ABSTRACT
Abstract Phenylketonuria (PKU, OMIM 261600) is predominantly caused by mutations in the PAH gene. One hundred and three Argentine PKU patients were studied by Sanger sequencing; 101 were completely characterized (90.3% were compound heterozygotes). Fifty-four different pathogenic variants were identified. Mutations were distributed all along the PAH gene but concentrated in exon 7 (26%), 12 (12%), 11 (10%), and 6 (10%). 77% were missense, and 77% affected the enzyme catalytic domain, nine mutations accounted for 57% of 179 studied alleles: p.Arg261Gln (Allele frequency(AF):10.6%), c.1066-11G>A (AF:9,5%), p.Arg408Trp (AF:8,3%), p.Tyr414Cys (AF:5,5%), p.Ala403Val, p.Val388Met, and p.Arg158Gln (AF: 5% each), p.Leu48Ser, and p.Ile65Thr (AF:4% each). The predicted phenotype was assigned by Guldberg´s arbitrary value (AV) and compared with the clinical phenotype based in tolerance to Phe intake. 29.1% (n:30) were hyperphenylalaninemias, 18.5% (n:19) mild-PKU, 27.2% (n:28) moderate-PKU and 25.2 % (n:26) classical-PKU. Genotype/phenotype correlation was statistically significant (p<0.001) Overall concordance was 62,5%: 93.3% in hyperphenylalaninemia, 64.7% in mild-PKU and 65.4% in classical patients. The moderate-PKU showed a weak concordance (17%) with milder AV prediction than clinical assessment. 74% of discordant moderate patients harbored p.Arg261Gln, and p.Val388Met. Our cohort is highly heterogeneous, with predominant Mediterranean influence (mainly Spanish), but with differences with other Latin-American countries.
ABSTRACT
El hipotiroidismo congénito afecta a 1:2000-3000 recién nacidos detectados por pesquisa neonatal. Las oxidasas duales, DUOX1 y 2, generan agua oxigenada, lo que constituye un paso crítico en la síntesis hormonal. Se han comunicado mutaciones en el gen DUOX2 en casos de hipotiroidismo congénito transitorio y permanente. Se describen dos hermanos con hipotiroidismo congénito detectados por pesquisa neonatal, con glándula tiroides eutópica y tiroglobulina elevada. Recibieron levotiroxina hasta su reevaluación en la infancia con suspensión del tratamiento. Su función tiroidea fue normal y se consideró el cuadro como transitorio por un posible defecto de organificación. Ambos pacientes eran heterocigotos compuestos para una mutación en el exón 9 del alelo paterno (c.1057_1058delTT, p.F353PfsX36 o p.F353fsX388) y otra en el exón 11 del alelo materno (c.1271T>G, p.Y425X) del gen DUOX2. Nuestro hallazgo confirma que la magnitud del defecto de DUOX2 no se relaciona con el número de alelos afectados, lo que sugiere mecanismos compensadores en la generación de peróxido.
Congenital hypothyroidism affects 1:2000-3000 newborns detected by neonatal screening programs. Dual oxidases, DUOX1 and 2, generate hydrogen peroxide needed for the thyroid hormone synthesis. Mutations in the DUOX2 gene have been described in transient and permanent congenital hypothyroidism. Two brothers with congenital hypothyroidism detected by neonatal screening with eutopic gland and elevated thyroglobulin are described. They were treated with levothyroxine until it could be suspended in both during childhood, assuming the picture as transient. Organification disorder was confirmed. Both patients were compounds heterozygous for a mutation in exon 9 of the paternal allele (c.1057_1058delTT, p.F353PfsX36 or p.F353fsX388) and in exon 11 of the maternal allele (c.1271T > G, p.Y425X) of DUOX2 gene. Our finding confirms that the magnitude of the defect of DUOX2 is not related to the number of inactivated alleles, suggesting compensatory mechanisms in the peroxide supply