Tuula Lönnqvist

Infantile-onset spinocerebellar ataxia and mitochondrial recessive ataxia syndrome are associated with neuronal complex I defect and mtDNA depletion

Infantile-onset spinocerebellar ataxia (IOSCA) is a severe neurodegenerative disorder caused by the recessive mutation in PEO1, leading to an Y508C change in the mitochondrial helicase Twinkle, in its helicase domain. However, no mitochondrial dysfunction has been found in this disease. We studied here the consequences of IOSCA for the central nervous system, as well as the in vitro performance of the IOSCA mutant protein. The results of the mtDNA analyses were compared to findings in a similar juvenile or adult-onset ataxia syndrome, mitochondrial recessive ataxia syndrome (MIRAS), caused by the W748S mutation in the mitochondrial DNA polymerase (POLG). We show here that IOSCA brain does not harbor mtDNA deletions or increased amount of mtDNA point mutations, whereas MIRAS brain shows multiple deletions of mtDNA. However, IOSCA, and to a lesser extent also MIRAS, show mtDNA depletion in the brain and the liver. In both diseases, especially large neurons show respiratory chain complex I (CI) deficiency, but also CIV is decreased in IOSCA. Helicase activity, hexamerization and nucleoid structure of the IOSCA mutant were, however, unaffected. The lack of in vitro helicase defect or cell culture phenotype suggest that Twinkle-Y508C dysfunction affects mtDNA maintenance in a highly context and cell-type specific manner. Our results indicate that IOSCA is a new member of the mitochondrial DNA depletion syndromes.

Characterization of ATM mutations in 41 Nordic families with Ataxia Telangiectasia

The Ataxia Telangiectasia Mutation (ATM) gene is mutated in the rare recessive syndrome Ataxia Telangiectasia (AT), which is characterized by cerebellar degeneration, immunodeficiency, and cancer predisposition. In this study, 41 AT families from Denmark, Finland, Norway, and Sweden were screened for ATM mutations. The protein truncation test (PTT), fragment length and heteroduplex analyses of large (0.8–1.2 kb) cDNA fragments were used. In total, 67 of 82 (82%) of the disease‐causing alleles were characterized. Thirty‐seven unique mutations were detected of which 25 have not previously been reported. The mutations had five different consequences for the ATM transcript: mutations affecting splicing (43%); frameshift mutations (32%); nonsense mutations (16%); small in‐frame deletions (5%); and one double substitution (3%). In 28 of the probands mutations were found in both alleles, in 11 of the probands only one mutated allele was detected, and no mutations were detected in two Finnish probands. One‐third of the probands (13) were homozygous, whereas the majority of the probands (26) were compound heterozygote with at least one identified allele. Ten alleles were found more than once; one Norwegian founder mutation constituted 57% of the Norwegian alleles. Several sequence variants were identified, none of them likely to be disease‐causing. Some of them even involved partial skipping of exons, leading to subsequent truncation of the ATM protein. Hum Mutat 16:232–246, 2000.

Manifestation, Management and Molecular Analysis of Candidate Genes in Two Rare Cases of Thyrotoxic Hypokalemic Periodic Paralysis

Background: Hypokalemic periodic paralysis as a complication of thyrotoxicosis (THypoKPP) is common in Asians but not well recognized in Western countries or pediatric patients, where most cases are due to the familial variant (FHypoKPP). Ion channel gene mutations may underlie these diseases. We describe the first pediatric and a rare adult Caucasian case of THypoKPP in Finland. Methods: Manifestation and management of two THypoKPP cases. We studied for possible mutations in KCNE3, KCNJ2, SCN4A and CACNA1S genes. Results: A 15-year-old Vietnamese boy presented with sudden-onset paralysis and severe hypokalemia, 1.8 mmol/l. The case was first regarded as FHypoKPP, but thyroid function testing revealed a suppressed TSH and highly elevated FT4. A 37-year-old Caucasian male presented with acute tetraparesis. His plasma potassium was only 1.4 mmol/l. Treatment with carbimazole had been initiated two weeks earlier, but FT4 was still elevated. No mutations in KCNE3, KCNJ2, SCN4A or CACNA1S genes were detected. Conclusions: THypoKPP is a potentially life-threatening condition which bares many similarities with FHypoKPP. THypoKPP is rare in Western countries but should be considered in sudden-onset paralysis, independently of age and especially in males. Mutations in ion channel candidate genes did not underlie the disease in the present cases.

