Your search keyword '"Moilanen JS"' showing total 62 results

1. Epidemiology of the mitochondrial DNA 8344A>G mutation for the myoclonus epilepsy and ragged red fibres (MERRF) syndrome

Author

Remes, AM, Karppa, M, Rusanen, H, Majamaa, K, Moilanen, JS, Hassinen, IE, Uimonen, S, Sorri, M, Salmela, PI, and Karvonen, S-L

Subjects

Gene mutations -- Research -- Genetic aspects, Genetic disorders -- Research -- Genetic aspects, Lysine -- Genetic aspects -- Research, Epilepsy -- Genetic aspects -- Research, Mitochondrial DNA -- Abnormalities -- Research, Health, Psychology and mental health, Genetic aspects, Research, Abnormalities

Abstract

The myoclonus epilepsy and ragged red fibres (MERRF) syndrome is a maternally inherited progressive mitochondrial encephalomyopathy caused by a 8344A>G mutation in the MTTK gene that encodes mitochondrial tRNA for [...]

Published

2003

2. The phenotype of Floating-Harbor syndrome: clinical characterization of 52 individuals with mutations in exon 34 of SRCAP

Author

Nikkel, SM, Dauber, A, de Munnik, S, Connolly, M, Hood, RL, Caluseriu, O, Hurst, J, Kini, U, Nowaczyk, MJM, Afenjar, A, Albrecht, B, Allanson, JE, Balestri, P, Ben-Omran, T, Brancati, F, Cordeiro, I, da Cunha, BS, Delaney, LA, Destree, A, Fitzpatrick, D, Forzano, F, Ghali, N, Gillies, G, Harwood, K, Hendriks, YMC, Heron, D, Hoischen, A, Honey, EM, Hoefsloot, LH, Ibrahim, J, Jacob, CM, Kant, SG, Kim, CA, Kirk, EP, Knoers, NVAM, Lacombe, D, Lee, C, Lo, IFM, Lucas, LS, Mari, F, Mericq, V, Moilanen, JS, Moller, ST, Moortgat, S, Pilz, DT, Pope, K, Price, S, Renieri, A, Sa, J, Schoots, J, Silveira, EL, Simon, MEH, Slavotinek, A, Temple, IK, van der Burgt, I, de Vries, BBA, Weisfeld-Adams, JD, Whiteford, ML, Wierczorek, D, Wit, JM, Yee, CFO, Beaulieu, CL, White, SM, Bulman, DE, Bongers, E, Brunner, H, Feingold, M, Boycott, KM, Nikkel, SM, Dauber, A, de Munnik, S, Connolly, M, Hood, RL, Caluseriu, O, Hurst, J, Kini, U, Nowaczyk, MJM, Afenjar, A, Albrecht, B, Allanson, JE, Balestri, P, Ben-Omran, T, Brancati, F, Cordeiro, I, da Cunha, BS, Delaney, LA, Destree, A, Fitzpatrick, D, Forzano, F, Ghali, N, Gillies, G, Harwood, K, Hendriks, YMC, Heron, D, Hoischen, A, Honey, EM, Hoefsloot, LH, Ibrahim, J, Jacob, CM, Kant, SG, Kim, CA, Kirk, EP, Knoers, NVAM, Lacombe, D, Lee, C, Lo, IFM, Lucas, LS, Mari, F, Mericq, V, Moilanen, JS, Moller, ST, Moortgat, S, Pilz, DT, Pope, K, Price, S, Renieri, A, Sa, J, Schoots, J, Silveira, EL, Simon, MEH, Slavotinek, A, Temple, IK, van der Burgt, I, de Vries, BBA, Weisfeld-Adams, JD, Whiteford, ML, Wierczorek, D, Wit, JM, Yee, CFO, Beaulieu, CL, White, SM, Bulman, DE, Bongers, E, Brunner, H, Feingold, M, and Boycott, KM

Abstract

BACKGROUND: Floating-Harbor syndrome (FHS) is a rare condition characterized by short stature, delays in expressive language, and a distinctive facial appearance. Recently, heterozygous truncating mutations in SRCAP were determined to be disease-causing. With the availability of a DNA based confirmatory test, we set forth to define the clinical features of this syndrome. METHODS AND RESULTS: Clinical information on fifty-two individuals with SRCAP mutations was collected using standardized questionnaires. Twenty-four males and twenty-eight females were studied with ages ranging from 2 to 52 years. The facial phenotype and expressive language impairments were defining features within the group. Height measurements were typically between minus two and minus four standard deviations, with occipitofrontal circumferences usually within the average range. Thirty-three of the subjects (63%) had at least one major anomaly requiring medical intervention. We did not observe any specific phenotype-genotype correlations. CONCLUSIONS: This large cohort of individuals with molecularly confirmed FHS has allowed us to better delineate the clinical features of this rare but classic genetic syndrome, thereby facilitating the development of management protocols.

Published

2013

3. Prevalence of large-scale mitochondrial DNA deletions in an adult Finnish population.

Author

Remes AM, Majama-Voltti K, Kärppä M, Moilanen JS, Uimonen S, Helander H, Rusanen H, Salmela PI, Sorri M, Hassinen IE, and Majamaa K

Published

2005

4. Neurological manifestations in adult patients with the m.3243A>G variant in mitochondrial DNA.

Author

Majamaa K, Kärppä M, and Moilanen JS

Abstract

Background: The m.3243A>G variant in mitochondrial DNA (mtDNA) is the most common cause of the MELAS (Mitochondrial encephalopathy, lactic acidosis and stroke-like episodes) syndrome usually commencing in childhood or adolescence. In adults, the variant presents with versatile and mostly neurological phenotypes, but MELAS may not be common., Objective: To examine the frequency of phenotypes in adults with m.3243A>G in a population-based cohort and in a meta-analysis of reported case series., Methods: We clinically examined 51 adult patients with m.3243A>G to determine the frequency of phenotypes and to analyse the contribution of variant heteroplasmy, age, sex and mtDNA haplogroup to the phenotypes. The frequencies of neurological features were also assessed in a meta-analysis on 25 published case series reporting 1314 patients., Results: Sensorineural hearing impairment (HI), cognitive impairment and myopathy were the most common manifestations, whereas stroke-like episodes were infrequent. Variant heteroplasmy and age were only modest predictors of the phenotypes, although heteroplasmy correlated significantly with disability and Kaplan-Meier analysis showed progression of phenotypes with age. Male sex predicted more severe disability, whereas haplogroup UK was associated with no significant disability. Meta-analysis revealed substantial heterogeneity of phenotype frequencies and preferential inclusion of the MELAS phenotype., Discussion: In adult patients with m.3243A>G sensorineural HI, cognitive impairment and myopathy are common manifestations with lifetime prevalences approaching unity. Stroke-like episodes are rare. Variant heteroplasmy, age, sex and mtDNA haplogroup contribute to the severity of the disease. Meta-analysis provided a solid estimate of the various neurological symptoms in adults with m.3243A>G., Competing Interests: None declared., (Copyright © Author(s) (or their employer(s)) 2024. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

5. Brain MRI findings in paediatric genetic disorders associated with white matter abnormalities.

Author

Oikarainen JH, Knuutinen OA, Kangas SM, Rahikkala EJ, Pokka TM, Moilanen JS, Hinttala RM, Vieira PM, Uusimaa JM, and Suo-Palosaari MH

Abstract

Aim: To describe the specific brain magnetic resonance imaging (MRI) patterns of the paediatric genetic disorders associated with white matter abnormalities in Northern Finland., Method: In this retrospective population-based longitudinal study, brain MRI scans accumulated from 1990 to 2019 at Oulu University Hospital, Finland, were assessed. Inclusion criteria were defined as leukodystrophies or genetic diseases with significant white matter abnormalities that did not meet the criteria for leukodystrophy, at least one brain MRI, and age under 18 years at diagnosis., Results: A total of 83 patients (48 males, 35 females) were found with 52 different diseases. The median age at the time of the brain MRI was 22 months (interquartile range [IQR] = 46 months). In 72 (87%) of the children, brain MRIs revealed abnormal findings, including cerebral white matter abnormalities (n = 49, 59%), brainstem signal abnormalities (n = 28, 34%), thinning of the corpus callosum (n = 30, 36%), delayed myelination (n = 11, 13%), and permanent hypomyelination (n = 9, 11%)., Interpretation: Symmetrical and bilateral white matter signal patterns of the brain MRI should raise suspicion of genetic disorders when the clinical symptoms are compatible. This study illustrates brain imaging patterns of childhood-onset genetic disorders in a population in Northern Finland and improves the diagnostic accuracy of rare genetic disorders., (© 2024 The Author(s). Developmental Medicine & Child Neurology published by John Wiley & Sons Ltd on behalf of Mac Keith Press.)

Published

2024

6. Clinical, radiological and histopathological features of patients with familial pulmonary fibrosis.

Author

Jaula H, Mattila L, Lappi-Blanco E, Salonen J, Vähänikkilä H, Ahvenjärvi L, Moilanen JS, Kuismin O, Harju T, and Kaarteenaho R

Subjects

Humans, Male, Female, Middle Aged, Retrospective Studies, Aged, Cohort Studies, Lung pathology, Lung diagnostic imaging, Tomography, X-Ray Computed methods, Idiopathic Pulmonary Fibrosis diagnostic imaging, Idiopathic Pulmonary Fibrosis pathology, Idiopathic Pulmonary Fibrosis epidemiology, Idiopathic Pulmonary Fibrosis genetics

Abstract

Background: In familial pulmonary fibrosis (FPF) at least two biological relatives are affected. Patients with FPF have diverse clinical features., Research Question: We aimed to characterize demographic and clinical features, re-evaluate high-resolution computed tomography (HRCT) scans and histopathology of surgical lung biopsies, assess survival and investigate the suitability of risk prediction models for FPF patients., Study Design: A retrospective cohort study., Methods: FPF data (n = 68) were collected from the medical records of Oulu University Hospital (OUH) and Oulaskangas District Hospital between 1 Jan 2000 and 11 Jan 2023. The inclusion criterion was pulmonary fibrosis (PF) (ICD 10-code J84.X) and at least one self-reported relative with PF. Clinical information was gathered from hospital medical records. HRCT scans and histology were re-evaluated., Results: Thirty-seven (54.4%) of the patients were men, and 31 (45.6%) were women. The mean ages of the women and men were 68.6 and 61.7 years, respectively (p = 0.003). Thirty-seven (54.4%) patients were nonsmokers. The most common radiological patterns were usual interstitial pneumonia (UIP) (51/75.0%), unclassifiable (8/11.8%) and nonspecific interstitial pneumonia (NSIP) (3/4.4%). Pleuroparenchymal fibroelastosis (PPFE) was observed as a single or combined pattern in 13.2% of the patients. According to the 2022 guidelines for idiopathic pulmonary fibrosis (IPF), the patients were categorized as UIP (31/45.6%), probable UIP (20/29.4%), indeterminate for UIP (7/10.3%) or alternative diagnosis (10/14.7%). The histopathological patterns were UIP (7/41.2%), probable UIP (1/5.9%), indeterminate for UIP (8/47.2%) and alternative diagnosis (1/5.9%). Rare genetic variants were found in 9 patients; these included telomerase reverse transcriptase (TERT, n = 6), telomerase RNA component (TERC, n = 2) and regulator of telomere elongation helicase 1 (RTEL1, n = 1). Half of the patients died (n = 29) or underwent lung transplantation (n = 5), with a median survival of 39.9 months. The risk prediction models composite physiology index (CPI), hazard ratio (HR) 1.07 (95.0% CI 1.04-1.10), and gender-age-physiology index (GAP) stage I predicted survival statistically significantly (p<0.001) compared to combined stages II and III., Conclusions: This study confirmed the results of earlier studies showing that FPF patients' radiological and histopathological patterns are diverse. Moreover, radiological and histological features revealed unusual patterns and their combinations., (© 2024. The Author(s).)

Published

2024

7. Evidence for the additivity of rare and common variant burden throughout the spectrum of intellectual disability.

Author

Urpa L, Kurki MI, Rahikkala E, Hämäläinen E, Salomaa V, Suvisaari J, Keski-Filppula R, Rauhala M, Korpi-Heikkilä S, Komulainen-Ebrahim J, Helander H, Vieira P, Uusimaa J, Moilanen JS, Körkkö J, Singh T, Kuismin O, Pietiläinen O, Palotie A, and Daly MJ

Subjects

Humans, Male, Female, Finland, Adult, Genetic Variation, Intellectual Disability genetics, Intellectual Disability pathology

Abstract

Intellectual disability (ID) is a common disorder, yet there is a wide spectrum of impairment from mild to profoundly affected individuals. Mild ID is seen as the low extreme of the general distribution of intelligence, while severe ID is often seen as a monogenic disorder caused by rare, pathogenic, highly penetrant variants. To investigate the genetic factors influencing mild and severe ID, we evaluated rare and common variation in the Northern Finland Intellectual Disability cohort (n = 1096 ID patients), a cohort with a high percentage of mild ID (n = 550) and from a population bottleneck enriched in rare, damaging variation. Despite this enrichment, we found only a small percentage of ID was due to recessive Finnish-enriched variants (0.5%). A larger proportion was linked to dominant variation, with a significant burden of rare, damaging variation in both mild and severe ID. This rare variant burden was enriched in more severe ID (p = 2.4e-4), patients without a relative with ID (p = 4.76e-4), and in those with features associated with monogenic disorders. We also found a significant burden of common variants associated with decreased cognitive function, with no difference between mild and more severe ID. When we included common and rare variants in a joint model, the rare and common variants had additive effects in both mild and severe ID. A multimodel inference approach also found that common and rare variants together best explained ID status (ΔAIC = 16.8, ΔBIC = 10.2). Overall, we report evidence for the additivity of rare and common variant burden throughout the spectrum of intellectual disability., (© 2024. The Author(s).)

