Phenylketonuria in the Latvian population: Molecular basis, phenylalanine levels, and patient compliance.

INTRODUCTION: Phenylketonuria (PKU) is an inborn error of metabolism characterized by pathogenic variants of the phenylalanine hydroxylase (PAH) gene with a resulting accumulation of phenylalanine (Phe) to neurotoxic levels. Diagnosis of PKU in the Latvian population began in 1985 and the present study's aim was to evaluate the available data on all PKU patients in Latvia. MATERIALS AND METHODS: The medical records of 116 - DNA sample was available in 110 patients (102 nonrelated individuals) diagnosed with PKU in Latvia were obtained. Phe concentrations were measured in dried blood spots. Genomic DNA was analyzed for pathogenic variants in the PAH gene. Biochemical data were available through follow-up visits of the 83 patients. RESULTS: In 97% of patients (99 of 102), pathogenic variants were detected on both alleles. With an occurrence of 69.6%%, the most common pathogenic variant was the severe pathogenic variant p.Arg408Trp. The available data for 83 patients revealed that metabolic control was better in younger age groups and worse in adults. CONCLUSION: Latvia exhibits a relatively homogeneous pool of disease-causing PKU alleles with a high prevalence of the classical severe form of PKU. Dietary compliance in all patients' groups is lower than expected, especially it is poor in adult age group.

From clinical and biochemical to molecular genetic diagnosis of Wilson disease in Latvia.

Wilson disease (WD) is an autosomal recessive disorder of copper metabolism characterized by hepatic and/or neurological damage. More than 300 mutations in the gene ATP7B causing this defect have been reported. The data on correlation between WD patient genotypes and clinical presentation are controversial. In this paper the results of ATP7B mutation analysis by testing for mutation H1069Q and direct sequencing of six exons together with the clinical data of 40 Latvian WD patients are presented. Two previously described and two novel mutations as well as one previously reported polymorphism were identified. The H1069Q mutation was present at 52.5% of the disease alleles. One individual among 157 healthy Latvians was also found to be a mutation H1069Q carrier. The estimated incidence of WD in Latvia is approximately 1 in 25600. Wide clinical variability was observed among individuals with the same ATP7B genotype, thus supporting the suggestion that modifying factors play an additional role in the pathogenesis of WD. An algorithm for the diagnosis of WD, including testing for mutation H1069Q, is recommended for the populations where mutation H1069Q accounts for 50% of WD alleles or more.

Whole Xp Deletion in a Girl with Mental Retardation, Epilepsy, and Biochemical Features of OTC Deficiency.

Background: Females with a total or partial deletion of the short arm of the X chromosome have variable features of Turner syndrome, but mental retardation (MR) rarely occurs. The haploinsufficiency of deleted genes that escape X-inactivation may explain the occurrence of MR and autism. Ornithine transcarbamylase (OTC) deficiency is the most common urea cycle disorder and is inherited in an X-linked semi-dominant trait, and the OTC gene maps to Xp21. Methods: We report on a girl with MR, epilepsy and biochemical changes characteristic of OTC deficiency but no identifiable point mutation in the OTC gene. Standard G-banding cytogenetic analysis, whole genome karyotyping, and X-inactivation studies were performed to determine the genetic etiology of the OTC deficiency in the patient. Results: Cytogenetic analysis and molecular karyotyping using SNP array revealed a deletion of the whole short arm of the X chromosome (Xp22.33-p11.1). Inactivation studies also revealed a completely skewed X-inactivation. Conclusion: Our patient presented with MR, epilepsy, and some evidence of reduced OTC activity, but performed genetic studies gave no explanation for this phenotype. We hope that this case report contributes to the understanding of the underlying genetic factors of the manifestation of X-linked disorders in female patients.