding protein 2 (SBP2). Although SBP2 is considered a rate-limiting factor mediating Sec incorporation, there has been little evidence so far linking SBP2 dysfunction to widespread selenoprotein-related disease. Objective: The objective of the study was to report the discovery of novel truncation
more » ... l truncation mutations in the SBP2 gene (R120X/R770X) in a female adolescent and the clinical consequences of the combined deficiency of selenoproteins. Subjects and Methods: A 12-yr-old girl who presented with a syndrome of abnormal thyroid hormone metabolism, delayed bone maturation, congenital myopathy, and impaired mental and motor coordination development and her family were studied. The coding region of the SBP2 gene was analyzed by sequencing, and gel shift assays were performed to address the in vitro binding properties of the mutant SBP2 protein. Results: Serum levels of selenium and glutathione peroxidase in the proband were reduced, and selenoprotein P levels were undetectable. DNA sequencing of the SBP2 gene revealed a compound heterozygous mutation (R120X/R770X). The R120X mutation disrupted all functional motifs and the R770X inhibited the binding of SBP2 to Sec insertion sequence elements. Interestingly, selenium supplementation normalized serum selenium and glutathione peroxidase but not selenoprotein P levels and did not restore thyroid hormone metabolism dysfunction. Conclusions : This distinctive phenotype can only be explained by the combined deficiency of functionally important selenoproteins and pinpoints the clinical relevance of selenoproteins and selenium economy in human development. (J Clin Endocrinol Metab 95: 4066 -4071, 2010)
doi:10.1210/jc.2009-2611 pmid:20501692 fatcat:4vy57pejfjbmtc2xho7fxyxh7m