Your search keyword '"Johanna, Uusimaa"' showing total 67 results

1. The Genetic Landscape of Complex Childhood‐Onset Hyperkinetic Movement Disorders

Author

Belén Pérez‐Dueñas, Kathleen Gorman, Anna Marcé‐Grau, Juan D. Ortigoza‐Escobar, Alfons Macaya, Federica R. Danti, Katy Barwick, Apostolos Papandreou, Joanne Ng, Esther Meyer, Shekeeb S. Mohammad, Martin Smith, Francesco Muntoni, Pinki Munot, Johanna Uusimaa, Päivi Vieira, Eammon Sheridan, Renzo Guerrini, Jan Cobben, Sanem Yilmaz, Elisa De Grandis, Russell C. Dale, Roser Pons, Kathryn J. Peall, Vincenzo Leuzzi, Manju A. Kurian, Institut Català de la Salut, [Pérez-Dueñas B, Macaya A] Servei de Neurologia Pediàtrica, Vall d’Hebron Hospital Universitari, Barcelona, Spain. Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. Departament de Pediatria, Obstetrícia, Ginecologia, Medicina Preventiva i Salut Pública, Universitat Autònoma de Barcelona, Bellaterra, Spain. Center for Biomedical Network Research on Rare Diseases (CIBERER) CB06/07/0063, Barcelona, Spain. [Gorman K] Developmental Neurosciences Programme, Great Ormond Street–Institute of Child Health, University College London, London, United Kingdom. Dubowitz neuromuscular Center, Great Ormond Street Hospital for Children, London, United Kingdom. [Marcé-Grau A] Servei de Neurologia Pediàtrica, Vall d’Hebron Hospital Universitari, Barcelona, Spain. Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. [Ortigoza-Escobar JD] Department of Pediatric Neurology, Sant Joan de Déu Hospital, Barcelona, Spain. [Danti FR] Unit of Child Neurology and Psychiatry, Department of Human Neuroscience, Sapienza University of Rome, Rome, Italy, and Vall d'Hebron Barcelona Hospital Campus

Subjects

Myoclonus, Monoamine Neurotransmitter Disorders, Trastorns motors - Diagnòstic, Nerve Tissue Proteins, personas::Grupos de Edad::niño [DENOMINACIONES DE GRUPOS], infantile parkinsonism, Hyperkinesis, GTP-Binding Protein alpha Subunits, Gi-Go, Deep Brain-Stimulation, Hyperkinetic movement disorders, Chorea, Spectrum, Other subheadings::Other subheadings::/genetics [Other subheadings], Humans, hyperkinetic movement disorders, Child, Children, Atenció precoç, Movement Disorders, Infantile parkinsonism, Nervous System Diseases::Central Nervous System Diseases::Movement Disorders [DISEASES], Phosphoric Diester Hydrolases, Otros calificadores::Otros calificadores::/genética [Otros calificadores], Variants, Forkhead Transcription Factors, Persons::Age Groups::Child [NAMED GROUPS], Classification, myoclonus, Dystonia, diagnóstico::diagnóstico precoz [TÉCNICAS Y EQUIPOS ANALÍTICOS, DIAGNÓSTICOS Y TERAPÉUTICOS], Neurology, Dystonic Disorders, Deficiency, enfermedades del sistema nervioso::enfermedades del sistema nervioso central::trastornos del movimiento [ENFERMEDADES], Neurology (clinical), Sodium-Potassium-Exchanging ATPase, Trastorns motors - Aspectes genètics, Infants, Mutations, Diagnosis::Early Diagnosis [ANALYTICAL, DIAGNOSTIC AND THERAPEUTIC TECHNIQUES, AND EQUIPMENT]

Abstract

Background and Objective: The objective of this study was to better delineate the genetic landscape and key clinical characteristics of complex, early-onset, monogenic hyperkinetic movement disorders. Methods: Patients were recruited from 14 international centers. Participating clinicians completed standardized proformas capturing demographic, clinical, and genetic data. Two pediatric movement disorder experts reviewed available video footage, classifying hyperkinetic movements according to published criteria. Results: One hundred forty patients with pathogenic variants in 17 different genes (ADCY5, ATP1A3, DDC, DHPR, FOXG1, GCH1, GNAO1, KMT2B, MICU1, NKX2.1, PDE10A, PTPS, SGCE, SLC2A1, SLC6A3, SPR, and TH) were identified. In the majority, hyperkinetic movements were generalized (77%), with most patients (69%) manifesting combined motor semiologies. Parkinsonism-dystonia was characteristic of primary neurotransmitter disorders (DDC, DHPR, PTPS, SLC6A3, SPR, TH); chorea predominated in ADCY5-, ATP1A3-, FOXG1-, NKX2.1-, SLC2A1-, GNAO1-, and PDE10A-related disorders; and stereotypies were a prominent feature in FOXG1- and GNAO1-related disease. Those with generalized hyperkinetic movements had an earlier disease onset than those with focal/segmental distribution (2.5 +/- 0.3 vs. 4.7 +/- 0.7 years; P = 0.007). Patients with developmental delay also presented with hyperkinetic movements earlier than those with normal neurodevelopment (1.5 +/- 2.9 vs. 4.7 +/- 3.8 years; P < 0.001). Effective disease-specific therapies included dopaminergic agents for neurotransmitters disorders, ketogenic diet for glucose transporter deficiency, and deep brain stimulation for SGCE-, KMT2B-, and GNAO1-related hyperkinesia. Conclusions: This study highlights the complex phenotypes observed in children with genetic hyperkinetic movement disorders that can lead to diagnostic difficulty. We provide a comprehensive analysis of motor semiology to guide physicians in the genetic investigation of these patients, to facilitate early diagnosis, precision medicine treatments, and genetic counseling. (C) 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society, NIHR Professorship; Sir Jules Thorn Award for Biomedical Research and Wellcome Trust; Instituto de Salud Carlos III [PI 18/01319, PI21/00248]; MRC Clinician-Scientist Fellowship [511015]; Dystonia Medical Research Foundation; Fight for Sight; Winston Churchill Memorial trust and Cerebral Palsy Alliance; Beca Jose Castillejos [CAS14/00328], This work was supported by an NIHR Professorship (to M.A.K.). M.A.K. has received funding from the Sir Jules Thorn Award for Biomedical Research and Wellcome Trust. B.P.-D. was supported by Instituto de Salud Carlos III, PI 18/01319 and PI21/00248, and has received funding from Beca Jose Castillejos (CAS14/00328). K.J.P. was supported by an MRC Clinician-Scientist Fellowship (511015) and was supported by the Dystonia Medical Research Foundation and Fight for Sight. S.S.M. has received funding from the Winston Churchill Memorial trust and Cerebral Palsy Alliance.