Published

2024

8. Clinical and Genetic Characteristics of Finnish Patients with Autosomal Recessive and Dominant Non-Syndromic Hearing Loss Due to Pathogenic TMC1 Variants.

Author

Kraatari-Tiri M, Haanpää MK, Willberg T, Pohjola P, Keski-Filppula R, Kuismin O, Moilanen JS, Häkli S, and Rahikkala E

Abstract

Sensorineural hearing loss (SNHL) is one of the most common sensory deficits worldwide, and genetic factors contribute to at least 50−60% of the congenital hearing loss cases. The transmembrane channel-like protein 1 (TMC1) gene has been linked to autosomal recessive (DFNB7/11) and autosomal dominant (DFNA36) non-syndromic hearing loss, and it is a relatively common genetic cause of SNHL. Here, we report eight Finnish families with 11 affected family members with either recessively inherited homozygous or compound heterozygous TMC1 variants associated with congenital moderate-to-profound hearing loss, or a dominantly inherited heterozygous TMC1 variant associated with postlingual progressive hearing loss. We show that the TMC1 c.1534C>T, p.(Arg512*) variant is likely a founder variant that is enriched in the Finnish population. We describe a novel recessive disease-causing TMC1 c.968A>G, p.(Tyr323Cys) variant. We also show that individuals in this cohort who were diagnosed early and received timely hearing rehabilitation with hearing aids and cochlear implants (CI) have reached good speech perception in noise. Comparison of the genetic data with the outcome of CI rehabilitation increases our understanding of the extent to which underlying pathogenic gene variants explain the differences in CI rehabilitation outcomes.

Published

2022

9. Epidemiological, clinical, and genetic characteristics of paediatric genetic white matter disorders in Northern Finland.

Author

Knuutinen OA, Oikarainen JH, Suo-Palosaari MH, Kangas SM, Rahikkala EJ, Pokka TM, Moilanen JS, Hinttala RML, Vieira PM, and Uusimaa JM

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Finland epidemiology, Humans, Incidence, Infant, Infant, Newborn, Leukoencephalopathies diagnostic imaging, Leukoencephalopathies pathology, Longitudinal Studies, Magnetic Resonance Imaging, Male, Neurologic Examination, Pediatrics, Retrospective Studies, White Matter diagnostic imaging, Young Adult, Leukoencephalopathies epidemiology, Leukoencephalopathies genetics, White Matter pathology

Abstract

Aim: To examine the epidemiological, clinical, and genetic characteristics of paediatric patients with genetic white matter disorders (GWMDs) in Northern Finland., Method: A longitudinal population-based cohort study was conducted in the tertiary catchment area of Oulu University Hospital from 1990 to 2019. Patients were identified retrospectively by International Statistical Classification of Diseases and Related Health Problems codes in hospital records and prospectively by attending physicians. Inclusion criteria were children younger than 18 years with defined GWMDs or genetic disorders associated with white matter abnormalities (WMAs) on brain magnetic resonance imaging., Results: Eighty patients (mean age [SD] at the end of the study 11y [8y 6mo], range 0-35y; 45 males, 35 females) were diagnosed with a defined GWMD. The cumulative childhood incidence was 30 per 100 000 live births. Regarding those patients with 49 distinct GWMDs, 20% had classic leukodystrophies and 80% had genetic leukoencephalopathies. The most common leukodystrophies were cerebral adrenoleukodystrophy, Krabbe disease, and Salla disease. Additionally, 29 patients (36%) had genetic aetiologies not previously associated with brain WMAs or they had recently characterised GWMDs, including SAMD9L- and NHLRC2-related neurological disorders. Aetiology was mitochondrial in 21% of patients. The most common clinical findings were motor developmental delay, intellectual disability, hypotonia, and spasticity., Interpretation: The cumulative childhood incidence of childhood-onset GWMDs was higher than previously described. Comprehensive epidemiological and natural history data are needed before future clinical trials are undertaken. What this paper adds Forty-nine distinct genetic white matter disorders (GWMDs) were identified, with 20% of cases being classic leukodystrophies. The cumulative childhood incidence of GWMDs was higher than described previously. A considerable proportion (36%) of GWMDs were previously undefined or recently characterised GWMDs. Mitochondrial aetiology was more common (21%) than previously reported., (© 2021 The Authors. Developmental Medicine & Child Neurology published by John Wiley & Sons Ltd on behalf of Mac Keith Press.)

Published

2021

10. Analysis of functional variants in mitochondrial DNA of Finnish athletes.

Author

Kiiskilä J, Moilanen JS, Kytövuori L, Niemi AK, and Majamaa K

Subjects

Finland, Oxidative Phosphorylation, Athletes, DNA, Mitochondrial chemistry, Mutation

Abstract

Background: We have previously reported on paucity of mitochondrial DNA (mtDNA) haplogroups J and K among Finnish endurance athletes. Here we aimed to further explore differences in mtDNA variants between elite endurance and sprint athletes. For this purpose, we determined the rate of functional variants and the mutational load in mtDNA of Finnish athletes (n = 141) and controls (n = 77) and determined the sequence variation in haplogroups., Results: The distribution of rare and common functional variants differed between endurance athletes, sprint athletes and the controls (p = 0.04) so that rare variants occurred at a higher frequency among endurance athletes. Furthermore, the ratio between rare and common functional variants in haplogroups J and K was 0.42 of that in the remaining haplogroups (p = 0.0005). The subjects with haplogroup J and K also showed a higher mean level of nonsynonymous mutational load attributed to common variants than subjects with the other haplogroups. Interestingly, two of the rare variants detected in the sprint athletes were the disease-causing mutations m.3243A > G in MT-TL1 and m.1555A > G in MT-RNR1., Conclusions: We propose that endurance athletes harbor an excess of rare mtDNA variants that may be beneficial for oxidative phosphorylation, while sprint athletes may tolerate deleterious mtDNA variants that have detrimental effect on oxidative phosphorylation system. Some of the nonsynonymous mutations defining haplogroup J and K may produce an uncoupling effect on oxidative phosphorylation thus favoring sprint rather than endurance performance.

Published

2019

11. Contribution of rare and common variants to intellectual disability in a sub-isolate of Northern Finland.

Author

Kurki MI, Saarentaus E, Pietiläinen O, Gormley P, Lal D, Kerminen S, Torniainen-Holm M, Hämäläinen E, Rahikkala E, Keski-Filppula R, Rauhala M, Korpi-Heikkilä S, Komulainen-Ebrahim J, Helander H, Vieira P, Männikkö M, Peltonen M, Havulinna AS, Salomaa V, Pirinen M, Suvisaari J, Moilanen JS, Körkkö J, Kuismin O, Daly MJ, and Palotie A

Subjects

CRADD Signaling Adaptor Protein genetics, Cognitive Dysfunction epidemiology, Cognitive Dysfunction genetics, Cohort Studies, Exome, Female, Finland epidemiology, Genetic Association Studies, Genetic Diseases, Inborn epidemiology, Genetic Diseases, Inborn genetics, Genetic Predisposition to Disease, Geography, Homozygote, Humans, Intellectual Disability diagnosis, Male, Multifactorial Inheritance, Mutation, Neurodevelopmental Disorders epidemiology, Neurodevelopmental Disorders genetics, Pathology, Molecular, Prevalence, Exome Sequencing, DNA Copy Number Variations genetics, Genetic Variation genetics, Genome, Human genetics, Intellectual Disability epidemiology, Intellectual Disability genetics

Abstract

The contribution of de novo variants in severe intellectual disability (ID) has been extensively studied whereas the genetics of mild ID has been less characterized. To elucidate the genetics of milder ID we studied 442 ID patients enriched for mild ID (>50%) from a population isolate of Finland. Using exome sequencing, we show that rare damaging variants in known ID genes are observed significantly more often in severe (27%) than in mild ID (13%) patients. We further observe a significant enrichment of functional variants in genes not yet associated with ID (OR: 2.1). We show that a common variant polygenic risk significantly contributes to ID. The heritability explained by polygenic risk score is the highest for educational attainment (EDU) in mild ID (2.2%) but lower for more severe ID (0.6%). Finally, we identify a Finland enriched homozygote variant in the CRADD ID associated gene.

Published

2019

12. Haplotype analysis suggest that the MLH1 c.2059C > T mutation is a Swedish founder mutation.

Author

von Salomé J, Liu T, Keihäs M, Morak M, Holinski-Feder E, Berry IR, Moilanen JS, Baert-Desurmont S, Lindblom A, and Lagerstedt-Robinson K

Subjects

Adult, Aged, Aged, 80 and over, Female, Finland, Founder Effect, Genetics, Population, Humans, Male, Middle Aged, Pedigree, Sweden, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, Haplotypes genetics, MutL Protein Homolog 1 genetics, Mutation, Missense

Abstract

Lynch syndrome (LS) predisposes to a spectrum of cancers and increases the lifetime risk of developing colorectal- or endometrial cancer to over 50%. Lynch syndrome is dominantly inherited and is caused by defects in DNA mismatch-repair genes MLH1, MSH2, MSH6 or PMS2, with the vast majority detected in MLH1 and MSH2. Recurrent LS-associated variants observed in apparently unrelated individuals, have either arisen de novo in different families due to mutation hotspots, or are inherited from a founder (a common ancestor) that lived several generations back. There are variants that recur in some populations while also acting as founders in other ethnic groups. Testing for founder mutations can facilitate molecular diagnosis of Lynch Syndrome more efficiently and more cost effective than screening for all possible mutations. Here we report a study of the missense mutation MLH1 c.2059C > T (p.Arg687Trp), a potential founder mutation identified in eight Swedish families and one Finnish family with Swedish ancestors. Haplotype analysis confirmed that the Finnish and Swedish families shared a haplotype of between 0.9 and 2.8 Mb. While MLH1 c.2059C > T exists worldwide, the Swedish haplotype was not found among mutation carriers from Germany or France, which indicates a common founder in the Swedish population. The geographic distribution of MLH1 c.2059C > T in Sweden suggests a single, ancient mutational event in the northern part of Sweden.

Published

2018

13. Correction: The genetic basis of classic nonketotic hyperglycinemia due to mutations in GLDC and AMT.

Author

Coughlin CR, Swanson MA, Kronquist K, Acquaviva C, Hutchin T, Rodríguez-Pombo P, Väisänen ML, Spector E, Creadon-Swindell G, Brás-Goldberg AM, Rahikkala E, Moilanen JS, Mahieu V, Matthijs G, Bravo-Alonso I, Pérez-Cerdá C, Ugarte M, Vianey-Saban C, Scharer GH, and Van Hove JLK

Abstract

The original supplementary information included with this article contained several minor errors. Corrected Supplementary Information accompanies this corrigendum.

Published

2018

14. Neonatal Alexander Disease: Novel GFAP Mutation and Comparison to Previously Published Cases.

Author

Knuutinen O, Kousi M, Suo-Palosaari M, Moilanen JS, Tuominen H, Vainionpää L, Joensuu T, Anttonen AK, Uusimaa J, Lehesjoki AE, and Vieira P

Subjects

Alexander Disease diagnostic imaging, Alexander Disease pathology, Brain diagnostic imaging, Brain pathology, Fatal Outcome, Humans, Infant, Male, Phenotype, Alexander Disease genetics, Glial Fibrillary Acidic Protein genetics, Mutation

Abstract

Alexander disease (AxD) is a genetic leukodystrophy caused by GFAP mutations leading to astrocyte dysfunction. Neonatal AxD is a rare phenotype with onset in the first month of life. The proband, belonging to a large pedigree with dominantly inherited benign familial neonatal epilepsy (BFNE), had a phenotype distinct from the rest of the family, with hypotonia and macrocephaly in addition to drug-resistant neonatal seizures. The patient deteriorated and passed away at 6 weeks of age. The pathological and neuroimaging data were consistent with the diagnosis of AxD. Genetic analysis of the proband identified a novel de novo GFAP missense mutation and a KCNQ2 splice site mutation segregating with the BFNE phenotype in the family. The GFAP mutation was located in the coil 2B region of GFAP protein, similar to most neonatal-onset AxD cases with an early death. The clinical and neuroradiological features of the previously published neonatal AxD patients are presented. This study further supports the classification of neonatal-onset AxD as a distinct phenotype based on the age of onset., Competing Interests: Disclosure The authors report no conflicts of interest in this work., (Georg Thieme Verlag KG Stuttgart · New York.)

