Cerebellar Ataxia and Peripheral Neuropathy in a Family With PNPLA8-Associated Disease.

Objectives: To describe clinical and genetic findings in 2 siblings with slowly progressive ataxia. Methods: We studied 2 adult siblings through detailed physical and instrumental examinations. Whole-exome sequencing was used to identify an underlying genetic cause. Results: Both siblings presented with adolescence-onset ataxia, progressive sensorimotor polyneuropathy, and preserved cognition over time. The onset of symptoms was between 10 and 14 years of age. A brain MRI demonstrated mild cerebellar atrophy in the older brother at age 45 years. Exome sequencing revealed compound heterozygous loss-of-function variants c.2269del (p.(Thr757GlnfsTer10)) and c.2275_2276del (p.(Leu759AlafsTer4)) in PNPLA8. The novel variant c.2269del results in frameshift with a premature stop codon p.(Thr757GlnfsTer10) and loss of normal enzyme function. Discussion: Our findings support the theory that biallelic loss-of-function PNPLA8 variants are involved in neurodegenerative mitochondrial disease. Compared with patients previously described, these patients' phenotype may be interpreted as a milder phenotype associated with a slight progression of ataxia throughout adulthood.

Complete mtDNA sequencing reveals mutations m.9185T>C and m.13513G>A in three patients with Leigh syndrome.

The most common mitochondrial disorder in children is Leigh syndrome, which is a progressive and genetically heterogeneous neurodegenerative disorder caused by mutations in nuclear genes or mitochondrial DNA (mtDNA). In the present study, a novel and robust method of complete mtDNA sequencing, which allows amplification of the whole mitochondrial genome, was tested. Complete mtDNA sequencing was performed in a cohort of patients with suspected mitochondrial mutations. Patients from Latvia and Lithuania (n = 92 and n = 57, respectively) referred by clinical geneticists were included. The de novo point mutations m.9185T>C and m.13513G>A, respectively, were detected in two patients with lactic acidosis and neurodegenerative lesions. In one patient with neurodegenerative lesions, the mutation m.9185T>C was identified. These mutations are associated with Leigh syndrome. The present data suggest that full-length mtDNA sequencing is recommended as a supplement to nuclear gene testing and enzymatic assays to enhance mitochondrial disease diagnostics.

A rare case of unprovoked venous thromboembolism manifestation in a young patient with antithrombin Type IIB deficiency combined with inferior vena cava anomaly from Lithuania.

Hereditary antithrombin (AT) deficiency is an autosomal-dominant disorder predisposing to venous and arterial thrombosis. Homozygosity resulting in severe AT deficiency is not compatible with life, apart from homozygous mutations affecting the heparin-binding site representing the most severe thrombophilia. PATIENTS AND METHODS: A 12-year-old previously healthy boy of Romani origin presented with a swollen, painful left leg and fever. Imaging revealed signs of inferior vena cava (IVC) thrombosis, the presence of interrupted intrahepatic IVC with azygos continuation and bilateral iliofemoral thrombosis with enlargement of the azygous and hemiazygos venous system. In addition, right pleural effusion and signs of bilateral renal pericortical cysts, possibly caused by retroperitoneal lymphangiectasia, were disclosed. Thrombophilia screening involving protein C, Protein S, Antithrombin (chromogenic assays based on the inhibition of FIIa and FXa, antigen concentration), APC resistance, prothrombin mutation and Lupus anticoagulants was performed using standard laboratory methods. Genetic analysis of the SERPINC1 gene was done by direct sequencing. RESULTS: Thrombophilia screening showed isolated decreased AT activity at 21% (RR 80-120%). AT levels were retested and remained decreased (33-36%) on two consecutive occasions. SERPINC1 gene analysis revealed a previously described homozygous mutation (Budapest III) causing type IIB deficiency (c.391C>T; p.Leu131Phe). A family study confirmed the same mutation in both parents and three siblings. The patient improved significantly following warfarin therapy and over the past 2.5 years did not experience new thromboembolism. CONCLUSIONS: This case represents a rare combination of two risk factors provoking manifestation of spontaneous venous thromboembolism at a young age requiring permanent anticoagulant therapy.

Macrovascular involvement in a child with atypical hemolytic uremic syndrome.

BACKGROUND: Atypical hemolytic uremic syndrome (aHUS) is a disorder of the complement system which leads to thrombotic microangiopathy. It is caused by either acquired or hereditary defects in the activation or regulation of the alternative complement pathway and is therefore considered to be a disease of local complement dysregulation in microvasculature with predominantly renal involvement. However, extrarenal manifestations are observed in approximately one-fifth of aHUS patients, with the myocardium and central nervous system (CNS) being involved most often. Additionally, there have been a few reports of aHUS with cerebral artery stenoses or periphereal gangrene, suggesting the possibility of 'macrovascular' involvement in aHUS. CASE-DIAGNOSIS/TREATMENT: We present a child with early onset aHUS and a C3 gain-of-function mutation who developed cerebral artery stenoses, leading ultimately to death due to a massive stroke 9 days after successful renal transplantation under prophylactic eculizumab treatment. Similar cases described in the literature are also briefly summarized. CONCLUSIONS: The disease course in our patient with aHUS confirms that dysregulated complement activation can induce arterial steno-occlusive lesions in the absence of acute episodes of HUS. Further studies are required to document the frequency of such macrovascular complications and the role of eculizumab treatment in preventing their development and progression.