Published

2022

2. DNA polymerase gamma variants and hepatotoxicity during maintenance therapy of childhood acute lymphoblastic leukemia: is there a causal relationship?

Author

Tekla Harju, Anri Hurme-Niiranen, Maria Suo-Palosaari, Stine Nygaard Nielsen, Reetta Hinttala, Kjeld Schmiegelow, Johanna Uusimaa, Arja Harila, and Riitta Niinimäki

Subjects

Pharmacology, Genetics, Molecular Medicine

Abstract

Hepatotoxicity is a frequent complication during maintenance therapy of acute lymphoblastic leukemia (ALL) with 6-mercaptopurine and methotrexate. Elevated levels of methylated 6-mercaptopurine metabolites (MeMP) are associated with hepatotoxicity. However, not all mechanisms are known that lead to liver failure in patients with ALL. Variants in the POLG gene, which encodes the catalytic subunit of mitochondrial DNA polymerase gamma (POLG1), have been related to drug-induced hepatotoxicity, for example, by sodium valproate. The association of common POLG variants with hepatotoxicity during maintenance therapy was studied in 34 patients with childhood ALL. Of the screened POLG variants, four different variants were detected in 12 patients. One patient developed severe hepatotoxicity without elevated MeMP levels and harbored a heterozygous POLG p.G517V variant, which was not found in the other patients.

Published

2023

3. Starting a DBS service for children: It’s not the latitude but the attitude - Establishment of the paediatric DBS centre in Northern Finland

Author

Maija Lahtinen, Heli Helander, Päivi Vieira, Johanna Uusimaa, and Jani Katisko

Subjects

cerebral palsy, Movement Disorders, Phosphoric Diester Hydrolases, Cerebral Palsy, Deep Brain Stimulation, Patient Selection, tractography, General Medicine, deep brain stimulation, Pediatrics, Perinatology and Child Health, movement disorders, Humans, dystonia, neurosurgery, Neurology (clinical), Child, Finland

Abstract

Objective: Paediatric movement disorder patients can benefit from deep brain stimulation (DBS) treatment and it should be offered in a timely manner. In this paper we describe our experience establishing a DBS service for paediatric patients. Methods: We set out to establish a paediatric DBS (pDBS) procedure in Oulu University Hospital in northern Finland, where up to this point DBS treatment for movement disorders had been available for adult patients. Collaboration with experienced centres aided in the process. Results: A multidisciplinary team was assembled and a systematic protocol for patient evaluation and treatment was created, with attention to special features of the regional health care system. All of our first paediatric patients had very severe movement disorders, which is typical for a new DBS centre. The patients benefitted from pDBS treatment despite variable aetiologies of movement disorders, which included cerebral palsy and rare genetic disorders with variants in PDE10A, TPK1 and ARX. We also present our high-quality paediatric MR-imaging protocol with tractography. Conclusions: Establishment of a pDBS centre requires expertise in classification of paediatric movement disorders, longstanding experience in adult DBS and a committed multidisciplinary team. Besides high-quality imaging and a skilled neurosurgery team, careful patient selection, realistic treatment goals and experience in rehabilitation are imperative in pDBS treatment.