Published

2018

15. Quantifying the Impact of Rare and Ultra-rare Coding Variation across the Phenotypic Spectrum.

Author

Ganna A, Satterstrom FK, Zekavat SM, Das I, Kurki MI, Churchhouse C, Alfoldi J, Martin AR, Havulinna AS, Byrnes A, Thompson WK, Nielsen PR, Karczewski KJ, Saarentaus E, Rivas MA, Gupta N, Pietiläinen O, Emdin CA, Lescai F, Bybjerg-Grauholm J, Flannick J, Mercader JM, Udler M, Laakso M, Salomaa V, Hultman C, Ripatti S, Hämäläinen E, Moilanen JS, Körkkö J, Kuismin O, Nordentoft M, Hougaard DM, Mors O, Werge T, Mortensen PB, MacArthur D, Daly MJ, Sullivan PF, Locke AE, Palotie A, Børglum AD, Kathiresan S, and Neale BM

Subjects

Databases, Genetic, Ethnicity genetics, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Phenotype, Proteins genetics, Mutation genetics, Open Reading Frames genetics

Abstract

There is a limited understanding about the impact of rare protein-truncating variants across multiple phenotypes. We explore the impact of this class of variants on 13 quantitative traits and 10 diseases using whole-exome sequencing data from 100,296 individuals. Protein-truncating variants in genes intolerant to this class of mutations increased risk of autism, schizophrenia, bipolar disorder, intellectual disability, and ADHD. In individuals without these disorders, there was an association with shorter height, lower education, increased hospitalization, and reduced age at enrollment. Gene sets implicated from GWASs did not show a significant protein-truncating variants burden beyond what was captured by established Mendelian genes. In conclusion, we provide a thorough investigation of the impact of rare deleterious coding variants on complex traits, suggesting widespread pleiotropic risk., (Copyright © 2018 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2018

16. Novel variants in Nordic patients referred for genetic testing of telomere-related disorders.

Author

Norberg A, Rosén A, Raaschou-Jensen K, Kjeldsen L, Moilanen JS, Paulsson-Karlsson Y, Baliakas P, Lohi O, Ahmed A, Kittang AO, Larsson P, Roos G, Degerman S, and Hultdin M

Subjects

Adolescent, Adult, Aged, Cell Cycle Proteins genetics, Child, Child, Preschool, Dyskeratosis Congenita pathology, Female, Genetic Testing, Humans, Infant, Male, Middle Aged, Mutation, Nuclear Proteins genetics, Telomere genetics, Telomere-Binding Proteins genetics, Young Adult, Dyskeratosis Congenita genetics, RNA genetics, Telomerase genetics, Telomere Shortening genetics

Abstract

Telomere-related disorders are a clinically and genetically heterogeneous group of disorders characterized by premature telomere shortening and proliferative failure of a variety of tissues. This study reports the spectrum of telomere-related gene variants and telomere length in Nordic patients referred for genetic testing due to suspected telomere-related disorder. We performed Sanger sequencing of the genes TERT, TERC, DKC1, and TINF2 on 135 unrelated index patients and measured telomere length by qPCR on DNA from peripheral blood leukocytes. We identified pathogenic or likely pathogenic variants in 10 index patients, all of which had short telomeres compared to age-matched healthy controls. Six of the 10 variants were novel; three in TERC (n.69&#95;74dupAGGCGC, n.122&#95;125delGCGG, and n.407&#95;408delinsAA) and three in TERT (p.(D684G), p.(R774*), and p.(*1133Wext*39)). The high proportion of novel variants identified in our study highlights the need for solid interpretation of new variants that may be detected. Measurement of telomere length is a useful approach for evaluating pathogenicity of genetic variants associated with telomere-related disorders.

Published

2018

17. NHLRC2 variants identified in patients with fibrosis, neurodegeneration, and cerebral angiomatosis (FINCA): characterisation of a novel cerebropulmonary disease.

Author

Uusimaa J, Kaarteenaho R, Paakkola T, Tuominen H, Karjalainen MK, Nadaf J, Varilo T, Uusi-Mäkelä M, Suo-Palosaari M, Pietilä I, Hiltunen AE, Ruddock L, Alanen H, Biterova E, Miinalainen I, Salminen A, Soininen R, Manninen A, Sormunen R, Kaakinen M, Vuolteenaho R, Herva R, Vieira P, Dunder T, Kokkonen H, Moilanen JS, Rantala H, Nogee LM, Majewski J, Rämet M, Hallman M, and Hinttala R

Subjects

Angiomatosis pathology, Angiomatosis physiopathology, Animals, Animals, Genetically Modified, Brain metabolism, Brain pathology, Brain Diseases pathology, Brain Diseases physiopathology, Cells, Cultured, Family, Fatal Outcome, Humans, Infant, Intracellular Signaling Peptides and Proteins metabolism, Liver Diseases genetics, Liver Diseases pathology, Liver Diseases physiopathology, Male, Mice, Inbred C57BL, Neurodegenerative Diseases pathology, Neurodegenerative Diseases physiopathology, Prospective Studies, Pulmonary Fibrosis pathology, Pulmonary Fibrosis physiopathology, Syndrome, Zebrafish, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, Angiomatosis genetics, Brain Diseases genetics, Genetic Variation, Intracellular Signaling Peptides and Proteins genetics, Neurodegenerative Diseases genetics, Pulmonary Fibrosis genetics

Abstract

A novel multi-organ disease that is fatal in early childhood was identified in three patients from two non-consanguineous families. These children were born asymptomatic but at the age of 2 months they manifested progressive multi-organ symptoms resembling no previously known disease. The main clinical features included progressive cerebropulmonary symptoms, malabsorption, progressive growth failure, recurrent infections, chronic haemolytic anaemia and transient liver dysfunction. In the affected children, neuropathology revealed increased angiomatosis-like leptomeningeal, cortical and superficial white matter vascularisation and congestion, vacuolar degeneration and myelin loss in white matter, as well as neuronal degeneration. Interstitial fibrosis and previously undescribed granuloma-like lesions were observed in the lungs. Hepatomegaly, steatosis and collagen accumulation were detected in the liver. A whole-exome sequencing of the two unrelated families with the affected children revealed the transmission of two heterozygous variants in the NHL repeat-containing protein 2 (NHLRC2); an amino acid substitution p.Asp148Tyr and a frameshift 2-bp deletion p.Arg201GlyfsTer6. NHLRC2 is highly conserved and expressed in multiple organs and its function is unknown. It contains a thioredoxin-like domain; however, an insulin turbidity assay on human recombinant NHLRC2 showed no thioredoxin activity. In patient-derived fibroblasts, NHLRC2 levels were low, and only p.Asp148Tyr was expressed. Therefore, the allele with the frameshift deletion is likely non-functional. Development of the Nhlrc2 null mouse strain stalled before the morula stage. Morpholino knockdown of nhlrc2 in zebrafish embryos affected the integrity of cells in the midbrain region. This is the first description of a fatal, early-onset disease; we have named it FINCA disease based on the combination of pathological features that include fibrosis, neurodegeneration, and cerebral angiomatosis.

Published

2018

18. A homozygous I684T in GLE1 as a novel cause of arthrogryposis and motor neuron loss.

Author

Paakkola T, Vuopala K, Kokkonen H, Ignatius J, Valkama M, Moilanen JS, Fahiminiya S, Majewski J, Hinttala R, and Uusimaa J

Subjects

Base Sequence, Consanguinity, Fatal Outcome, Female, Homozygote, Humans, Infant, Male, Pedigree, Siblings, Arthrogryposis genetics, Genetic Predisposition to Disease genetics, Motor Neuron Disease genetics, Mutation, Missense, Nucleocytoplasmic Transport Proteins genetics

Abstract

Mutations in GLE1, RNA export mediator (GLE1) gene have previously been shown to cause motor neuron diseases such as lethal congenital contracture syndrome 1 (LCCS1) and lethal arthrogryposis with anterior horn cell disease (LAAHD), including arthrogryposis, fetal akinesis and motor neuron loss as common clinical features. The homozygous Fin Major mutation p.T144&#95;E145insPFQ has been described as one of the causes for LCCS1 whereas LAAHD is caused by a heterocompound Fin Major mutation together with p.R569H, p.V617M or p.I684T missense mutation. None of these heterocompound missense mutations have previously been reported as homozygous states. Here we present the clinical features of 2 siblings with a homozygous p.I684T mutation in GLE1. The patients suffered from similar, but milder symptoms than in LCCS1 and LAAHD, surviving up to 6 months before they died due to a progressive disease course including respiratory failure. Arthrogryposis, lack of spontaneous movements, and epilepsy were notable in both cases and lack of anterior horn cells was identified in autopsy samples. Our studies on patient-derived fibroblasts show that the homozygous p.I684T impairs the nuclear localization of GLE1 further confirming the pathogenic role of this mutation., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018

19. Long-term antipsychotic and benzodiazepine use and brain volume changes in schizophrenia: The Northern Finland Birth Cohort 1966 study.

Author

Huhtaniska S, Jääskeläinen E, Heikka T, Moilanen JS, Lehtiniemi H, Tohka J, Manjón JV, Coupé P, Björnholm L, Koponen H, Veijola J, Isohanni M, Kiviniemi V, Murray GK, and Miettunen J

Subjects

Adult, Cohort Studies, Female, Finland, Humans, Magnetic Resonance Imaging, Male, Antipsychotic Agents adverse effects, Benzodiazepines adverse effects, Brain diagnostic imaging, Brain drug effects, Brain pathology, Caudate Nucleus diagnostic imaging, Caudate Nucleus drug effects, Caudate Nucleus pathology, Schizophrenia diagnostic imaging, Schizophrenia drug therapy, Schizophrenia pathology

Abstract

High doses of antipsychotics have been associated with loss in cortical and total gray matter in schizophrenia. However, previous imaging studies have not taken benzodiazepine use into account, in spite of evidence suggesting adverse effects such as cognitive impairment and increased mortality. In this Northern Finland Birth Cohort 1966 study, 69 controls and 38 individuals with schizophrenia underwent brain MRI at the ages of 34 and 43 years. At baseline, the average illness duration was over 10 years. Brain structures were delineated using an automated volumetry system, volBrain, and medication data on cumulative antipsychotic and benzodiazepine doses were collected using medical records and interviews. We used linear regression with intracranial volume and sex as covariates; illness severity was also taken into account. Though both medication doses associated to volumetric changes in subcortical structures, after adjusting for each other and the average PANSS total score, higher scan-interval antipsychotic dose associated only to volume increase in lateral ventricles and higher benzodiazepine dose associated with volume decrease in the caudate nucleus. To our knowledge, there are no previous studies reporting associations between benzodiazepine dose and brain structural changes. Further studies should focus on how these observations correspond to cognition and functioning., (Copyright © 2017 Elsevier Ireland Ltd. All rights reserved.)

Published

2017

20. Novel homozygous PCK1 mutation causing cytosolic phosphoenolpyruvate carboxykinase deficiency presenting as childhood hypoglycemia, an abnormal pattern of urine metabolites and liver dysfunction.

Author

Vieira P, Cameron J, Rahikkala E, Keski-Filppula R, Zhang LH, Santra S, Matthews A, Myllynen P, Nuutinen M, Moilanen JS, Rodenburg RJ, Rolfs A, Uusimaa J, and van Karnebeek CDM

Subjects

Animals, COS Cells, Carbohydrate Metabolism, Inborn Errors physiopathology, Child, Chlorocebus aethiops, Exome, Female, Genetic Predisposition to Disease, Homozygote, Humans, Liver Diseases physiopathology, Male, Pedigree, Phosphoenolpyruvate Carboxykinase (GTP) genetics, Sequence Analysis, DNA methods, Carbohydrate Metabolism, Inborn Errors diagnosis, Hypoglycemia etiology, Intracellular Signaling Peptides and Proteins genetics, Liver physiopathology, Liver Diseases diagnosis, Mutation, Missense, Phosphoenolpyruvate Carboxykinase (GTP) deficiency, Urine chemistry

Abstract

Clinical and laboratory data were collected from three Finnish patients including a sibling pair and another unrelated child with unexplained childhood hypoglycemia. Transient elevation of alanine transaminase, lactate and tricarboxylic acid cycle intermediates, especially fumarate, were noticed in urine organic acid analysis. Exome sequencing was performed for the patients and their parents. A novel homozygous PCK1 c.925G>A (p.G309R) mutation was detected in all affected individuals. COS-1 cells transfected with mutant PCK1 transcripts were used to study the pathogenic nature of the detected variant. The COS-1 transfected cells showed the mutant gene to be incapable of producing a normally functioning cytosolic phosphoenolpyruvate carboxykinase (PEPCK) enzyme. This report further delineates the clinical phenotype of isolated cytosolic PEPCK deficiency and offers a metabolic pattern helping to recognize these patients. Cytosolic PEPCK deficiency should be considered in the differential diagnosis of children presenting with hypoglycemia, hepatic dysfunction and elevated tricarboxylic acid intermediates in urinary organic acid analysis., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

21. A novel MTTT mutation m.15933G > A revealed in analysis of mitochondrial DNA in patients with suspected mitochondrial disease.

