Co-Occurring Atypical Galactosemia and Wilson Disease.

Introduction: Classic galactosemia is a disorder of the galactose metabolism and is inherited as an autosomal recessive disease. It is caused by a complete or severe deficiency of galactose-1-phosphate uridyltransferase (GALT), and in rare cases, atypical galactosemia can manifest at older ages. Wilson disease (WD) is a disorder of the copper metabolism that, like galactosemia, is inherited as an autosomal recessive disease. Hepatic, neurological, or psychiatric symptoms can be seen, independently or in combination, and symptoms vary from family to family. We present here a patient diagnosed with both WD and galactosemia. Case Presentation: A 6-year-old girl was referred to our center with elevated transaminase levels and hepatosplenomegaly. The child, birthweight of 2,200 g, was born to first-degree consanguineous parents after a full-term uneventful pregnancy and was hospitalized in the neonatal period due to indirect hyperbilirubinemia, gastrointestinal bleeding, diarrhea lasting 2 weeks, and elevated liver enzymes. Hepatosplenomegaly was evident at the time of admission, a cataract was detected, and a neuropsychiatric evaluation revealed borderline mental capacity, as well as cognitive and speech retardation. Metabolic investigations revealed no specific findings other than trace positivity of reducing substances in the urine. A liver biopsy revealed copper accumulation in hepatocytes and low ceruloplasmin levels. Although WD was suspected in the patient, this diagnosis did not explain the intellectual disability, behavioral disorder, or cataract findings. A genetic analysis revealed homozygous mutations in the ATP7B and GALT genes. The galactose-1-phosphate uridyltransferase enzyme level was found to be low, and the patient was diagnosed with coexisting WD and galactosemia. Conclusion: Coexistences of rare genetically transmitted diseases can be seen in countries where consanguineous marriages are common (Saudi Arabia, Iran, Pakistan, etc.), as in our country, Turkey.

A Novel PUS1 Mutation in 2 Siblings with MLASA Syndrome: A Review of the Literature.

ABSTRACT: Myopathy, lactic acidosis, and sideroblastic anemia (MLASA) is a rare mitochondrial disorder characterized by MLASA. Variable features of this condition include failure to thrive, and developmental delay or intellectual disability. Additional symptoms consist of cognitive impairment, skeletal and dental abnormalities, delayed motor milestones, cardiomyopathy, dysphagia, and respiratory insufficiency. MLASA has previously been associated with mutations in pseudouridylate synthase 1 (PUS1) and YARS2. PUS1 encodes the nuclear PUS1 enzyme, which is located in both the nucleus and the mitochondria. PUS1 converts uridine into pseudouridine in several cytosolic and mitochondrial transfer RNA positions and increases the efficiency of protein synthesis in both compartments.In the present report, we report on 2 Turkish sisters 4 and 11 of years with an MLASA plus phenotype. Both patients have sideroblastic anemia, lactic acidosis, failure to thrive, developmental delay, and chronic diarrhea; in addition, the older sister has strabismus and skeletal anomalies. The sequencing of the PUS1 gene revealed a novel homozygous p.Glu311* mutation. The phenotype of the older sibling is also unique because of the strabismus and skeletal anomalies, when compared with her sister and other previously reported patients with MLASA. The structural differences in the nuclear versus mitochondrial isoforms of PUS1 and modifier genes may be implicated in the variability of the clinical presentations in MLASA. CONCLUSION: This report adds to the growing number of mutations causing complex clinical manifestations of MLASA including lactic acidosis, sideroblastic anemia, chronic diarrhea, and myopathy.