Published

2022

4. HIDEA syndrome is caused by biallelic, pathogenic, rare or founder P4HTM variants impacting the active site or the overall stability of the P4H-TM protein

Author

Minna Kraatari‐Tiri, Leila Soikkonen, Matti Myllykoski, Yalda Jamshidi, Ehsan G. Karimiani, Jonna Komulainen‐Ebrahim, Hanna Kallankari, Cyril Mignot, Christel Depienne, Boris Keren, Marie‐Christine Nougues, Zahra Alsahlawi, Antonio Romito, Javier Martini, Mehran B. Toosi, Christopher J. Carroll, Kornelia Tripolszki, Peter Bauer, Johanna Uusimaa, Aida M. Bertoli‐Avella, Peppi Koivunen, and Elisa Rahikkala

Subjects

recessive, Syndrome, Prolyl Hydroxylases, HIDEA, Phenotype, intellectual disability, Codon, Nonsense, Catalytic Domain, Intellectual Disability, Genetics, Humans, Muscle Hypotonia, P4HTM, Amino Acids, genes, Genetics (clinical)

Abstract

HIDEA syndrome is caused by biallelic pathogenic variants in P4HTM. The phenotype is characterized by muscular and central hypotonia, hypoventilation including obstructive and central sleep apneas, intellectual disability, dysautonomia, epilepsy, eye abnormalities, and an increased tendency to develop respiratory distress during pneumonia. Here, we report six new patients with HIDEA syndrome caused by five different biallelic P4HTM variants, including three novel variants. We describe two Finnish enriched pathogenic P4HTM variants and demonstrate that these variants are embedded within founder haplotypes. We review the clinical data from all previously published patients with HIDEA and characterize all reported P4HTM pathogenic variants associated with HIDEA in silico. All known pathogenic variants in P4HTM result in either premature stop codons, an intragenic deletion, or amino acid changes that impact the active site or the overall stability of P4H-TM protein. In all cases, normal P4H-TM enzyme function is expected to be lost or severely decreased. This report expands knowledge of the genotypic and phenotypic spectrum of the disease. publishedVersion

Published

2022

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

Author

Maria Suo-Palosaari, Päivi Vieira, Elisa Rahikkala, Oula Knuutinen, Reetta Hinttala, Johanna Uusimaa, Salla M. Kangas, Jukka S. Moilanen, Jaakko H Oikarainen, and Tytti Pokka

Subjects

Adult, Male, 030506 rehabilitation, medicine.medical_specialty, Pediatrics, Adolescent, Population, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, Leukoencephalopathies, Epidemiology, Intellectual disability, medicine, Humans, Longitudinal Studies, Child, education, Finland, Retrospective Studies, Neurologic Examination, education.field_of_study, business.industry, Incidence, Incidence (epidemiology), Infant, Newborn, Infant, medicine.disease, Magnetic Resonance Imaging, White Matter, Hypotonia, Natural history, Child, Preschool, Pediatrics, Perinatology and Child Health, Etiology, Female, Neurology (clinical), medicine.symptom, 0305 other medical science, business, 030217 neurology & neurosurgery, Cohort study

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.

Published

2021

6. Nhlrc2 is crucial during mouse gastrulation

Author

Anniina E. Hiltunen, Reetta Vuolteenaho, Veli‐Pekka Ronkainen, Ilkka Miinalainen, Johanna Uusimaa, Siri Lehtonen, and Reetta Hinttala

Subjects

animal structures, Nhlrc2, epiblast, Gastrulation, Cell Differentiation, Cell Biology, amniotic folding, embryonic stem cells, Mice, Inbred C57BL, ectoderm, Mice, Endocrinology, Ectoderm, embryonic structures, Genetics, Animals, gastrulation, Germ Layers

Abstract

The loss of NHL repeat containing 2 (Nhlrc2) leads to early embryonic lethality in mice, but the exact timing is currently unknown. In this study, we determined the time of lethality for Nhlrc2 knockout (KO), C57BL/6NCrl-Nhlrc2tm1a(KOMP)Wtsi/Oulu, embryos and the in situ expression pattern of Nhlrc2 based on LacZ reporter gene expression during this period. Nhlrc2 KO preimplantation mouse embryos developed normally after in vitro fertilization. Embryonic stem (ES) cells established from KO blastocysts proliferated normally despite a complete loss of the NHLRC2 protein. Nhlrc2 KO embryos from timed matings implanted and were indistinguishable from their wildtype littermates on embryonic day (E) 6.5. On E7.5, Nhlrc2 KO embryo development was arrested, and on E8.5, only 6% of the genotyped embryos were homozygous for the Nhlrc2tm1a(KOMP)Wtsi allele. Nhlrc2 KO E8.5 embryos showed limited embryonic or extraembryonic tissue differentiation and remained at the cylinder stage. Nhlrc2 expression was ubiquitous but strongest in the epiblast/ectoderm and extraembryonic ectoderm on E6.5 and E7.5. NHLRC2 is essential for early postimplantation development, and its loss leads to failed gastrulation and amniotic folding in mice. Future studies on the evolutionarily conserved NHLRC2 will provide new insights into the molecular pathways involved in the early steps of postimplantation development.

