Two cases of MEGDHEL syndrome diagnosed with hyperammonemia.

OBJECTIVES: MEGDHEL [3-methylglutaconic aciduria (MEG), deafness (D), hepatopathy (H), encephalopathy (E), and Leigh-like disease (L)] syndrome is an autosomal recessive disorder caused by mutations in the serine active site-containing protein 1 (SERAC1) gene. MEGDHEL syndrome is clinically characterized by sensorineural hearing loss, encephalopathy, hepatopathy, 3-methylglutaconic aciduria, and Leigh-like lesions on cranial magnetic resonance imaging. During the neonatal period, it has been reported to present with hypoglycemia, hyperammonemia, impaired liver functions, cholestasis, metabolic acidosis, and sepsis-like clinical findings. However, clinical findings in the neonatal period were reported as a result of the retrospective evaluation of patients diagnosed at an older age. Herein we reported two cases diagnosed as MEGDHEL syndrome during neonatal period in two different clinics with sepsis-like findings, impaired liver functions, and ammonia levels high enough to require dialysis. CASE PRESENTATION: One of the cases was born 37 weeks of gestation with a birth weight of 2,060 g and initially presented with respiratory distress and feeding difficulties. The other case admitted to the neonatal intensive care unit had fed problems together with respiratory distress and circulatory failure within the first 24 h after initiation of parenteral nutrition. CONCLUSIONS: MEGDHEL syndrome should be suspected in patients with sepsis-like clinical features and hyperammonemia.

SURF1 related Leigh syndrome: Clinical and molecular findings of 16 patients from Turkey.

INTRODUCTION: Pathogenic variants in SURF1, a nuclear-encoded gene encoding a mitochondrial chaperone involved in COX assembly, are one of the most common causes of Leigh syndrome (LS). MATERIAL-METHODS: Sixteen patients diagnosed to have SURF1-related LS between 2012 and 2020 were included in the study. Their clinical, biochemical and molecular findings were recorded. 10/16 patients were diagnosed using whole-exome sequencing (WES), 4/16 by Sanger sequencing of SURF1, 1/16 via targeted exome sequencing and 1/16 patient with whole-genome sequencing (WGS). The pathogenicity of SURF1 variants was evaluated by phylogenetic studies and modelling on the 3D structure of the SURF1 protein. RESULTS: We identified 16 patients from 14 unrelated families who were either homozygous or compound heterozygous for SURF1 pathogenic variants. Nine different SURF1 variants were detected The c.769G > A was the most common variant with an allelic frequency of 42.8% (12/28), c.870dupT [(p.Lys291*); (8/28 28.5%)], c.169delG [(p.Glu57Lysfs*15), (2/24; 7.1%)], c.532 T > A [(p.Tyr178Asn); (2/28, 7.1%)], c.653_654delCT [(p.Pro218Argfs*29); (4/28, 14.2%)] c.595_597delGGA [(p.Gly199del); (1/28, 3.5%)], c.751 + 1G > A (2/28, 4.1%), c.356C > T [(p.Pro119Leu); (2/28, 3.5%)] were the other detected variants. Two pathogenic variants, C.595_597delGGA and c.356C > T, were detected for the first time. The c.769 G > A variant detected in 6 patients from 5 families was evaluated in terms of phenotype-genotype correlation. There was no definite genotype - phenotype correlation. CONCLUSIONS: To date, more than 120 patients of LS with SURF1 pathogenic variants have been reported. We shared the clinical, molecular data and natural course of 16 new SURF1 defect patients from our country. This study is the first comprehensive research from Turkey that provides information about disease-causing variants in the SURF1 gene. The identification of common variants and phenotype of the SURF1 gene is important for understanding SURF1 related LS. SYNOPSIS: SURF1 gene defects are one of the most important causes of LS; patients have a homogeneous clinical and biochemical phenotype.

Clinical findings in five Turkish patients with citrin deficiency and identification of a novel mutation on SLC25A13.