Author

Soini HK, Väisänen A, Kärppä M, Hinttala R, Kytövuori L, Moilanen JS, Uusimaa J, and Majamaa K

Subjects

Base Sequence, DNA Polymerase gamma, DNA, Mitochondrial classification, DNA, Mitochondrial metabolism, DNA-Directed DNA Polymerase genetics, Electrophoresis, Polyacrylamide Gel, Female, Haplotypes, Humans, Male, Middle Aged, Mitochondrial Diseases pathology, Nucleic Acid Conformation, Open Reading Frames genetics, Phylogeny, Sequence Deletion, DNA, Mitochondrial genetics, Mitochondrial Diseases genetics

Abstract

Background: Mitochondrial diseases present with variable multi-organ symptoms. Common disease-causing mutations in mitochondrial DNA (mtDNA) are regularly screened in diagnostic work-up, but novel mutations may remain unnoticed., Methods: Patients (N = 66) with a clinical suspicion of mitochondrial disease were screened for their mtDNA coding region using conformation sensitive gel electrophoresis and sequencing. Long-PCR was used to detect deletions followed by POLG1 sequencing in patients with multiple deletions., Results: We discovered three novel mtDNA variants that included m.8743G > C, m.11322A > G and m.15933G > A. The novel MTTT variant m.15933G > A is suggested to be pathogenic. Analysis revealed also multiple mtDNA deletions in two patients and five nonsynonymous variants that were putatively pathogenic according to in-silico prediction algorithms. In addition, a rare haplogroup H associated m.7585&#95;7586insT variant was discovered., Conclusions: Among patients with a suspected mitochondrial disease, a novel MTTT variant m.15933G > A was discovered and is suggested to be pathogenic. In addition, several putatively pathogenic nonsynonymous variants and rare variants were found. These findings highlight the importance of coding region mtDNA screening among patients with clinical features suggesting a mitochondrial disease, but who lack the common mitochondrial disease mutations.

Published

2017

22. Identification of C12orf4 as a gene for autosomal recessive intellectual disability.

Author

Philips AK, Pinelli M, de Bie CI, Mustonen A, Määttä T, Arts HH, Wu K, Roepman R, Moilanen JS, Raza S, Varilo T, Scala G, Cocozza S, Gilissen C, van Gassen KL, and Järvelä I

Subjects

Aged, Amino Acid Sequence, Base Sequence, Child, Consanguinity, Exome genetics, Family Health, Female, Finland, Founder Effect, Genes, Recessive, Genotype, Geography, Humans, Male, Netherlands, Pedigree, Sequence Analysis, DNA methods, Sequence Homology, Amino Acid, Genetic Predisposition to Disease genetics, Intellectual Disability genetics, Intracellular Signaling Peptides and Proteins genetics, Mutation

Abstract

Intellectual disability (ID) is a major health problem in our society. Genetic causes of ID remain unknown because of its vast heterogeneity. Here we report two Finnish families and one Dutch family with affected individuals presenting with mild to moderate ID, neuropsychiatric symptoms and delayed speech development. By utilizing whole exome sequencing (WES), we identified a founder missense variant c.983T>C (p.Leu328Pro) in seven affected individuals from two Finnish consanguineous families and a deletion c.799&#95;1034-429delinsTTATGA (p.Gln267fs) in one affected individual from a consanguineous Dutch family in the C12orf4 gene on chromosome 12. Both the variants co-segregated in the respective families as an autosomal recessive trait. Screening of the p.Leu328Pro variant showed enrichment in the North Eastern sub-isolate of Finland among anonymous local blood donors with a carrier frequency of 1:53, similar to other disease mutations with a founder effect in that region. To date, only one Arab family with a three affected individuals with a frameshift insertion variant in C12orf4 has been reported. In summary, we expand and establish the clinical and mutational spectrum of C12orf4 variants. Our findings implicate C12orf4 as a causative gene for autosomal recessive ID., (© 2016 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2017

23. The genetic basis of classic nonketotic hyperglycinemia due to mutations in GLDC and AMT.

Author

Coughlin CR 2nd, Swanson MA, Kronquist K, Acquaviva C, Hutchin T, Rodríguez-Pombo P, Väisänen ML, Spector E, Creadon-Swindell G, Brás-Goldberg AM, Rahikkala E, Moilanen JS, Mahieu V, Matthijs G, Bravo-Alonso I, Pérez-Cerdá C, Ugarte M, Vianey-Saban C, Scharer GH, and Van Hove JL

Subjects

Alleles, Dihydrolipoamide Dehydrogenase genetics, Exons genetics, Female, Genetic Testing, Genotype, Glycine genetics, Glycine metabolism, Humans, Hyperglycinemia, Nonketotic diagnosis, Hyperglycinemia, Nonketotic pathology, Introns, Male, Mutation, Missense, Aminomethyltransferase genetics, Glycine Decarboxylase Complex genetics, Glycine Dehydrogenase (Decarboxylating) genetics, Hyperglycinemia, Nonketotic genetics

Abstract

Purpose: The study's purpose was to delineate the genetic mutations that cause classic nonketotic hyperglycinemia (NKH)., Methods: Genetic results, parental phase, ethnic origin, and gender data were collected from subjects suspected to have classic NKH. Mutations were compared with those in the existing literature and to the population frequency from the Exome Aggregation Consortium (ExAC) database., Results: In 578 families, genetic analyses identified 410 unique mutations, including 246 novel mutations. 80% of subjects had mutations in GLDC. Missense mutations were noted in 52% of all GLDC alleles, most private. Missense mutations were 1.5 times as likely to be pathogenic in the carboxy terminal of GLDC than in the amino-terminal part. Intragenic copy-number variations (CNVs) in GLDC were noted in 140 subjects, with biallelic CNVs present in 39 subjects. The position and frequency of the breakpoint for CNVs correlated with intron size and presence of Alu elements. Missense mutations, most often recurring, were the most common type of disease-causing mutation in AMT. Sequencing and CNV analysis identified biallelic pathogenic mutations in 98% of subjects. Based on genotype, 15% of subjects had an attenuated phenotype. The frequency of NKH is estimated at 1:76,000., Conclusion: The 484 unique mutations now known in classic NKH provide a valuable overview for the development of genotype-based therapies.Genet Med 19 1, 104-111.

Published

2017

24. Phenotype and genotype in 52 patients with Rubinstein-Taybi syndrome caused by EP300 mutations.

Author

Fergelot P, Van Belzen M, Van Gils J, Afenjar A, Armour CM, Arveiler B, Beets L, Burglen L, Busa T, Collet M, Deforges J, de Vries BB, Dominguez Garrido E, Dorison N, Dupont J, Francannet C, Garciá-Minaúr S, Gabau Vila E, Gebre-Medhin S, Gener Querol B, Geneviève D, Gérard M, Gervasini CG, Goldenberg A, Josifova D, Lachlan K, Maas S, Maranda B, Moilanen JS, Nordgren A, Parent P, Rankin J, Reardon W, Rio M, Roume J, Shaw A, Smigiel R, Sojo A, Solomon B, Stembalska A, Stumpel C, Suarez F, Terhal P, Thomas S, Touraine R, Verloes A, Vincent-Delorme C, Wincent J, Peters DJ, Bartsch O, Larizza L, Lacombe D, and Hennekam RC

Subjects

Adult, Chromatin Assembly and Disassembly genetics, Female, Genetic Association Studies, Genetic Predisposition to Disease, Genotype, Humans, Male, Middle Aged, Mutation, Missense genetics, Pre-Eclampsia physiopathology, Pregnancy, Rubinstein-Taybi Syndrome pathology, Sequence Deletion, CREB-Binding Protein genetics, E1A-Associated p300 Protein genetics, Pre-Eclampsia genetics, Rubinstein-Taybi Syndrome genetics

Abstract

Rubinstein-Taybi syndrome (RSTS) is a developmental disorder characterized by a typical face and distal limbs abnormalities, intellectual disability, and a vast number of other features. Two genes are known to cause RSTS, CREBBP in 60% and EP300 in 8-10% of clinically diagnosed cases. Both paralogs act in chromatin remodeling and encode for transcriptional co-activators interacting with >400 proteins. Up to now 26 individuals with an EP300 mutation have been published. Here, we describe the phenotype and genotype of 42 unpublished RSTS patients carrying EP300 mutations and intragenic deletions and offer an update on another 10 patients. We compare the data to 308 individuals with CREBBP mutations. We demonstrate that EP300 mutations cause a phenotype that typically resembles the classical RSTS phenotype due to CREBBP mutations to a great extent, although most facial signs are less marked with the exception of a low-hanging columella. The limb anomalies are more similar to those in CREBBP mutated individuals except for angulation of thumbs and halluces which is very uncommon in EP300 mutated individuals. The intellectual disability is variable but typically less marked whereas the microcephaly is more common. All types of mutations occur but truncating mutations and small rearrangements are most common (86%). Missense mutations in the HAT domain are associated with a classical RSTS phenotype but otherwise no genotype-phenotype correlation is detected. Pre-eclampsia occurs in 12/52 mothers of EP300 mutated individuals versus in 2/59 mothers of CREBBP mutated individuals, making pregnancy with an EP300 mutated fetus the strongest known predictor for pre-eclampsia. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

25. The Quality of Genetic Counseling and Connected Factors as Evaluated by Male BRCA1/2 Mutation Carriers in Finland.

Author

Kajula O, Kääriäinen M, Moilanen JS, and Kyngäs H

Subjects

Adult, Finland, Genetic Predisposition to Disease, Heterozygote, Humans, Male, Mutation, Breast Neoplasms, Male genetics, Genes, BRCA1, Genes, BRCA2, Genetic Counseling, Quality of Life

Abstract

There is little written about the quality of genetic counseling for men with the BRCA1/2 mutation. The purpose of this study was to describe the quality of genetic counseling and connected factors according to Finnish male BRCA1/2 mutation carriers' (n = 35) perspectives and reasons for seeking genetic counseling. Data were collected from the Departments of Clinical Genetics at five Finnish university hospitals. The exploratory study design was conducted using a 51-item questionnaire based on a previously devised quality of counseling model and analyzed using non-parametric tests and principle content analysis. The satisfaction level with genetic counseling was high, especially with regard to the content of genetic counseling. The benefit of genetic counseling on the quality of life differed significantly (p < 0.001-0.009) from other factors. In particular, genetic counseling was in some cases associated to reduce the quality of life. Only 49 % of the male carriers felt they received sufficient counseling on social support. Attention to individual psychosocial support was proposed as an improvement to genetic counseling. Primary and secondary reasons for seeking genetic counseling and background information, such as education, affected the perceived quality of genetic counseling. The results of the study could be used to tailor genetic counseling for male BRCA1/2 mutation carriers.

Published

2016

26. Rare loss-of-function variants in SETD1A are associated with schizophrenia and developmental disorders.

Author

Singh T, Kurki MI, Curtis D, Purcell SM, Crooks L, McRae J, Suvisaari J, Chheda H, Blackwood D, Breen G, Pietiläinen O, Gerety SS, Ayub M, Blyth M, Cole T, Collier D, Coomber EL, Craddock N, Daly MJ, Danesh J, DiForti M, Foster A, Freimer NB, Geschwind D, Johnstone M, Joss S, Kirov G, Körkkö J, Kuismin O, Holmans P, Hultman CM, Iyegbe C, Lönnqvist J, Männikkö M, McCarroll SA, McGuffin P, McIntosh AM, McQuillin A, Moilanen JS, Moore C, Murray RM, Newbury-Ecob R, Ouwehand W, Paunio T, Prigmore E, Rees E, Roberts D, Sambrook J, Sklar P, St Clair D, Veijola J, Walters JT, Williams H, Sullivan PF, Hurles ME, O'Donovan MC, Palotie A, Owen MJ, and Barrett JC

Subjects

Case-Control Studies, Cohort Studies, Female, Finland epidemiology, Genetic Predisposition to Disease epidemiology, Genetic Predisposition to Disease genetics, Humans, Male, Neurodevelopmental Disorders diagnosis, Neurodevelopmental Disorders epidemiology, Schizophrenia diagnosis, Schizophrenia epidemiology, Genetic Association Studies methods, Genetic Variation genetics, Histone-Lysine N-Methyltransferase genetics, Neurodevelopmental Disorders genetics, Schizophrenia genetics

Abstract

By analyzing the whole-exome sequences of 4,264 schizophrenia cases, 9,343 controls and 1,077 trios, we identified a genome-wide significant association between rare loss-of-function (LoF) variants in SETD1A and risk for schizophrenia (P = 3.3 × 10(-9)). We found only two heterozygous LoF variants in 45,376 exomes from individuals without a neuropsychiatric diagnosis, indicating that SETD1A is substantially depleted of LoF variants in the general population. Seven of the ten individuals with schizophrenia carrying SETD1A LoF variants also had learning difficulties. We further identified four SETD1A LoF carriers among 4,281 children with severe developmental disorders and two more carriers in an independent sample of 5,720 Finnish exomes, both with notable neuropsychiatric phenotypes. Together, our observations indicate that LoF variants in SETD1A cause a range of neurodevelopmental disorders, including schizophrenia. Combining these data with previous common variant evidence, we suggest that epigenetic dysregulation, specifically in the histone H3K4 methylation pathway, is an important mechanism in the pathogenesis of schizophrenia.