Published

2022

7. Analysis of human brain tissue derived from DBS surgery

Author

Salla M, Kangas, Jaakko, Teppo, Maija J, Lahtinen, Anu, Suoranta, Bishwa, Ghimire, Pirkko, Mattila, Johanna, Uusimaa, Markku, Varjosalo, Jani, Katisko, and Reetta, Hinttala

Subjects

Proteomics, Deep Brain Stimulation, Brain, Humans, Reproducibility of Results, Parkinson Disease, Microelectrodes

Abstract

Transcriptomic and proteomic profiling of human brain tissue is hindered by the availability of fresh samples from living patients. Postmortem samples usually represent the advanced disease stage of the patient. Furthermore, the postmortem interval can affect the transcriptomic and proteomic profiles. Therefore, fresh brain tissue samples from living patients represent a valuable resource of metabolically intact tissue. Implantation of deep brain stimulation (DBS) electrodes into the human brain is a neurosurgical treatment for, e.g., movement disorders. Here, we describe an improved approach to collecting brain tissues from surgical instruments used in implantation of DBS device for transcriptomics and proteomics analyses.Samples were extracted from guide tubes and recording electrodes used in routine DBS implantation procedure to treat patients with Parkinson's disease, genetic dystonia and tremor. RNA sequencing was performed in tissues extracted from the recording microelectrodes and liquid chromatography-mass spectrometry (LC-MS) performed in tissues from guide tubes. To assess the performance of the current approach, the obtained datasets were compared with previously published datasets representing brain tissues.Altogether, 32,034 RNA transcripts representing the unique Ensembl gene identifiers were detected from eight samples representing both hemispheres of four patients. By using LC-MS, we identified 734 unique proteins from 31 samples collected from 14 patients. The datasets are available in the BioStudies database (accession number S-BSST667). Our results indicate that surgical instruments used in DBS installation retain brain material sufficient for protein and gene expression studies. Comparison with previously published datasets obtained with similar approach proved the robustness and reproducibility of the protocol.The instruments used during routine DBS surgery are a useful source for obtaining fresh brain tissues from living patients. This approach overcomes the issues that arise from using postmortem tissues, such as the effect of postmortem interval on transcriptomic and proteomic landscape of the brain, and can be used for studying molecular aspects of DBS-treatable diseases.

Published

2021

8. Novel variants and phenotypes widen the phenotypic spectrum of GABRG2-related disorders

Author

Johanna Uusimaa, Heikki Rantala, Reetta Hinttala, Salla M. Kangas, Ilmo E. Hassinen, Esa-Ville Immonen, Elisa Rahikkala, Maria Suo-Palosaari, Päivi Myllynen, Johanna Liinamaa, Katri Pylkäs, John M. Schreiber, and Jonna Komulainen-Ebrahim

Subjects

Male, Genotype, Autism Spectrum Disorder, Epilepsies, Myoclonic, Gene mutation, Biology, Electroencephalography, Seizures, Febrile, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, medicine, Humans, Child, Genetic testing, GABRG2, Genetics, medicine.diagnostic_test, Infant, General Medicine, Receptors, GABA-A, medicine.disease, Phenotype, Neurology, Autism spectrum disorder, Child, Preschool, Mutation, biology.protein, Female, Neurology (clinical), 030217 neurology & neurosurgery

Abstract

Purpose Next-generation sequencing (NGS) has made genetic testing of patients with epileptic encephalopathies easier – novel variants are discovered and new phenotypes described. Variants in the same gene – even the same variant – can cause different types of epilepsy and neurodevelopmental disorders. Our aim was to identify the genetic causes of epileptic encephalopathies in paediatric patients with complex phenotypes. Methods NGS was carried out for three patients with epileptic encephalopathies. Detailed clinical features, brain magnetic resonance imaging and electroencephalography were analysed. We searched the Human Gene Mutation Database for the published GABRG2 variants with clinical description of patients and composed a summary of the variants and their phenotypic features. Results We identified two novel de novo GABRG2 variants, p.P282T and p.S306F, with new phenotypes including neuroradiological evidence of neurodegeneration and epilepsy of infancy with migrating focal seizures (EIMFS). One patient carried previously reported p.P83S variant with autism spectrum disorder (ASD) phenotype that has not yet been described related to GABRG2 disorders and a more severe epilepsy phenotype than reported earlier. In all, the literature search yielded twenty-two articles describing 27 different variants that were divided into two categories: those with self-limiting epilepsies and febrile seizures and those with more severe drug-resistant epileptic encephalopathies. Conclusion This study further expands the genotypic and phenotypic spectrum of epilepsies associated with GABRG2 variants. More knowledge is still needed about the influence of the environment, genetic background and other epilepsy susceptibility genes on the phenotype of the specific GABRG2 variants.

Published

2019

9. Analysis of human brain tissue derived from DBS surgery

Author

Suoranta A, Ghimire Bm, Reetta Hinttala, Salla M. Kangas, Pirkko Mattila, Lahtinen Mj, Johanna Uusimaa, Markku Varjosalo, Katisko J, and Jaakko Teppo

Subjects

Dystonia, 0303 health sciences, Deep brain stimulation, Proteomic Profiling, business.industry, medicine.medical_treatment, Computational biology, Human brain, medicine.disease, Proteomics, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Medicine, Ensembl, Intact tissue, business, 030217 neurology & neurosurgery, Derived Data, 030304 developmental biology

