Molecular Genetics & Genomic Medicine (Mar 2021)

Phenylketonuria in Portugal: Genotype–phenotype correlations using molecular, biochemical, and haplotypic analyses

  • Filipa Ferreira,
  • Luísa Azevedo,
  • Raquel Neiva,
  • Carmen Sousa,
  • Helena Fonseca,
  • Ana Marcão,
  • Hugo Rocha,
  • Célia Carmona,
  • Sónia Ramos,
  • Anabela Bandeira,
  • Esmeralda Martins,
  • Teresa Campos,
  • Esmeralda Rodrigues,
  • Paula Garcia,
  • Luísa Diogo,
  • Ana Cristina Ferreira,
  • Silvia Sequeira,
  • Francisco Silva,
  • Luísa Rodrigues,
  • Ana Gaspar,
  • Patrícia Janeiro,
  • António Amorim,
  • Laura Vilarinho

DOI
https://doi.org/10.1002/mgg3.1559
Journal volume & issue
Vol. 9, no. 3
pp. n/a – n/a

Abstract

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Abstract Background The impairment of the hepatic enzyme phenylalanine hydroxylase (PAH) causes elevation of phenylalanine levels in blood and other body fluids resulting in the most common inborn error of amino acid metabolism (phenylketonuria). Persistently high levels of phenylalanine lead to irreversible damage to the nervous system. Therefore, early diagnosis of the affected individuals is important, as it can prevent clinical manifestations of the disease. Methods In this report, the biochemical and genetic findings performed in 223 patients diagnosed through the Portuguese Neonatal Screening Program (PNSP) are presented. Results Overall, the results show that a high overlap exists between different types of variants and phenylalanine levels. Molecular analyses reveal a wide mutational spectrum in our population with a total of 56 previously reported variants, most of them found in compound heterozygosity (74% of the patients). Intragenic polymorphic markers were used to assess the haplotypic structure of mutated chromosomes for the most frequent variants found in homozygosity in our population (p.Ile65Thr, p.Arg158Gln, p.Leu249Phe, p.Arg261Gln, p.Val388Met, and c.1066‐11G>A). Conclusion Our data reveal high heterogeneity at the biochemical and molecular levels and are expected to provide a better understanding of the molecular basis of this disease and to provide clues to elucidate genotype–phenotype correlations.

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