18q deletions : Clinical, molecular, and brain MRI findings of 14 individuals

We studied 14 individuals with partial deletions of the long arm of chromosome 18, including terminal and interstitial de novo and inherited deletions. Study participants were examined clinically and by brain MRI. The size of the deletion was determined by segregation analysis using microsatellite markers. We observed that the phenotype was highly variable, even in two families with three 1st degree relatives. Among the 14 individuals, general intelligence varied from normal to severe mental retardation. The more common features of 18q‐deletions (e.g., foot deformities, aural atresia, palatal abnormalities, dysmyelination, and nystagmus) were present in individuals lacking only the distal portion 18q22.3‐qtel. Interstitial deletions exerted very heterogeneous effects on phenotype. In individuals with distal 18q22.3‐q23 deletions, brain MRI was very distinctive with poor differentiation of gray and white matter on T2‐weighted images.

Five new cases of a recently described leukoencephalopathy with high brain lactate

Background: A new leukoencephalopathy with brainstem and spinal cord involvement and high brain lactate was recently defined. The authors describe five new patients with this entity. Methods: Brain MRI was performed in all patients and spinal MRI and proton magnetic resonance spectroscopy (1H-MRS) in four patients. Laboratory examinations ruled out classic leukodystrophies. Results: MRI showed signal abnormalities in the periventricular and deep white matter, in the pyramidal tracts, mesencephalic trigeminal tracts, in the cerebellar connections, and in dorsal columns of the spinal cord. MRS showed decreased N-acetylaspartate and increased lactate in the white matter of all patients. In one patient choline-containing compounds were elevated. A slowly progressive sensory ataxia and tremor manifested at the age of 3 to 16 years and distal spasticity in adolescence. One 13-year-old patient was asymptomatic. Conclusions: A slowly progressive sensory ataxia is a typical feature in this new leukodystrophy. MRS favors a primary axonal degeneration.

Infantile onset spinocerebellar ataxia with sensory neuropathy (IOSCA): neuropathological features

Infantile onset spinocerebellar ataxia (IOSCA, MIM 271245) is a recessively inherited, progressive neurological disease, which we have described in 19 Finnish patients. The clinical symptoms of IOSCA include ataxia, athetosis, hypotonia, hearing deficit, ophthalmoplegia, sensory neuropathy, female hypogonadism, and epilepsy as a late manifestation. We have mapped the IOSCA locus to 10q24. In our two autopsy cases of IOSCA, the neuropathological findings were almost uniform. The cerebral hemispheres were quite well preserved, but the brain stem and the cerebellum were moderately atrophic. The most severe atrophic changes were seen in the spinal cord: in the dorsal roots, the posterior columns and the posterior spinocerebellar tracts. There was a severe neuronal loss in the dorsal nucleus (Clarkes column) of both cases and slight atrophy of the intermediolateral column in one case. The cerebellar peduncles, the inferior olives, the accessory cuneate nuclei and especially the dentate nuclei were atrophic and gliotic. The eighth cranial nerve and nucleus were atrophic. The ventral pontine nuclei and transverse fibers were slightly affected. Tegmental nuclei and tracts, especially sensory structures, were more severely affected. In mesencephalon, there was atrophy of the oculomotor nuclear complex and periaqueductal gray matter. The cerebellar cortex showed patchy atrophy. Degenerative changes were seen in dorsal root ganglia, and there was a severe axonal loss in the sural nerve. The neuropathological picture of IOSCA thus seems close to that reported in Friedreichs ataxia, another recessively inherited usually childhood-onset ataxia.