Abstract

BackgroundTranscriptomic and proteomic profiling of human brain tissue is hindered by availability of fresh samples from living patients. Postmortem samples usually represent the advanced disease stage of the patient. Furthermore, the postmortem interval affects the observed transcriptomic and proteomic profiles. Therefore, access to fresh brain tissue samples from living patients is valuable resource to obtain information on metabolically intact tissue. The implantation of deep brain stimulation (DBS) electrodes into the human brain is a neurosurgical treatment for, e.g., movement disorders. Here, we describe an improved approach to collect brain tissue from surgical instruments used in implantation of DBS device for transcriptomics and proteomics analyses.MethodsSamples were extracted from guide tubes and recording electrodes used in routine DBS implantation procedure that was carried out to treat patients with Parkinson’s disease, genetic dystonia and tremor. RNA sequencing was carried out to tissue extracted from the recording microelectrodes and liquid chromatography-mass spectrometry was carried out to analyze tissue from guide tubes. To assess the performance of the current approach, obtained datasets were compared with previously published datasets representing brain tissue.ResultsIn RNA sequencing, altogether 32,034 transcripts representing unique Ensembl gene identifiers were detected from eight samples representing both hemispheres of four patients. By using liquid chromatography-mass spectrometry, we identified 734 unique proteins from 31 samples collected from 14 patients. Comparison with previously published brain derived data indicated that both of our datasets reflected the expected brain tissue specific features. The datasets are available via BioStudies database (accession number S-BSST667).ConclusionsSurgical instruments used in DBS installation retain enough brain material for protein and gene expression studies. Analysis of the datasets indicated that hemisphere-specific expression data can be obtained from individual patients without any sample pooling and without any modifications to the standard surgical protocol. Comparison with previously published datasets obtained with similar approach proved the robustness and reproducibility of the current improved protocol. This approach overcomes the issues that arise from using postmortem tissue, such as effect of postmortem interval, on proteomic and transcriptomic landscape of the brain and can be used for studying molecular aspects of DBS-treatable diseases.

Published

2021

10. Author response for 'Homozygous <scp> TAF1C </scp> variants are associated with a novel childhood‐onset neurological phenotype'

Author

Rita Horvath, Angela Pyle, Maria Suo-Palosaari, Hannaleena Kokkonen, Anna-Elina Lehesjoki, Päivi Vieira, Oula Knuutinen, Salla M. Kangas, Tawfiq Froukh, James Cassidy, Johanna Uusimaa, Riikka Keski-Filppula, Latifa Maraqa, and Jennifer Duff

Subjects

business.industry, Immunology, Medicine, business, Phenotype

Published

2020

11. Variants p.Q1236H and p.E1143G in mitochondrial DNA polymerase gamma <scp>POLG</scp> 1 are not associated with increased risk for valproate‐induced hepatotoxicity or pancreatic toxicity: A retrospective cohort study of patients with epilepsy

Author

Laura Pylvänen, Hanna Ansakorpi, Kari Majamaa, Reetta Hinttala, Johanna Hynynen, Päivi Myllynen, Anna Mäkitalo, Arja Sokka, Jaana Lähdetie, Jonna Komulainen-Ebrahim, Aino Jyrkilä, Pauli Ylikotila, Reetta Kälviäinen, Päivi Vieira, Mikko Kärppä, Johanna Uusimaa, Heikki Rantala, Piia Haapala, Leena Haataja, Kai Eriksson, and Tytti Pokka

Subjects

0301 basic medicine, Liver injury, medicine.medical_specialty, business.industry, Retrospective cohort study, medicine.disease, Gastroenterology, 3. Good health, 03 medical and health sciences, Epilepsy, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Neurology, Internal medicine, Toxicity, medicine, Pancreatitis, Acute pancreatitis, Neurology (clinical), Pancreas, Adverse effect, business, 030217 neurology & neurosurgery

Abstract

Objective Previous studies have suggested that heterozygous variants p.Q1236H and p.E1143G in mitochondrial DNA polymerase gamma (POLG1) increase the risk for liver injury for patients on valproate (VPA) therapy. We assessed the prevalence of these common variants and seven other pathogenic mutations in POLG1 and determined the occurrence of VPA-induced hepatotoxicity (VHT) or pancreatic toxicity in a cohort of patients with epilepsy. Methods Patients with epilepsy (N = 367) were retrospectively identified from medical record files and screened for mutations in POLG1. Patients who had received VPA monotherapy and carried either of the two variants, p.Q1236H or p.E1143G, without other pathogenic mutations in POLG1 (n = 33, variant group) and patients without these variants (n = 28, nonvariant group) were included in the study. Clinical data on epilepsy, characteristics of VPA treatment, risk factors for VHT, laboratory data on liver and pancreas functions, and adverse effects were collected. Results A total of 122 patients had either the POLG1 p.Q1236H (n = 99) or p.E1143G (n = 24) variant in the heterozygous or homozygous state. Transient liver dysfunction was identified in three (n = 33, 9.1%) variant group patients and in one (n = 28, 3.6%) nonvariant group patient (P = 0.62). Mild to moderate elevations in liver enzymes were encountered in both groups. Furthermore, two patients on VPA polytherapy developed acute pancreatitis, and two pediatric patients with heterozygous p.Q1236H variants and mutations in IQSEC2 and GLDC, respectively, had elevated levels of VPA metabolites in urine, elevated plasma glycine, and/or increased acylglycine excretion. Significance POLG1 p.Q1236H and p.E1143G variants could not be identified as statistically significant risk factors for VHT or pancreatic toxicity. We suggest that VPA treatment could be suitable for patients who harbor these common variants in the absence of other pathogenic mutations in POLG1.