Background Citrin deficiency (CD) is an autosomal recessive genetic disorder caused by a defect in the mitochondrial aspartate/glutamate antiporter, citrin. Three clinical manifestations have been described until today. Case presentation We reported 5 CD patients from two families. Four patients were male and one patient was female. Two of them have NICCD (neonatal intrahepatic cholestasis caused by citrin deficiency); three of them have CTLN2 (adult-onset type II citrullinemia). Both NICCD patients showed typical clinical and biochemical changes with a diagnosis confirmed by mutations in the SLC25A13 gene. We detected a previously unreported homozygous novel mutation c.478delC (L160Wfs*36 ) on the SLC25A13 gene. All of the CTLN2 patients were siblings. Proband was a 15-year-old mentally retarded and autistic male who had admitted to our emergency with disorientation. Laboratory data showed hyperammonemia and citrullinemia. Conclusions Two different profiles of age-related CD have been depicted with this article. It has been aimed to underline that the CD can be observed in different forms not only in neonatals or little infants but also in adolescents. This article is the first case series that covers both NICCD and CTLN2 cases together and that has been published in Turkey. Considering the fact that especially the majority of CTLN2 cases have been identified in Asian countries, our article has vital importance in terms of defining phenotypic features of the disease.

Coexistence of Gaucher Disease and severe congenital neutropenia.

Gaucher Disease (GD) is the most common lysosomal storage disorder has traditionally been classified into three clinical phenotypes. Type 3 GD is characterized by neurological involvement but neurological symptoms generally appear later in life than in type 2 disease. Neutropenia is much rarer than other hematological manifestations in GD and has not been scrutinized adequately. Severe congenital neutropenia (SCN) is a rare disease entity which is characterized by a paucity of peripherally circulating neutrophils with arrest of neutrophil maturation at the promyelocyte stage and consequent increased susceptibility to severe and recurrent infections. We report a patient who presented in the first year of life with visceral involvement and severe neutropenia in whom the propositus had a unique coexistence of Gaucher Disease and severe congenital neutropenia associated with a mutation in HAX1. In contrast to his expired siblings he had experienced no severe infections. These clinical observations suggest that enzyme replacement therapy may display a modulating factor with respect to the clinical course of SCN. SYNOPSIS: Our patient is the only report of the combination of Gaucher Disease and Kostmann Syndrome in the literature. The clinical course of our patient is not severe when comparing with exitus siblings and other Kostmann Syndrome patients. But when considering the patient's only clinical difference is ERT, this case is very important to emphasise the role of enzyme replacement therapy in bone marrow.

A Patient with MSUD: Acute Management with Sodium Phenylacetate/Sodium Benzoate and Sodium Phenylbutyrate.

In treatment of metabolic imbalances caused by maple syrup urine disease (MSUD), peritoneal dialysis, and hemofiltration, pharmacological treatments for elimination of toxic metabolites can be used in addition to basic dietary modifications. Therapy with sodium phenylacetate/benzoate or sodium phenylbutyrate (NaPB) in urea-cycle disorder cases has been associated with a reduction in branched-chain amino acid (BCAA) concentrations when the patients are on adequate dietary protein intake. Moreover, NaPB in treatment of MSUD patients is also associated with reduction of BCAA levels in a limited number of cases. However, there are not enough studies in the literature about application and efficacy of this treatment. Our case report sets an example of an alternative treatment's efficacy when extracorporeal procedures are not available due to technical difficulties during attack period of the disease.

A Different SLC2A1 Gene Mutation in Glut 1 Deficiency Syndrome: c.734A>C.

BACKGROUND: Glucose transporter type 1 deficiency syndrome is the result of impaired glucose transport into the brain. Patients with glucose transporter type 1 syndrome may present with infantile seizures, developmental delay, acquired microcephaly, spasticity and ataxia. CASE REPORT: Here, we report a rare case of glucose transporter type 1 deficiency syndrome caused by a different pathogenic variant in a 10-day-old neonate who presented with intractable seizures and respiratory arrest. CONCLUSION: This new pathogenic variant can be seen in glucose transporter type 1 deficiency syndrome.

One Year Experience of Pheburane(®) (Sodium Phenylbutyrate) Treatment in a Patient with Argininosuccinate Lyase Deficiency.

UNLABELLED: Argininosuccinate lyase deficiency (ASLD) is a urea cycle disorder (UCD) treated with dietary adjustment and nitrogen scavenging agents. "Pheburane(®)" is a new tasteless and odour-free formulation of sodium phenylbutyrate, indicated in the treatment of UCD.A male patient diagnosed with ASLD was put on treatment with the new formulation of sodium phenylbutyrate (granules) for a period of one year, at 500 mg/kg orally in 3 intakes/day. Plasma glutamine, arginine, citrulline, argininosuccinate, serum sodium, potassium, liver function tests and urine orotate all remained unchanged over this period. There was no difference in mean ammonia levels before and after treatment, and no hyperammonemia episode occurred during treatment with Pheburane(®). An improvement in a measurement of quality of life (QOL) was noted after treatment with Pheburane(®). CONCLUSION: Good metabolic control and improved QOL were achieved throughout the treatment period.