Peritoneal dialysis in children under two years of age

BACKGROUND Although results of peritoneal dialysis (PD) in small children have improved during recent years, the youngest children have poorer growth, more infections and higher mortality than do older children. METHODS In this retrospective study, we analysed patient records of all children under age 2 treated with continuous peritoneal dialysis (CPD) between 1995 and 2000 in Finland. Diagnoses leading to renal failure in these 23 children were congenital nephrotic syndrome of the Finnish type (13), polycystic kidney disease (4), a urethral valve (3), renal insufficiency due to neonatal asphyxia (2) and Prune-Belly syndrome (1). Of these 23, 17 (74%) were anuric. RESULTS The mean age at the onset of PD was 0.4 years and the mean time on dialysis 1.4 years. Hernias were diagnosed in 57%. The peritonitis rate was 1:14.5 patient-months, and 30% were peritonitis-free. Hypertension was common, and 70% had at least one period on antihypertensive medication. None of the patients had pulmonary oedema or dialysis-related seizures. The mean height standard deviation score (hSDS) at the start of PD (n = 16) was -2.0 and after 9 months -1.6. Catch-up growth was documented in 64% of the patients during dialysis. Hospitalization time was 124 days/patient-year. Two patients (9%) died. CONCLUSIONS Our results are reassuring. Mortality was low, laboratory parameters were acceptable and growth was good. Peritonitis rate was comparable to that in older children. Correction of inguinal hernia should be routinely performed; high blood pressure is still a problem.

Neurodevelopmental Burden at Age 5 Years in Patients With Univentricular Heart

BACKGROUND: Despite increasing survival, patients with hypoplastic left heart syndrome (HLHS) and other forms of functionally univentricular heart defects (UVHs) remain at increased risk of long-term neurodevelopmental deficits. METHODS: A nationwide sample of 23 patients with HLHS, 13 with UVH, and 40 controls were followed prospectively until the age of 5 years, when neurologic, neuropsychological, and motor examinations and brain MRI were performed. RESULTS: The median full-scale IQ was significantly lower in patients with HLHS (97, P < .001) and patients with UVH (112, P = .024) compared with controls (121). Major neurodevelopmental impairment was found in 26% of the patients with HLHS and 23% of those with UVH, and minor neurologic dysfunction was found in 43% and 46%, respectively. MRI revealed abnormalities, mostly ischemic changes of different degrees, in 82% of the patients with HLHS and in 56% of those with UVH. Prominent changes were significantly associated with neurodevelopmental findings and parental reports of adaptive behavior. In linear regression, significant risk factors for a worse outcome were a history of clinical seizures in connection with the primary operation, a lower diameter of the neonatal ascending aorta, and several pre-, peri-, and postoperative factors related to the primary and bidirectional Glenn operations. CONCLUSIONS: Although median cognitive performance was within the normal range, neurodevelopmental and brain MRI abnormalities were found in the majority of the patients with UVH, and especially in those with HLHS, at preschool age. Both a narrowed ascending aorta and operation-related factors contributed to these findings.

Selenoprotein biosynthesis defect causes progressive encephalopathy with elevated lactate

Objective: We aimed to decipher the molecular genetic basis of disease in a cohort of children with a uniform clinical presentation of neonatal irritability, spastic or dystonic quadriplegia, virtually absent psychomotor development, axonal neuropathy, and elevated blood/CSF lactate. Methods: We performed whole-exome sequencing of blood DNA from the index patients. Detected compound heterozygous mutations were confirmed by Sanger sequencing. Structural predictions and a bacterial activity assay were performed to evaluate the functional consequences of the mutations. Mass spectrometry, Western blotting, and protein oxidation detection were used to analyze the effects of selenoprotein deficiency. Results: Neuropathology indicated laminar necrosis and severe loss of myelin, with neuron loss and astrogliosis. In 3 families, we identified a missense (p.Thr325Ser) and a nonsense (p.Tyr429*) mutation in SEPSECS, encoding the O-phosphoseryl-tRNA:selenocysteinyl-tRNA synthase, which was previously associated with progressive cerebellocerebral atrophy. We show that the mutations do not completely abolish the activity of SEPSECS, but lead to decreased selenoprotein levels, with demonstrated increase in oxidative protein damage in the patient brain. Conclusions: These results extend the phenotypes caused by defective selenocysteine biosynthesis, and suggest SEPSECS as a candidate gene for progressive encephalopathies with lactate elevation.

A case of Salla disease with involvement of the cerebellar white matter.

Salla disease (SD) is a lysosomal disorder manifesting in infancy with hypotonia, nystagmus, ataxia and retarded motor development. MRI typically shows hypomyelination confined to the cerebral white matter. We describe a patient with two MRI studies in addition to repeated urine examinations. This case was problematic because the first urine examination did not show the elevation of free sialic acid typical of SD and MRI was also atypical, with abnormal signal intensity in cerebellar white matter. We recommend repeated urinary examinations and a search for SLC17A5 mutations in patients with cerebral signal intensity abnormalities typical of SD and emphasise that cerebellar white-matter involvement on MRI does not exclude the diagnosis.