Published

2018

12. Microdeletion of 7p12.1p13, including <scp>IKZF</scp> 1 , causes intellectual impairment, overgrowth, and susceptibility to leukaemia

Author

Arja Harila-Saari, Ann Nordgren, Samuel C. C. Chiang, Vasilios Zachariadis, Merja Möttönen, Bianca Tesi, Johanna Uusimaa, Fulya Taylan, Tekla Järviaho, Yenan T. Bryceson, Benedicte Bang, Elisa Rahikkala, and Riitta Niinimäki

Subjects

Male, medicine.medical_specialty, Pediatrics, Ikaros Transcription Factor, 03 medical and health sciences, Fatal Outcome, 0302 clinical medicine, Intellectual Disability, hemic and lymphatic diseases, Internal medicine, medicine, Humans, Genetic Predisposition to Disease, Child, Growth Disorders, Hematology, Intellectual impairment, business.industry, Syndrome, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Pedigree, Childhood leukaemia, body regions, Child, Preschool, 030220 oncology & carcinogenesis, Cancer genetics, Female, business, Chromosomes, Human, Pair 7, Gene Deletion, 030215 immunology

Abstract

Microdeletion of 7p12.1p13, including IKZF1, causes intellectual impairment, overgrowth, and susceptibility to leukaemia

Published

2018

13. Phenotype-genotype correlations in Leigh syndrome: new insights from a multicentre study of 96 patients

Author

Mar Tulinius, Niklas Darin, Kalliopi Sofou, Linda De Meirleir, Johanna Uusimaa, Charalampos Tzoulis, Pirjo Isohanni, Karin Naess, Elsebet Ostergaard, Irenaeus F.M. de Coo, Tuula Lönnqvist, Laurence A. Bindoff, Neurology, Reproduction and Genetics, Neurogenetics, Clinical sciences, Research Programme for Molecular Neurology, Research Programs Unit, Anu Wartiovaara / Principal Investigator, Clinicum, Children's Hospital, University of Helsinki, Lastenneurologian yksikkö, and HUS Children and Adolescents

Subjects

0301 basic medicine, Male, Cardiomyopathy, CHILDHOOD, CHILDREN, DNA, Mitochondrial/genetics, 0302 clinical medicine, ENCEPHALOMYOPATHY, 3123 Gynaecology and paediatrics, Leigh Disease/genetics, Genetics (clinical), Genetics, 1184 Genetics, developmental biology, physiology, Phenotype, Cohort, Female, medicine.symptom, Leigh Disease, medicine.medical_specialty, Mitochondrial DNA, Ataxia, DNA ABNORMALITIES, Mutation/genetics, Mitochondrial disease, Biology, DNA/genetics, MITOCHONDRIAL DISEASE, DNA, Mitochondrial, Central nervous system disease, 03 medical and health sciences, Internal medicine, medicine, Humans, Leigh disease, Genetic Association Studies, Cell Nucleus, CARDIOMYOPATHY, Genetic heterogeneity, CLINICAL-FEATURES, 3112 Neurosciences, Infant, DNA, medicine.disease, 030104 developmental biology, NDUFS4 GENE, Mutation, Cell Nucleus/metabolism, COMPLEX-I DEFICIENCY, 030217 neurology & neurosurgery, SURF1 GENE-MUTATIONS, Follow-Up Studies

Abstract

BackgroundLeigh syndrome is a phenotypically and genetically heterogeneous mitochondrial disorder. While some genetic defects are associated with well-described phenotypes, phenotype-genotype correlations in Leigh syndrome are not fully explored.ObjectiveWe aimed to identify phenotype-genotype correlations in Leigh syndrome in a large cohort of systematically evaluated patients.MethodsWe studied 96 patients with genetically confirmed Leigh syndrome diagnosed and followed in eight European centres specialising in mitochondrial diseases.ResultsWe found that ataxia, ophthalmoplegia and cardiomyopathy were more prevalent among patients with mitochondrial DNA defects. Patients with mutations in MT-ND and NDUF genes with complex I deficiency shared common phenotypic features, such as early development of central nervous system disease, followed by high occurrence of cardiac and ocular manifestations. The cerebral cortex was affected in patients with NDUF mutations significantly more often than the rest of the cohort. Patients with the m.8993T>G mutation in MT-ATP6 gene had more severe clinical and radiological manifestations and poorer disease outcome compared with patients with the m.8993T>C mutation.ConclusionOur study provides new insights into phenotype-genotype correlations in Leigh syndrome and particularly in patients with complex I deficiency and with defects in the mitochondrial ATP synthase.

Published

2018

14. Riboflavin-Responsive Multiple Acyl-CoA Dehydrogenase Deficiency Associated with Hepatoencephalomyopathy and White Matter Signal Abnormalities on Brain MRI

Author

Päivi Myllynen, Päivi Vieira, Marja Perhomaa, Seppo Rytky, Hannu Tuominen, Leila Risteli, Johanna Uusimaa, and Riikka Keski-Filppula