Published

2016

27. Human Chromosome Y and Haplogroups; introducing YDHS Database.

Author

Tiirikka T and Moilanen JS

Abstract

Background: As the high throughput sequencing efforts generate more biological information, scientists from different disciplines are interpreting the polymorphisms that make us unique. In addition, there is an increasing trend in general public to research their own genealogy, find distant relatives and to know more about their biological background. Commercial vendors are providing analyses of mitochondrial and Y-chromosomal markers for such purposes. Clearly, an easy-to-use free interface to the existing data on the identified variants would be in the interest of general public and professionals less familiar with the field. Here we introduce a novel metadatabase YDHS that aims to provide such an interface for Y-chromosomal DNA (Y-DNA) haplogroups and sequence variants., Methods: The database uses ISOGG Y-DNA tree as the source of mutations and haplogroups and by using genomic positions of the mutations the database links them to genes and other biological entities. YDHS contains analysis tools for deeper Y-SNP analysis., Results: YDHS addresses the shortage of Y-DNA related databases. We have tested our database using a set of different cases from literature ranging from infertility to autism. The database is at http://www.semanticgen.net/ydhs, Conclusions: Y-chromosomal DNA (Y-DNA) haplogroups and sequence variants have not been in the scientific limelight, excluding certain specialized fields like forensics, mainly because there is not much freely available information or it is scattered in different sources. However, as we have demonstrated Y-SNPs do play a role in various cases on the haplogroup level and it is possible to create a free Y-DNA dedicated bioinformatics resource.

Published

2015

28. Epidemiology of early-onset Parkinson's disease in Finland.

Author

Ylikotila P, Tiirikka T, Moilanen JS, Kääriäinen H, Marttila R, and Majamaa K

Subjects

Adult, Age of Onset, Cohort Studies, Female, Finland epidemiology, Geographic Information Systems, Humans, Incidence, Male, Middle Aged, Parkinson Disease genetics, Sex Factors, Genetic Predisposition to Disease epidemiology, Parkinson Disease epidemiology

Abstract

Objective: The contribution of genetic causes to Parkinson's disease (PD) is strongest in early-onset cases. We ascertained a nationwide cohort of patients in order to study the genetic epidemiology of early-onset PD (EOPD) in Finland., Methods: By means of a search in a national database we ascertained all patients with EOPD. These patients had become eligible for reimbursement of PD drugs between the years 1995-2006 and were <55 years of age at the time of PD diagnosis. A total of 441 patients consented and provided clinical and genealogical information., Results: The incidence of EOPD increased 1.7-fold between the years 1995-2006, the mean annual incidence being 3.3/100,000. Fifty-two patients (11.8%) reported an affected first-degree relative. The birthplaces of patients with PD among first-degree relatives were clustered in certain regions in the southwestern and western coastal provinces of Finland and in the eastern province of Savo. Furthermore, the distance between the birthplaces of the patients' parents was smaller for patients, who had first-degree relatives with PD than for patients with no family history of PD., Conclusions: Our data suggest that the incidence of EOPD is increasing. The birthplaces of patients with PD among first-degree relatives were clustered in certain provinces of Finland suggesting that monogenic forms of PD or genetic susceptibility of PD are present in the population., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

29. Biallelic mutations in BRCA1 cause a new Fanconi anemia subtype.

Author

Sawyer SL, Tian L, Kähkönen M, Schwartzentruber J, Kircher M, Majewski J, Dyment DA, Innes AM, Boycott KM, Moreau LA, Moilanen JS, and Greenberg RA

Subjects

Adult, Alleles, BRCA1 Protein genetics, Base Sequence, Fanconi Anemia Complementation Group Proteins genetics, Female, Genetic Predisposition to Disease, Humans, Young Adult, Breast Neoplasms genetics, Fanconi Anemia genetics, Genes, BRCA1, Mutation

Abstract

Unlabelled: Deficiency in BRCA-dependent DNA interstrand crosslink (ICL) repair is intimately connected to breast cancer susceptibility and to the rare developmental syndrome Fanconi anemia. Bona fide Fanconi anemia proteins, BRCA2 (FANCD1), PALB2 (FANCN), and BRIP1 (FANCJ), interact with BRCA1 during ICL repair. However, the lack of detailed phenotypic and cellular characterization of a patient with biallelic BRCA1 mutations has precluded assignment of BRCA1 as a definitive Fanconi anemia susceptibility gene. Here, we report the presence of biallelic BRCA1 mutations in a woman with multiple congenital anomalies consistent with a Fanconi anemia-like disorder and breast cancer at age 23. Patient cells exhibited deficiency in BRCA1 and RAD51 localization to DNA-damage sites, combined with radial chromosome formation and hypersensitivity to ICL-inducing agents. Restoration of these functions was achieved by ectopic introduction of a BRCA1 transgene. These observations provide evidence in support of BRCA1 as a new Fanconi anemia gene (FANCS)., Significance: We establish that biallelic BRCA1 mutations cause a distinct FA-S, which has implications for risk counselling in families where both parents harbor BRCA1 mutations. The genetic basis of hereditary cancer susceptibility syndromes provides diagnostic information, insights into treatment strategies, and more accurate recurrence risk counseling to families., (©2014 American Association for Cancer Research.)

Published

2015

30. Clinical characterization, genetic mapping and whole-genome sequence analysis of a novel autosomal recessive intellectual disability syndrome.

Author

Kaasinen E, Rahikkala E, Koivunen P, Miettinen S, Wamelink MM, Aavikko M, Palin K, Myllyharju J, Moilanen JS, Pajunen L, Karhu A, and Aaltonen LA

Subjects

Adolescent, Adult, DNA Mutational Analysis, Eye Abnormalities genetics, Female, Finland, Genes, Recessive, Genetic Heterogeneity, Genotype, Humans, Male, Middle Aged, Muscle Hypotonia genetics, Pedigree, Phenotype, Prolyl Hydroxylases genetics, Sequence Analysis, DNA, Syndrome, Transketolase deficiency, Transketolase genetics, Ubiquitin Thiolesterase genetics, Ubiquitin-Specific Proteases, Young Adult, Chromosomes, Human, Pair 3, Intellectual Disability genetics

Abstract

We identified six patients presenting with a strikingly similar clinical phenotype of profound syndromic intellectual disability of unknown etiology. All patients lived in the same village. Extensive genealogical work revealed that the healthy parents of the patients were all distantly related to a common ancestor from the 17th century, suggesting autosomal recessive inheritance. In addition to intellectual disability, the clinical features included hypotonia, strabismus, difficulty to fix the eyes to an object, planovalgus in the feet, mild contractures in elbow joints, interphalangeal joint hypermobility and coarse facial features that develop gradually during childhood. The clinical phenotype did not fit any known syndrome. Genome-wide SNP genotyping of the patients and genetic mapping revealed the longest shared homozygosity at 3p22.1-3p21.1 encompassing 11.5 Mb, with no other credible candidate loci emerging. Single point parametric linkage analysis showed logarithm of the odds score of 11 for the homozygous region, thus identifying a novel intellectual disability predisposition locus. Whole-genome sequencing of one affected individual pinpointed three genes with potentially protein damaging homozygous sequence changes within the predisposition locus: transketolase (TKT), prolyl 4-hydroxylase transmembrane (P4HTM), and ubiquitin specific peptidase 4 (USP4). The changes were found in heterozygous form with 0.3-0.7% allele frequencies in 402 whole-genome sequenced controls from the north-east of Finland. No homozygotes were found in this nor additional control data sets. Our study facilitates clinical and molecular diagnosis of patients with this novel autosomal recessive intellectual disability syndrome. However, further studies are needed to unambiguously identify the underlying genetic defect., (Copyright © 2014 Elsevier Masson SAS. All rights reserved.)

Published

2014

31. Breast-cancer risk in families with mutations in PALB2.

Author

Antoniou AC, Casadei S, Heikkinen T, Barrowdale D, Pylkäs K, Roberts J, Lee A, Subramanian D, De Leeneer K, Fostira F, Tomiak E, Neuhausen SL, Teo ZL, Khan S, Aittomäki K, Moilanen JS, Turnbull C, Seal S, Mannermaa A, Kallioniemi A, Lindeman GJ, Buys SS, Andrulis IL, Radice P, Tondini C, Manoukian S, Toland AE, Miron P, Weitzel JN, Domchek SM, Poppe B, Claes KB, Yannoukakos D, Concannon P, Bernstein JL, James PA, Easton DF, Goldgar DE, Hopper JL, Rahman N, Peterlongo P, Nevanlinna H, King MC, Couch FJ, Southey MC, Winqvist R, Foulkes WD, and Tischkowitz M

Subjects

Adult, Aged, Aged, 80 and over, Breast Neoplasms genetics, Fanconi Anemia Complementation Group N Protein, Female, Heterozygote, Humans, Middle Aged, Receptor, ErbB-2 analysis, Receptors, Estrogen analysis, Receptors, Progesterone analysis, Risk, Sequence Deletion, Breast Neoplasms congenital, Genes, BRCA2, Genetic Predisposition to Disease, Germ-Line Mutation, Nuclear Proteins genetics, Tumor Suppressor Proteins genetics

Abstract

Background: Germline loss-of-function mutations in PALB2 are known to confer a predisposition to breast cancer. However, the lifetime risk of breast cancer that is conferred by such mutations remains unknown., Methods: We analyzed the risk of breast cancer among 362 members of 154 families who had deleterious truncating, splice, or deletion mutations in PALB2. The age-specific breast-cancer risk for mutation carriers was estimated with the use of a modified segregation-analysis approach that allowed for the effects of PALB2 genotype and residual familial aggregation., Results: The risk of breast cancer for female PALB2 mutation carriers, as compared with the general population, was eight to nine times as high among those younger than 40 years of age, six to eight times as high among those 40 to 60 years of age, and five times as high among those older than 60 years of age. The estimated cumulative risk of breast cancer among female mutation carriers was 14% (95% confidence interval [CI], 9 to 20) by 50 years of age and 35% (95% CI, 26 to 46) by 70 years of age. Breast-cancer risk was also significantly influenced by birth cohort (P<0.001) and by other familial factors (P=0.04). The absolute breast-cancer risk for PALB2 female mutation carriers by 70 years of age ranged from 33% (95% CI, 25 to 44) for those with no family history of breast cancer to 58% (95% CI, 50 to 66) for those with two or more first-degree relatives with breast cancer at 50 years of age., Conclusions: Loss-of-function mutations in PALB2 are an important cause of hereditary breast cancer, with respect both to the frequency of cancer-predisposing mutations and to the risk associated with them. Our data suggest the breast-cancer risk for PALB2 mutation carriers may overlap with that for BRCA2 mutation carriers. (Funded by the European Research Council and others.).

Published

2014

32. Longitudinal changes in total brain volume in schizophrenia: relation to symptom severity, cognition and antipsychotic medication.

Author

Veijola J, Guo JY, Moilanen JS, Jääskeläinen E, Miettunen J, Kyllönen M, Haapea M, Huhtaniska S, Alaräisänen A, Mäki P, Kiviniemi V, Nikkinen J, Starck T, Remes JJ, Tanskanen P, Tervonen O, Wink AM, Kehagia A, Suckling J, Kobayashi H, Barnett JH, Barnes A, Koponen HJ, Jones PB, Isohanni M, and Murray GK

Subjects

Adult, Antipsychotic Agents therapeutic use, Brain physiopathology, Female, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Organ Size drug effects, Prognosis, Schizophrenia diagnosis, Schizophrenia drug therapy, Antipsychotic Agents pharmacology, Brain drug effects, Brain pathology, Cognition drug effects, Schizophrenia pathology, Schizophrenia physiopathology

Abstract

Studies show evidence of longitudinal brain volume decreases in schizophrenia. We studied brain volume changes and their relation to symptom severity, level of function, cognition, and antipsychotic medication in participants with schizophrenia and control participants from a general population based birth cohort sample in a relatively long follow-up period of almost a decade. All members of the Northern Finland Birth Cohort 1966 with any psychotic disorder and a random sample not having psychosis were invited for a MRI brain scan, and clinical and cognitive assessment during 1999-2001 at the age of 33-35 years. A follow-up was conducted 9 years later during 2008-2010. Brain scans at both time points were obtained from 33 participants with schizophrenia and 71 control participants. Regression models were used to examine whether brain volume changes predicted clinical and cognitive changes over time, and whether antipsychotic medication predicted brain volume changes. The mean annual whole brain volume reduction was 0.69% in schizophrenia, and 0.49% in controls (p = 0.003, adjusted for gender, educational level, alcohol use and weight gain). The brain volume reduction in schizophrenia patients was found especially in the temporal lobe and periventricular area. Symptom severity, functioning level, and decline in cognition were not associated with brain volume reduction in schizophrenia. The amount of antipsychotic medication (dose years of equivalent to 100 mg daily chlorpromazine) over the follow-up period predicted brain volume loss (p = 0.003 adjusted for symptom level, alcohol use and weight gain). In this population based sample, brain volume reduction continues in schizophrenia patients after the onset of illness, and antipsychotic medications may contribute to these reductions.

