We report on a male patient who was investigated for frequent apneic episodes, feeding problems, hypotonia, and left-sided middle cerebral artery infarction in the magnetic resonance imaging at 2 weeks of age. Primary diagnosis of dihydropyrimidinase (DPYS) deficiency was suspected following the analysis of urine for organic acid; DPYS deficiency was strongly suggested by the presence of dihydrouracil, thymine, and uracil. Subsequent genetic evaluation by whole exome sequencing revealed 2 separate mutations, homozygous pathogenic variant c.1010T>C p.Leu337Pro of the DPYS gene, resulting in DPYS deficiency, and homozygous pathogenic variant c.535C>T p.Arg179* of TBX19 gene, which is associated with autosomal recessive congenital isolated adrenocorticotrophic hormone deficiency. Currently, the patient is 2 years old, and he has gross motor retardation and seizure disorder. We suggest that the clinical phenotype of the proband can be a result of mixed expression of both mutations.

OBJECTIVE: Dihydropyrimidinase deficiency is a rare autosomal recessive disorder of the pyrimidine degradation pathway, with fewer than 40 patients published. Clinical findings are variable and some patients may remain asymptomatic. Global developmental delay and increased susceptibility to 5-fluorouracil are commonly reported. Here we present atrioventricular septal defect as a novel feature in dihydropyrimidinase deficiency.
METHODS: A four-year-old male with global developmental delay, dysmorphic facies, autistic features and a history of seizures was diagnosed with dihydropyrimidinase deficiency based on strikingly elevated urinary dihydrouracil and dihydrothymine and a homozygous pathogenic nonsense variant in DPYS gene. He had a history of complete atrioventricular septal defect corrected surgically in infancy.
CONCLUSIONS: This is the second report of congenital heart disease in dihydropyrimidinase deficiency, following a single patient with a ventricular septal defect. The rarity of the disease and the variability of the reported findings make it difficult to describe a disease-specific clinical phenotype. The mechanism of neurological and other systemic findings is unclear. Dihydropyrimidinase deficiency should be considered in patients with microcephaly, developmental delay, epilepsy and autistic traits. We suggest that congenital heart disease may also be a rare phenotypic feature.

Inborn errors of pyrimidine metabolism result from deficiencies in pyrimidine de novo synthesis, degradation, and salvage pathways. Enzymatic deficiencies in pyrimidine catabolism lead to mitochondrial neurogastrointestinal encephalopathy (MNGIE), pyrimidinuria, dihydropyrimidinuria, ureidopropionic aciduria, and other disorders. While MNGIE presents with gastrointestinal dysmotility, cachexia and leukoencephalopathy, pyrimidinuria, and dihydropyrimidinuria may show symptoms of epilepsy, autism, mental retardation, and dysmorphic features. The application of HPLC-MS/MS facilitates rapid screening of pyrimidine metabolites. Here we describe a sensitive and reliable LC-MS/MS method for quantitative determination of uracil, thymine, thymidine, dihydrouracil, and dihydrothymine in urine that are diagnostic biomarkers of MNGIE, pyrimidinuria, and dihydropyrimidinuria.

Pyrimidine diseases result from deficiencies in pyrimidine de novo synthesis, degradation, and salvage pathways. Enzymatic deficiencies in pyrimidine catabolism lead to mitochondrial neurogastrointestinal encephalopathy (MNGIE), pyrimidinuria, dihydropyrimidinuria, ureidopropionic aciduria, and other disorders. While MNGIE presents with gastrointestinal dysmotility, cachexia, and leukoencephalopathy, pyrimidinuria and dihydropyrimidinuria may show symptoms of epilepsy, autism, mental retardation, and dysmorphic features. The application of HPLC-MS/MS facilitates rapid screening of pyrimidine metabolites. Here we describe an LCMS method for determination of uracil, thymine, thymidine, dihydrouracil, and dihydrothymine that are diagnostic biomarkers of MNGIE, pyrimidinuria, and dihydropyrimidinuria.