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Riboflavin, Mitochondrion, White matter, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Lactate dehydrogenase, Internal medicine, medicine, Humans, Multiple Acyl Coenzyme A Dehydrogenase Deficiency, Multiple Acyl-CoA Dehydrogenase Deficiency, chemistry.chemical_classification, business.industry, Brain, Infant, Fatty acid, General Medicine, medicine.disease, Magnetic Resonance Imaging, White Matter, Hypotonia, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Inborn error of metabolism, Hepatic Encephalopathy, Vitamin B Complex, Pediatrics, Perinatology and Child Health, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Multiple acyl-CoA dehydrogenase deficiency (MADD) is a rare inborn error of metabolism affecting both fatty acid and amino acid oxidation. It can manifest at any age, but riboflavin-responsiveness has mainly been described in less severely affected patients. We describe an infant with severe MADD presenting with profound hypotonia and hepatomegaly. Treatment with riboflavin improved his muscle strength, liver size, and biochemical markers. A homozygous mutation of electron transfer flavoprotein dehydrogenase (ETFDH) was found. His motor skills continued to progress until a fatal infection-triggered deterioration at the age of 34 months. We show changes in brain magnetic resonance imaging over the course of the disease, with profound white matter abnormalities during the deterioration phase. Aggregates of mitochondria with abnormal cristae in muscle electron microscopy were noticed already in infancy. An unusual lactate dehydrogenase (LDH) isoenzyme pattern with LDH-1 predominance was additionally observed. This case demonstrates riboflavin-responsiveness in a severely affected infant with both muscular and extramuscular involvement and further underlines the variable nature of this disease.

Published

2017

15. Biallelic mutations in human NHLRC2 enhance myofibroblast differentiation in FINCA disease

Author

Aki Manninen, Ilkka Miinalainen, Markku Varjosalo, Johanna Uusimaa, Reetta Hinttala, Teija Paakkola, Mika Kaakinen, Kari Salokas, Siri Lehtonen, Riitta Kaarteenaho, and Lloyd W. Ruddock

Subjects

0301 basic medicine, Angiomatosis, Vimentin, medicine.disease_cause, 03 medical and health sciences, Fibrosis, Genetics, medicine, Humans, Cytoskeleton, Myofibroblasts, Molecular Biology, Genetics (clinical), Cells, Cultured, Skin, Mutation, Brain Diseases, biology, Neurodegeneration, Intracellular Signaling Peptides and Proteins, Cell Differentiation, General Medicine, medicine.disease, Molecular biology, Actins, 3. Good health, 030104 developmental biology, Cell culture, Nerve Degeneration, biology.protein, Myofibroblast, Immortalised cell line

Abstract

The development of tissue fibrosis is complex and at the present time, not fully understood. Fibrosis, neurodegeneration and cerebral angiomatosis (FINCA disease) have been described in patients with mutations in NHL repeat-containing protein 2 (NHLRC2). However, the molecular functions of NHLRC2 are uncharacterized. Herein, we identified putative interacting partners for NHLRC2 using proximity-labeling mass spectrometry. We also investigated the function of NHLRC2 using immortalized cells cultured from skin biopsies of FINCA patients and normal fibroblasts with NHLRC2 knock-down and NHLRC2 overexpressing gene modifications. Transmission electron microscopy analysis of immortalized cell cultures from three FINCA patients demonstrated multilamellar bodies and distinctly organized vimentin filaments. Additionally, two of three cultures derived from patient skin biopsies contained cells that exhibited features characteristic of myofibroblasts. Altogether, the data presented in this study show for the first time that NHLRC2 is involved in cellular organization through regulation of the cytoskeleton and vesicle transport. We conclude that compound heterozygous p.Asp148Tyr and p.Arg201GlyfsTer6 mutations in NHLRC2 lead to severe tissue fibrosis in humans by enhancing the differentiation of fibroblasts to myofibroblasts.

Published

2018

16. Variants p.Q1236H and p.E1143G in mitochondrial DNA polymerase gamma POLG1 are not associated with increased risk for valproate-induced hepatotoxicity or pancreatic toxicity: A retrospective cohort study of patients with epilepsy

Author

Johanna, Hynynen, Tytti, Pokka, Jonna, Komulainen-Ebrahim, Päivi, Myllynen, Mikko, Kärppä, Laura, Pylvänen, Reetta, Kälviäinen, Arja, Sokka, Aino, Jyrkilä, Jaana, Lähdetie, Leena, Haataja, Anna, Mäkitalo, Pauli, Ylikotila, Kai, Eriksson, Piia, Haapala, Hanna, Ansakorpi, Reetta, Hinttala, Päivi, Vieira, Kari, Majamaa, Heikki, Rantala, and Johanna, Uusimaa

Subjects

Adult, Male, Epilepsy, Adolescent, Valproic Acid, Pancreatic Diseases, Alanine Transaminase, gamma-Glutamyltransferase, Statistics, Nonparametric, DNA Polymerase gamma, Cohort Studies, Young Adult, Mutation, Humans, Anticonvulsants, Female, Aspartate Aminotransferases, Chemical and Drug Induced Liver Injury, Child