Published

2014

33. The co-occurrence of mtDNA mutations on different oxidative phosphorylation subunits, not detected by haplogroup analysis, affects human longevity and is population specific.

Author

Raule N, Sevini F, Li S, Barbieri A, Tallaro F, Lomartire L, Vianello D, Montesanto A, Moilanen JS, Bezrukov V, Blanché H, Hervonen A, Christensen K, Deiana L, Gonos ES, Kirkwood TB, Kristensen P, Leon A, Pelicci PG, Poulain M, Rea IM, Remacle J, Robine JM, Schreiber S, Sikora E, Eline Slagboom P, Spazzafumo L, Antonietta Stazi M, Toussaint O, Vaupel JW, Rose G, Majamaa K, Perola M, Johnson TE, Bolund L, Yang H, Passarino G, and Franceschi C

Subjects

Aged, 80 and over, Female, Humans, Male, Mutation, DNA, Mitochondrial genetics, Longevity genetics, Oxidative Phosphorylation

Abstract

To re-examine the correlation between mtDNA variability and longevity, we examined mtDNAs from samples obtained from over 2200 ultranonagenarians (and an equal number of controls) collected within the framework of the GEHA EU project. The samples were categorized by high-resolution classification, while about 1300 mtDNA molecules (650 ultranonagenarians and an equal number of controls) were completely sequenced. Sequences, unlike standard haplogroup analysis, made possible to evaluate for the first time the cumulative effects of specific, concomitant mtDNA mutations, including those that per se have a low, or very low, impact. In particular, the analysis of the mutations occurring in different OXPHOS complex showed a complex scenario with a different mutation burden in 90+ subjects with respect to controls. These findings suggested that mutations in subunits of the OXPHOS complex I had a beneficial effect on longevity, while the simultaneous presence of mutations in complex I and III (which also occurs in J subhaplogroups involved in LHON) and in complex I and V seemed to be detrimental, likely explaining previous contradictory results. On the whole, our study, which goes beyond haplogroup analysis, suggests that mitochondrial DNA variation does affect human longevity, but its effect is heavily influenced by the interaction between mutations concomitantly occurring on different mtDNA genes., (© 2013 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.)

Published

2014

34. Targeted next-generation sequencing reveals further genetic heterogeneity in axonal Charcot-Marie-Tooth neuropathy and a mutation in HSPB1.

Author

Ylikallio E, Johari M, Konovalova S, Moilanen JS, Kiuru-Enari S, Auranen M, Pajunen L, and Tyynismaa H

Subjects

Adaptor Proteins, Signal Transducing genetics, Adolescent, Adult, Axons, Cell Cycle Proteins genetics, Exons, Female, Finland, Genetic Testing, Genome-Wide Association Study, Heat-Shock Proteins, Humans, Male, Molecular Chaperones, Mutation, Nuclear Proteins genetics, Pedigree, Young Adult, Charcot-Marie-Tooth Disease genetics, Genetic Heterogeneity, HSP27 Heat-Shock Proteins genetics, High-Throughput Nucleotide Sequencing

Abstract

Charcot-Marie-Tooth disease (CMT) is a group of hereditary peripheral neuropathies. The dominantly inherited axonal CMT2 displays striking genetic heterogeneity, with 17 presently known disease genes. The large number of candidate genes, combined with lack of genotype-phenotype correlations, has made genetic diagnosis in CMT2 time-consuming and costly. In Finland, 25% of dominant CMT2 is explained by either a GDAP1 founder mutation or private MFN2 mutations but the rest of the families have remained without molecular diagnosis. Whole-exome and genome sequencing are powerful techniques to find disease mutations for CMT patients but they require large amounts of sequencing to confidently exclude heterozygous variants in all candidate genes, and they generate a vast amount of irrelevant data for diagnostic needs. Here we tested a targeted next-generation sequencing approach to screen the CMT2 genes. In total, 15 unrelated patients from dominant CMT2 families from Finland, in whom MFN2 and GDAP1 mutations had been excluded, participated in the study. The targeted approach produced sufficient sequence coverage for 95% of the 309 targeted exons, the rest we excluded by Sanger sequencing. Unexpectedly, the screen revealed a disease mutation only in one family, in the HSPB1 gene. Thus, new disease genes underlie CMT2 in the remaining families, indicating further genetic heterogeneity. We conclude that targeted next-generation sequencing is an efficient tool for genetic screening in CMT2 that also aids in the selection of patients for genome-wide approaches.

Published

2014

35. Evaluation of the need for routine clinical testing of PALB2 c.1592delT mutation in BRCA negative Northern Finnish breast cancer families.

Author

Haanpää M, Pylkäs K, Moilanen JS, and Winqvist R

Subjects

Adult, Alleles, Breast Neoplasms epidemiology, Cohort Studies, Fanconi Anemia Complementation Group N Protein, Female, Finland epidemiology, Genetic Predisposition to Disease, Genetic Testing, Germ-Line Mutation, Heterozygote, Humans, Middle Aged, Pedigree, Risk Factors, BRCA2 Protein genetics, Breast Neoplasms diagnosis, Breast Neoplasms genetics, Nuclear Proteins genetics, Tumor Suppressor Proteins genetics, Ubiquitin-Protein Ligases genetics, White People genetics

Abstract

Background: Testing for mutations in the BRCA1 and BRCA2 genes among high-risk breast cancer patients has become a routine practice among clinical geneticists. Unfortunately, however, the genetic background of a majority of the cases coming to the clinics remains currently unexplained, making genetic counseling rather challenging. In recent years it has become evident world-wide that also women carrying a heterozygous germline mutation in PALB2 are at significantly increased risk of getting breast cancer. We have previously studied the clinical as well as biological impact of the PALB2 c.1592delT founder mutation occurring in about 1% of Finnish breast cancer patients unselected for their family history of disease, and our results demonstrated a 40% increased breast cancer risk by age 70 for female mutation carriers. Thus, this relatively common mutation in PALB2 is associated with a high risk of developing breast cancer. The aim of the current study was to analyze whether female index individuals of breast cancer families who had tested negative for germline mutations in BRCA1/BRCA2 as part of genetic counseling services should be offered mutation testing for PALB2 c.1592delT., Methods: The study cohort consisted of altogether 223 individuals who had contacted the Department of Clinical Genetics at the Oulu University Hospital in Finland between the years 1997 and 2011 for counseling on hereditary breast and/or ovarian cancer risk. 101 of them met our inclusion criteria. Of these, 10 persons were now deceased, but 6 of them had participated in one of our previous studies on PALB2. Seventy (77%) of the remaining 91 persons responded positively to our study invitation. Chart review of updated pedigree data led to the exclusion of 14 further individuals not meeting the selection criteria., Result: Of the 56 alive affected female individuals screened for PALB2 c.1592delT, altogether two (3.6%) tested positive for this mutation. In addition, of the previously tested but now deceased 6 persons eligible for the current study, one more mutation carrier was observed. Therefore, overall 4.8% (3/62) of the tested individuals belonging to the Northern Finnish 1997-2011 study cohort turned out to be carriers of the PALB2 c.1592delT allele., Conclusions: Given the potential benefits versus harms of this testing, the result of our study suggest that PALB2 c.1592delT should be a routine part of the genetic counseling protocol for Finnish high-risk breast cancer cases tested negative for mutations in BRCA1/BRCA2.

Published

2013

36. WFS1 variants in Finnish patients with diabetes mellitus, sensorineural hearing impairment or optic atrophy, and in suicide victims.

Author

Kytövuori L, Seppänen A, Martikainen MH, Moilanen JS, Kamppari S, Särkioja T, Remes AM, Räsänen P, Rönnemaa T, and Majamaa K

Subjects

Adult, Case-Control Studies, Exons genetics, Finland, Gene Frequency genetics, Heterozygote, Humans, Membrane Proteins chemistry, Middle Aged, Open Reading Frames genetics, Diabetes Mellitus genetics, Genetic Predisposition to Disease, Genetic Variation, Hearing Loss, Sensorineural genetics, Membrane Proteins genetics, Optic Atrophy genetics, Suicide

Abstract

Mutations in the wolframin gene, WFS1, cause Wolfram syndrome, a rare recessive neurodegenerative disorder. The clinical features include early-onset bilateral optic atrophy (OA), diabetes mellitus (DM), diabetes insipidus, hearing impairment, urinary tract abnormalities and psychiatric illness, and, furthermore, WFS1 variants appear to be associated with non-syndromic DM and hearing impairment. Variation of WFS1 was investigated in Finnish subjects consisting 182 patients with DM, 117 patients with sensorineural hearing impairment (SNHI) and 44 patients with OA, and in 95 suicide victims. Twenty-two variants were found in the coding region of WFS1, including three novel nonsynonymous variants. The frequency of the p.[His456] allele was significantly higher in the patients with SNHI (11.5%; corrected P=0.00008), DM (6.6%; corrected P=0.036) or OA (9.1%; corrected P=0.043) than that in the 285 controls (3.3%). The frequency of the p.[His611] allele was 55.8% in the patients with DM being higher than that in the controls (47%; corrected P=0.039). The frequencies of p.[His456] and p.[His611] were similarly increased in an independent group of patients with DM (N=299). The results support previous findings that genetic variation of WFS1 contributes to the risk of DM and SNHI.

Published

2013

37. Mitochondrial DNA variant m.15218A > G in Finnish epilepsy patients who have maternal relatives with epilepsy, sensorineural hearing impairment or diabetes mellitus.

Author

Soini HK, Moilanen JS, Vilmi-Kerälä T, Finnilä S, and Majamaa K

Subjects

Base Sequence, Female, Finland, Genetic Variation, Humans, Male, Mitochondrial Diseases genetics, Pedigree, Phylogeny, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, DNA, Mitochondrial genetics, Diabetes Mellitus genetics, Epilepsy genetics, Hearing Loss, Sensorineural genetics, Mitochondria genetics

Abstract

Background: Mitochondrial diseases caused by mutations in mitochondrial DNA (mtDNA) affect tissues with high energy demand. Epilepsy is one of the manifestations of mitochondrial dysfunction when the brain is affected. We have studied here 79 Finnish patients with epilepsy and who have maternal first- or second-degree relatives with epilepsy, sensorineural hearing impairment or diabetes mellitus., Methods: The entire mtDNA was studied by using conformation sensitive gel electrophoresis and PCR fragments that differed in mobility were directly sequenced., Results: We found a common nonsynonymous variant m.15218A > G (p.T158A, MTCYB) that occurs in haplogroup U5a1 to be more frequent in patients with epilepsy. The m.15218A > G variant was present in five patients with epilepsy and in four out of 403 population controls (p = 0.0077). This variant was present in two branches in the phylogenetic network constructed on the basis of mtDNA variation among the patients. Three algorithms predicted that m.15218A > G is damaging in effect., Conclusions: We suggest that the m.15218A > G variant is mildly deleterious and that mtDNA involvement should be considered in patients with epilepsy and who have a maternal history of epilepsy, sensorineural hearing impairment or diabetes mellitus.

Published

2013

38. The phenotype of Floating-Harbor syndrome: clinical characterization of 52 individuals with mutations in exon 34 of SRCAP.

Author

Nikkel SM, Dauber A, de Munnik S, Connolly M, Hood RL, Caluseriu O, Hurst J, Kini U, Nowaczyk MJ, Afenjar A, Albrecht B, Allanson JE, Balestri P, Ben-Omran T, Brancati F, Cordeiro I, da Cunha BS, Delaney LA, Destrée A, Fitzpatrick D, Forzano F, Ghali N, Gillies G, Harwood K, Hendriks YM, Héron D, Hoischen A, Honey EM, Hoefsloot LH, Ibrahim J, Jacob CM, Kant SG, Kim CA, Kirk EP, Knoers NV, Lacombe D, Lee C, Lo IF, Lucas LS, Mari F, Mericq V, Moilanen JS, Møller ST, Moortgat S, Pilz DT, Pope K, Price S, Renieri A, Sá J, Schoots J, Silveira EL, Simon ME, Slavotinek A, Temple IK, van der Burgt I, de Vries BB, Weisfeld-Adams JD, Whiteford ML, Wierczorek D, Wit JM, Yee CF, Beaulieu CL, White SM, Bulman DE, Bongers E, Brunner H, Feingold M, and Boycott KM

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Humans, Male, Middle Aged, Mutation, Young Adult, Abnormalities, Multiple genetics, Adenosine Triphosphatases genetics, Craniofacial Abnormalities genetics, Exons genetics, Growth Disorders genetics, Heart Septal Defects, Ventricular genetics

Abstract

Background: Floating-Harbor syndrome (FHS) is a rare condition characterized by short stature, delays in expressive language, and a distinctive facial appearance. Recently, heterozygous truncating mutations in SRCAP were determined to be disease-causing. With the availability of a DNA based confirmatory test, we set forth to define the clinical features of this syndrome., Methods and Results: Clinical information on fifty-two individuals with SRCAP mutations was collected using standardized questionnaires. Twenty-four males and twenty-eight females were studied with ages ranging from 2 to 52 years. The facial phenotype and expressive language impairments were defining features within the group. Height measurements were typically between minus two and minus four standard deviations, with occipitofrontal circumferences usually within the average range. Thirty-three of the subjects (63%) had at least one major anomaly requiring medical intervention. We did not observe any specific phenotype-genotype correlations., Conclusions: This large cohort of individuals with molecularly confirmed FHS has allowed us to better delineate the clinical features of this rare but classic genetic syndrome, thereby facilitating the development of management protocols.

Published

2013

39. Mutations in sFRP1 or sFRP4 are not a common cause of craniotubular hyperostosis.

Author

Boudin E, Piters E, Fijalkowski I, Stevenheydens G, Steenackers E, Kuismin O, Moilanen JS, Mortier G, and Van Hul W

Subjects

Animals, Bone Density, Cohort Studies, Female, Male, Mice, Pedigree, Hyperostosis genetics, Intercellular Signaling Peptides and Proteins genetics, Membrane Proteins genetics, Mutation, Proto-Oncogene Proteins genetics, Skull pathology

Abstract

Sclerosing bone dysplasias are a heterogeneous group of rare diseases marked by increased BMD caused by either increased bone formation or by decreased bone resorption. In this study we have focused on craniotubular hyperostoses mainly affecting the long bones and the skull. Currently, there are three causative genes identified namely LRP5, SOST and LRP4. All three genes are involved in the canonical Wnt signalling pathway. These findings support the role of this pathway in regulating bone formation. The secreted Frizzled related proteins (sFRPs) can modulate the Wnt signalling pathway by binding to Wnt ligands or Frizzled receptors. Studies using mice showed that two members of this family, sFRP1 and sFRP4, have an important effect on bone formation. Sfrp1-/- mice have increased BMD values especially after peak BMD was reached. On the contrary, sfrp4 overexpression mice exhibit reduced BMD. Therefore, we selected sFRP1 and sFRP4, two members of the secreted Frizzled related protein (sFRP) family, as candidate genes for mutation analysis in patients with craniotubular hyperostosis. Using Sanger sequencing we screened the exons and intron/exon boundaries of sFRP1 and sFRP4 in 53 patients. In all patients mutations in LRP5, SOST and LRP4 were excluded. We identified two unknown heterozygous variants both in sFRP1. The first variant in sFRP1 is an intronic variant which, according to prediction programs, does not affect the splicing of the gene. The second variant (p.Trp131Arg/-) was identified in a young boy whose healthy mother does not carry the variant. In conclusion, our studies indicate that mutations neither in sFRP1 nor in sFRP4 are a common cause of craniotubular hyperostoses. As a consequence, further research will be necessary to identify the disease causing gene(s) in this group of patients., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

40. De novo STX16 deletions: an infrequent cause of pseudohypoparathyroidism type Ib that should be excluded in sporadic cases.

Author

Turan S, Ignatius J, Moilanen JS, Kuismin O, Stewart H, Mann NP, Linglart A, Bastepe M, and Jüppner H

Subjects

Child, Family, Gene Frequency, Humans, Inheritance Patterns, Male, Pedigree, Pseudohypoparathyroidism classification, Pseudohypoparathyroidism diagnosis, Pseudohypoparathyroidism, Gene Deletion, Pseudohypoparathyroidism genetics, Syntaxin 16 genetics

Abstract

Context: Maternally inherited 3-kb STX16 deletions cause autosomal dominant pseudohypoparathyroidism type Ib (PHP-Ib) characterized by PTH resistance with loss of methylation restricted to the GNAS exon A/B., Objective: The objective of the study was to search for the 3-kb STX16 deletion and to establish haplotypes for the GNAS region for two PHP-Ib patients and their families., Setting: The study was conducted at a research laboratory and tertiary care hospitals., Patients: The index cases presented at the ages 8 and 9.5 yr, respectively, with hypocalcemia, hyperphosphatemia, and elevated PTH., Interventions: There were no interventions., Results: DNA analyses of the index cases revealed an isolated loss of the GNAS exon A/B methylation and the 3-kb STX16 deletion. In the first family, the patient's healthy mother and sister showed no genetic or epigenetic abnormality, yet microsatellite analysis of the GNAS region indicated that both siblings share the same maternal allele, with the exception of an allelic loss for marker 261P9-CA1 (located within STX16), leading to the conclusion that a de novo mutation had occurred on the maternal allele. In the second family, three siblings of the index case are also affected, and an analysis of their DNA revealed the 3-kb STX16 deletion, which was also found in the healthy mother and a maternal uncle. Analysis of the siblings of the deceased maternal grandfather and some of their descendants excluded the 3-kb STX16 deletion, but haplotype analysis of the GNAS region suggested that he had acquired the mutation de novo., Conclusions: De novo 3-kb STX16 deletions, reported only once previously, are infrequent but should be excluded in all cases of PHP-Ib, even when the family history is negative for an inherited form of this disorder.

Published

2012

41. Mitochondrial DNA sequence variation in Finnish patients with matrilineal diabetes mellitus.

Author

Soini HK, Moilanen JS, Finnila S, and Majamaa K

Subjects

Adult, Base Sequence, Case-Control Studies, Electron Transport Complex I genetics, Electrophoresis, Polyacrylamide Gel, Female, Finland, Genetic Predisposition to Disease, Haplotypes, Heredity, Humans, Male, Middle Aged, Mitochondrial Proteins genetics, Molecular Sequence Data, Pedigree, Risk Assessment, Risk Factors, Sequence Analysis, DNA, Young Adult, DNA, Mitochondrial genetics, Diabetes Mellitus, Type 2 genetics, Mothers, Polymorphism, Genetic

Abstract

Background: The genetic background of type 2 diabetes is complex involving contribution by both nuclear and mitochondrial genes. There is an excess of maternal inheritance in patients with type 2 diabetes and, furthermore, diabetes is a common symptom in patients with mutations in mitochondrial DNA (mtDNA). Polymorphisms in mtDNA have been reported to act as risk factors in several complex diseases., Findings: We examined the nucleotide variation in complete mtDNA sequences of 64 Finnish patients with matrilineal diabetes. We used conformation sensitive gel electrophoresis and sequencing to detect sequence variation. We analysed the pathogenic potential of nonsynonymous variants detected in the sequences and examined the role of the m.16189 T>C variant. Controls consisted of non-diabetic subjects ascertained in the same population. The frequency of mtDNA haplogroup V was 3-fold higher in patients with diabetes. Patients harboured many nonsynonymous mtDNA substitutions that were predicted to be possibly or probably damaging. Furthermore, a novel m.13762 T>G in MTND5 leading to p.Ser476Ala and several rare mtDNA variants were found. Haplogroup H1b harbouring m.16189 T > C and m.3010 G > A was found to be more frequent in patients with diabetes than in controls., Conclusions: Mildly deleterious nonsynonymous mtDNA variants and rare population-specific haplotypes constitute genetic risk factors for maternally inherited diabetes.

Published

2012

42. Mutations in SRCAP, encoding SNF2-related CREBBP activator protein, cause Floating-Harbor syndrome.

Author

Hood RL, Lines MA, Nikkel SM, Schwartzentruber J, Beaulieu C, Nowaczyk MJ, Allanson J, Kim CA, Wieczorek D, Moilanen JS, Lacombe D, Gillessen-Kaesbach G, Whiteford ML, Quaio CR, Gomy I, Bertola DR, Albrecht B, Platzer K, McGillivray G, Zou R, McLeod DR, Chudley AE, Chodirker BN, Marcadier J, Majewski J, Bulman DE, White SM, and Boycott KM

Subjects

Amino Acid Motifs, Child, Child, Preschool, Chromatin genetics, Exome, Female, Heterozygote, Humans, Infant, Male, Phenotype, Protein Binding, Rubinstein-Taybi Syndrome genetics, Abnormalities, Multiple genetics, Adenosine Triphosphatases genetics, CREB-Binding Protein genetics, Craniofacial Abnormalities genetics, Growth Disorders genetics, Heart Septal Defects, Ventricular genetics, Mutation

Abstract

Floating-Harbor syndrome (FHS) is a rare condition characterized by short stature, delayed osseous maturation, expressive-language deficits, and a distinctive facial appearance. Occurrence is generally sporadic, although parent-to-child transmission has been reported on occasion. Employing whole-exome sequencing, we identified heterozygous truncating mutations in SRCAP in five unrelated individuals with sporadic FHS. Sanger sequencing identified mutations in SRCAP in eight more affected persons. Mutations were de novo in all six instances in which parental DNA was available. SRCAP is an SNF2-related chromatin-remodeling factor that serves as a coactivator for CREB-binding protein (CREBBP, better known as CBP, the major cause of Rubinstein-Taybi syndrome [RTS]). Five SRCAP mutations, two of which are recurrent, were identified; all are tightly clustered within a small (111 codon) region of the final exon. These mutations are predicted to abolish three C-terminal AT-hook DNA-binding motifs while leaving the CBP-binding and ATPase domains intact. Our findings show that SRCAP mutations are the major cause of FHS and offer an explanation for the clinical overlap between FHS and RTS., (Copyright © 2012 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2012

43. Mutations in STAT3 and diagnostic guidelines for hyper-IgE syndrome.

Author

Woellner C, Gertz EM, Schäffer AA, Lagos M, Perro M, Glocker EO, Pietrogrande MC, Cossu F, Franco JL, Matamoros N, Pietrucha B, Heropolitańska-Pliszka E, Yeganeh M, Moin M, Español T, Ehl S, Gennery AR, Abinun M, Breborowicz A, Niehues T, Kilic SS, Junker A, Turvey SE, Plebani A, Sánchez B, Garty BZ, Pignata C, Cancrini C, Litzman J, Sanal O, Baumann U, Bacchetta R, Hsu AP, Davis JN, Hammarström L, Davies EG, Eren E, Arkwright PD, Moilanen JS, Viemann D, Khan S, Maródi L, Cant AJ, Freeman AF, Puck JM, Holland SM, and Grimbacher B

Subjects

Adolescent, Adult, Cell Separation, Child, Child, Preschool, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Humans, Immunoglobulin E blood, Infant, Interleukin-17 immunology, Job Syndrome immunology, Male, Middle Aged, Mutation, Polymerase Chain Reaction, Practice Guidelines as Topic, T-Lymphocytes, Helper-Inducer immunology, Young Adult, Job Syndrome diagnosis, Job Syndrome genetics, STAT3 Transcription Factor genetics

Abstract

Background: The hyper-IgE syndrome (HIES) is a primary immunodeficiency characterized by infections of the lung and skin, elevated serum IgE, and involvement of the soft and bony tissues. Recently, HIES has been associated with heterozygous dominant-negative mutations in the signal transducer and activator of transcription 3 (STAT3) and severe reductions of T(H)17 cells., Objective: To determine whether there is a correlation between the genotype and the phenotype of patients with HIES and to establish diagnostic criteria to distinguish between STAT3 mutated and STAT3 wild-type patients., Methods: We collected clinical data, determined T(H)17 cell numbers, and sequenced STAT3 in 100 patients with a strong clinical suspicion of HIES and serum IgE >1000 IU/mL. We explored diagnostic criteria by using a machine-learning approach to identify which features best predict a STAT3 mutation., Results: In 64 patients, we identified 31 different STAT3 mutations, 18 of which were novel. These included mutations at splice sites and outside the previously implicated DNA-binding and Src homology 2 domains. A combination of 5 clinical features predicted STAT3 mutations with 85% accuracy. T(H)17 cells were profoundly reduced in patients harboring STAT3 mutations, whereas 10 of 13 patients without mutations had low (<1%) T(H)17 cells but were distinct by markedly reduced IFN-gamma-producing CD4(+)T cells., Conclusion: We propose the following diagnostic guidelines for STAT3-deficient HIES. Possible: IgE >1000IU/mL plus a weighted score of clinical features >30 based on recurrent pneumonia, newborn rash, pathologic bone fractures, characteristic face, and high palate. Probable: These characteristics plus lack of T(H)17 cells or a family history for definitive HIES. Definitive: These characteristics plus a dominant-negative heterozygous mutation in STAT3., (Copyright 2010 American Academy of Allergy, Asthma & Immunology. Published by Mosby, Inc. All rights reserved.)

Published

2010

44. Homozygous W748S mutation in the POLG1 gene in patients with juvenile-onset Alpers syndrome and status epilepticus.

Author

Uusimaa J, Hinttala R, Rantala H, Päivärinta M, Herva R, Röyttä M, Soini H, Moilanen JS, Remes AM, Hassinen IE, and Majamaa K

Subjects

Adolescent, Brain pathology, DNA Polymerase gamma, DNA, Mitochondrial genetics, Diagnosis, Differential, Diffuse Cerebral Sclerosis of Schilder diagnosis, Diffuse Cerebral Sclerosis of Schilder pathology, Electroencephalography, Epilepsy, Tonic-Clonic diagnosis, Epilepsy, Tonic-Clonic genetics, Epilepsy, Tonic-Clonic pathology, Fatal Outcome, Female, Humans, Liver pathology, Liver Failure, Acute diagnosis, Liver Failure, Acute genetics, Liver Failure, Acute pathology, Migraine Disorders diagnosis, Migraine Disorders genetics, Migraine Disorders pathology, Sequence Analysis, DNA, Status Epilepticus diagnosis, Status Epilepticus pathology, DNA Mutational Analysis, DNA-Directed DNA Polymerase genetics, Diffuse Cerebral Sclerosis of Schilder genetics, Homozygote, Status Epilepticus genetics

Abstract

Purpose: Polymerase gamma (POLG) is the sole enzyme in the replication of mitochondrial DNA (mtDNA). Numerous mutations in the POLG1 gene have been detected recently in patients with various phenotypes including a classic infantile-onset Alpers-Huttenlocher syndrome (AHS). Here we studied the molecular etiology of juvenile-onset AHS manifesting with status epilepticus and liver disease in three teenagers., Patients and Methods: We examined 14- and 17-year-old female siblings (patients 1 and 2) and an unrelated 15-year-old girl (patient 3) with juvenile-onset AHS, sequenced POLG1, and the entire mtDNA, examined mtDNA deletions by amplification of the full-length mtDNA with the long PCR method and used real-time PCR to quantify mtDNA in the tissue samples., Results: The initial manifestations were migraine-like headache and epilepsy, and the terminal manifestations status epilepticus and hepatic failure. A homozygous W748S mutation in POLG1 was detected in the three patients. No deletions or pathogenic point mutations were found in mtDNA, but all three patients had mtDNA depletion., Conclusions: POLG mutations should be considered in cases of teenagers and young adults with a sudden onset of intractable seizures or status epilepticus, and acute liver failure. The W748S POLG1 mutation seems to lead to tissue-specific, partial mtDNA depletion in patients with juvenile-onset Alpers syndrome. Valproic acid should be avoided in the treatment of epileptic seizures in these patients.

Published

2008

45. Prevalence, segregation, and phenotype of the mitochondrial DNA 3243A>G mutation in children.

Author

Uusimaa J, Moilanen JS, Vainionpää L, Tapanainen P, Lindholm P, Nuutinen M, Löppönen T, Mäki-Torkko E, Rantala H, and Majamaa K

Subjects

Adult, Body Height genetics, Child, Chromosome Segregation genetics, Cohort Studies, DNA, Mitochondrial blood, Epithelial Cells, Exercise Tolerance genetics, Female, Finland epidemiology, Gene Frequency, Genetic Drift, Growth genetics, Growth physiology, Haplotypes, Hearing Loss, Sensorineural genetics, Humans, Learning Disabilities genetics, MELAS Syndrome genetics, Male, Migraine Disorders genetics, Mouth Mucosa cytology, Mutation physiology, Phenotype, DNA, Mitochondrial genetics, Mitochondrial Diseases genetics, Mutation genetics

Abstract

Objective: We studied the prevalence, segregation, and phenotype of the mitochondrial DNA 3243A>G mutation in children in a defined population in Northern Ostrobothnia, Finland., Methods: Children with diagnoses commonly associated with mitochondrial diseases were ascertained. Blood DNA from 522 selected children was analyzed for 3243A>G. Children with the mutation were clinically examined. Information on health history before the age of 18 years was collected from previously identified adult patients with 3243A>G. Mutation segregation analysis in buccal epithelial cells was performed in mothers with 3243A>G and their children whose samples were analyzed anonymously., Results: Eighteen children were found to harbor 3243A>G in a population of 97,609. A minimum estimate for the prevalence of 3243A>G was 18.4 in 100,000 (95% confidence interval, 10.9-29.1/100,000). Information on health in childhood was obtained from 37 adult patients with 3243A>G. The first clinical manifestations appearing in childhood were sensorineural hearing impairment, short stature or delayed maturation, migraine, learning difficulties, and exercise intolerance. Mutation analysis from 13 mothers with 3243A>G and their 41 children gave a segregation rate of 0.80. The mothers with heteroplasmy greater than 50% tended to have offspring with lower or equal heteroplasmy, whereas the opposite was true for mothers with heteroplasmy less than or equal to 50% (p = 0.0016)., Interpretation: The prevalence of 3243A>G is relatively high in the pediatric population, but the morbidity in children is relatively low. The random genetic drift model may be inappropriate for the transmission of the 3243A>G mutation.

Published

2007

46. Genotype-phenotype analysis in patients with giant axonal neuropathy (GAN).

Author

Koop O, Schirmacher A, Nelis E, Timmerman V, De Jonghe P, Ringelstein B, Rasic VM, Evrard P, Gärtner J, Claeys KG, Appenzeller S, Rautenstrauss B, Hühne K, Ramos-Arroyo MA, Wörle H, Moilanen JS, Hammans S, and Kuhlenbäumer G

Subjects

Adolescent, Adult, Child, DNA Mutational Analysis, Exons genetics, Female, Genotype, Humans, Magnetic Resonance Imaging, Male, Microtubule-Associated Proteins metabolism, Peripheral Nervous System Diseases metabolism, Phenotype, Promoter Regions, Genetic genetics, Ubiquitin metabolism, Cytoskeletal Proteins genetics, Cytoskeletal Proteins metabolism, Peripheral Nervous System Diseases genetics, Peripheral Nervous System Diseases pathology

Abstract

Giant axonal neuropathy (GAN, MIM: 256850) is a devastating autosomal recessive disorder characterized by an early onset severe peripheral neuropathy, varying central nervous system involvement and strikingly frizzly hair. Giant axonal neuropathy is usually caused by mutations in the gigaxonin gene (GAN) but genetic heterogeneity has been demonstrated for a milder variant of this disease. Here, we report ten patients referred to us for molecular genetic diagnosis. All patients had typical clinical signs suggestive of giant axonal neuropathy. In seven affected individuals, we found disease causing mutations in the gigaxonin gene affecting both alleles: two splice-site and four missense mutations, not reported previously. Gigaxonin binds N-terminally to ubiquitin activating enzyme E1 and C-terminally to various microtubule associated proteins causing their ubiquitin mediated degradation. It was shown for a number of gigaxonin mutations that they impede this process leading to accumulation of microtubule associated proteins and there by impairing cellular functions.

Published

2007

47. Analysis of mitochondrial DNA sequences in patients with isolated or combined oxidative phosphorylation system deficiency.

Author

Hinttala R, Smeets R, Moilanen JS, Ugalde C, Uusimaa J, Smeitink JA, and Majamaa K

Subjects

Adolescent, Child, Child, Preschool, Computational Biology, DNA Mutational Analysis, Genetic Testing methods, Humans, Infant, Infant, Newborn, Mitochondrial Diseases diagnosis, Phylogeny, DNA, Mitochondrial chemistry, Mitochondrial Diseases genetics

Abstract

Background: Enzyme deficiencies of the oxidative phosphorylation (OXPHOS) system may be caused by mutations in the mitochondrial DNA (mtDNA) or in the nuclear DNA., Objective: To analyse the sequences of the mtDNA coding region in 25 patients with OXPHOS system deficiency to identify the underlying genetic defect., Results: Three novel non-synonymous substitutions in protein-coding genes, 4681T-->C in MT-ND2, 9891T-->C in MT-CO3 and 14122A-->G in MT-ND5, and one novel substitution in the 12S rRNA gene, 686A-->G, were found. The definitely pathogenic mutation 3460G-->A was identified in an 18-year-old woman who had severe isolated complex I deficiency and progressive myopathy., Conclusions: Bioinformatic analyses suggest a pathogenic role for the novel 4681T-->C substitution found in a boy with Leigh's disease. These results show that the clinical phenotype caused by the primary Leber's hereditary optic neuropathy mutation 3460G-->A is more variable than has been thought. In the remaining 23 patients, the role of mtDNA mutations as a cause of the OXPHOS system deficiency could be excluded. The deficiency in these children probably originates from mutations in the nuclear genes coding for respiratory enzyme subunits or assembly factors.

Published

2006

48. Mitochondrial DNA sequence variation and mutation rate in patients with CADASIL.

Author

Annunen-Rasila J, Finnilä S, Mykkänen K, Moilanen JS, Veijola J, Pöyhönen M, Viitanen M, Kalimo H, and Majamaa K

Subjects

Adult, Aged, 80 and over, Case-Control Studies, Female, Finland, Genetic Predisposition to Disease, Haplotypes, Humans, Male, Middle Aged, Open Reading Frames, Pedigree, Polymorphism, Genetic, Receptor, Notch3, CADASIL genetics, DNA, Mitochondrial genetics, Genetic Variation, Mutation, Receptors, Notch genetics

Abstract

Mutations in the NOTCH3 gene cause cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), which is clinically characterised by recurrent ischemic strokes, migraine with aura, psychiatric symptoms, cognitive decline and dementia. We have previously described a patient with CADASIL caused by a R133C mutation in the NOTCH3 gene and with a concomitant myopathy caused by a 5650G>A mutation in the MTTA gene in mitochondrial DNA (mtDNA). We assume that the co-occurrence of the two mutations is not coincidental and that mutations in the NOTCH3 gene may predispose the mtDNA to mutations. We therefore examined the nucleotide variation in the mtDNA coding region sequences in 20 CADASIL pedigrees with 77 affected patients by conformation-sensitive gel electrophoresis and sequencing. The sequence variation in mtDNA was then compared with that among 192 healthy Finns. A total of 180 mtDNA coding region sequence differences were found relative to the revised Cambridge reference sequence, including five novel synonymous substitutions, two novel nonsynonymous substitutions and one novel tRNA substitution. We found that maternal relatives in two pedigrees differed from each other in their mtDNA. Furthermore, the average number of pairwise differences in sequences from the 41 unrelated maternal lineages with CADASIL was higher than that expected among haplogroup-matched controls. The numbers of polymorphic sites and polymorphisms that were present in only one sequence were also higher among the CADASIL sequences than among the control sequences. Our results show that mtDNA sequence variation is increased within CADASIL pedigrees. These findings suggest a relationship between NOTCH3 and mtDNA.

Published

2006

49. Sequence variation in the tRNA genes of human mitochondrial DNA.

Author

Vilmi T, Moilanen JS, Finnilä S, and Majamaa K

Subjects

Analysis of Variance, Base Pairing, Computational Biology, Conserved Sequence genetics, DNA Primers, Databases, Genetic, Electrophoresis methods, Finland, Gene Frequency, Humans, Selection, Genetic, Sequence Analysis, DNA, White People genetics, DNA, Mitochondrial genetics, Genetic Variation, RNA, Transfer genetics

Abstract

Recent analyses have shown that nonsynonymous variation in human mitochondrial DNA (mtDNA) contains nonneutral variants, suggesting the presence of mildly deleterious mutations. Many of the disease-causing mutations in mtDNA occur in the genes encoding the tRNAs. Nucleotide sequence variation in these genes has not been studied in human populations, nor have the structural consequences of nucleotide substitutions in tRNA molecules been examined. We therefore determined the nucleotide sequences of the 22 tRNA genes in the mtDNA of 477 Finns and, also, obtained 435 European sequences from the MitoKor database. No differences in population polymorphism indices were found between the two data sets. We assessed selective constraints against various tRNA domains by comparing allele frequencies between these domains and the synonymous and nonsynonymous sites, respectively. All tRNA domains except the variable loop were more conserved than synonymous sites, and T stem and D stem were more conserved than the respective loops. We also analyzed the energetic consequences of the 96 polymorphisms recovered in the two data sets or in the Mitomap database. The minimum free energy (DeltaG) was calculated using the free energy rules as implemented in mfold version 3.1. The DeltaG's were normally distributed among the 22 wild-type tRNA genes, whereas the 96 polymorphic tRNAs departed significantly from a normal distribution. The largest differences in DeltaG between the wild-type and the polymorphic tRNAs in the Finnish population tended to be in the polymorphisms that were present at low frequencies. Allele frequency distributions and minimum free energy calculations both suggested that some polymorphisms in tRNA genes are nonneutral.

Published

2005

50. A combination of three common inherited mitochondrial DNA polymorphisms promotes longevity in Finnish and Japanese subjects.

Author

Niemi AK, Moilanen JS, Tanaka M, Hervonen A, Hurme M, Lehtimäki T, Arai Y, Hirose N, and Majamaa K

Subjects

Aged, Aged, 80 and over, Epistasis, Genetic, Female, Finland, Haplotypes genetics, Humans, Japan, Male, Middle Aged, Quantitative Trait Loci genetics, DNA, Mitochondrial genetics, Longevity genetics, Polymorphism, Single Nucleotide genetics

Abstract

Mitochondrial DNA (mtDNA) coding region polymorphisms, as well as the 150T polymorphism in the noncoding region, have been associated with longevity. We have studied here the association of 150T with longevity further and assessed differences in this association between various mtDNA haplogroups. We analysed a sample of 321 very old subjects and 489 middle-aged controls from Finland and Japan. 150T was more frequent among the very old than among the controls in both the Finnish and Japanese subjects. Interestingly, the association was not similar in all haplogroups, and a stratified analysis revealed that two additional common polymorphisms, 489C and 10398G, modified the association between 150T and longevity. These findings suggest that longevity is partly determined by epistatic interactions involving these three mtDNA loci.

Published

2005