Abstract

Previous studies have suggested that heterozygous variants p.Q1236H and p.E1143G in mitochondrial DNA polymerase gamma (POLG1) increase the risk for liver injury for patients on valproate (VPA) therapy. We assessed the prevalence of these common variants and seven other pathogenic mutations in POLG1 and determined the occurrence of VPA-induced hepatotoxicity (VHT) or pancreatic toxicity in a cohort of patients with epilepsy.Patients with epilepsy (N = 367) were retrospectively identified from medical record files and screened for mutations in POLG1. Patients who had received VPA monotherapy and carried either of the two variants, p.Q1236H or p.E1143G, without other pathogenic mutations in POLG1 (n = 33, variant group) and patients without these variants (n = 28, nonvariant group) were included in the study. Clinical data on epilepsy, characteristics of VPA treatment, risk factors for VHT, laboratory data on liver and pancreas functions, and adverse effects were collected.A total of 122 patients had either the POLG1 p.Q1236H (n = 99) or p.E1143G (n = 24) variant in the heterozygous or homozygous state. Transient liver dysfunction was identified in three (n = 33, 9.1%) variant group patients and in one (n = 28, 3.6%) nonvariant group patient (P = 0.62). Mild to moderate elevations in liver enzymes were encountered in both groups. Furthermore, two patients on VPA polytherapy developed acute pancreatitis, and two pediatric patients with heterozygous p.Q1236H variants and mutations in IQSEC2 and GLDC, respectively, had elevated levels of VPA metabolites in urine, elevated plasma glycine, and/or increased acylglycine excretion.POLG1 p.Q1236H and p.E1143G variants could not be identified as statistically significant risk factors for VHT or pancreatic toxicity. We suggest that VPA treatment could be suitable for patients who harbor these common variants in the absence of other pathogenic mutations in POLG1.

Published

2018

17. Intractable Epilepsy due to MTR Deficiency: Importance of Homocysteine Analysis

Author

Jonna Komulainen-Ebrahim, Heli Helander, Elisa Rahikkala, Leila Risteli, Reetta Hinttala, Johanna Uusimaa, Heikki Rantala, and Eemeli Saastamoinen

Subjects

0301 basic medicine, medicine.medical_specialty, Hyperhomocysteinemia, Drug Resistant Epilepsy, Homocysteine, Gastroenterology, 5-Methyltetrahydrofolate-Homocysteine S-Methyltransferase, Diagnosis, Differential, 03 medical and health sciences, chemistry.chemical_compound, Internal medicine, medicine, Humans, Methionine synthase, Megaloblastic anemia, Amino Acid Metabolism, Inborn Errors, Methionine synthase activity, Methionine, biology, business.industry, General Medicine, medicine.disease, Hydroxocobalamin, Surgery, 030104 developmental biology, Early Diagnosis, chemistry, Hypomethioninemia, Child, Preschool, Pediatrics, Perinatology and Child Health, Mutation, biology.protein, Female, Neurology (clinical), business, medicine.drug

Abstract

Background Methionine synthase deficiency is a rare inborn error of intracellular cobalamin metabolism caused by mutations in the MTR (5-methyltetrahydrofolate-homocysteine S-methyltransferase) gene, resulting in megaloblastic anemia and neurologic symptoms. Methods and Results We describe for the first time a homozygous MTR gene c.3518C > T (p.P1173L) mutation in a patient with severe megaloblastic anemia, developmental delay, and drug-resistant seizures associated with hyperhomocysteinemia and hypomethioninemia. Methionine synthase activity was only 9% of the reference value, and MTR protein expression was decreased in the fibroblasts of the patient. The clinical features of our patient are similar to previously published patients with the complementation type G disorder of methionine synthase deficiency with the exception of drug-resistant seizures. However, intramuscular injections of hydroxocobalamin (OHCbl) in conjunction with betaine and folic acid provided verified clinical and electrophysiological treatment response. Conclusion This study emphasizes the importance of early diagnosis of patients having neurologic symptoms due to methionine synthase deficiency where early treatment has significant effects on the clinical outcome of the patients. Elevated level of plasma homocysteine together with low methionine in plasma amino acid analysis should raise a suspicion of remethylation disorder.

Published

2017

18. Ataxia-pancytopenia syndrome with

Author

Sorina, Gorcenco, Jonna, Komulainen-Ebrahim, Karin, Nordborg, Maria, Suo-Palosaari, Sten, Andréasson, Johanna, Krüger, Christer, Nilsson, Ulrika, Kjellström, Elisa, Rahikkala, Dominik, Turkiewicz, Mikael, Karlberg, Lars, Nilsson, Jörg, Cammenga, Ulf, Tedgård, Josef, Davidsson, Johanna, Uusimaa, and Andreas, Puschmann

Subjects

Article

Abstract

Objective: We describe the neurologic, neuroradiologic, and ophthalmologic phenotype of 1 Swedish and 1 Finnish family with autosomal dominant ataxia-pancytopenia (ATXPC) syndrome and SAMD9L mutations. Methods: Members of these families with germline SAMD9L c.2956C>T, p.Arg986Cys, or c.2672T>C, p.Ile891Thr mutations underwent structured interviews and neurologic and ophthalmologic examinations. Neuroimaging was performed, and medical records were reviewed. Previous publications on SAMD9L-ATXPC were reviewed. Results: Twelve individuals in both families were affected clinically. All mutation carriers examined had balance impairment, although severity was very variable. All but 1 had nystagmus, and all but 1 had pyramidal tract signs. Neurologic features were generally present from childhood on and progressed slowly. Two adult patients, who experienced increasing clumsiness, glare, and difficulties with gaze fixation, had paracentral retinal dysfunction verified by multifocal electroretinography. Brain MRI showed early, marked cerebellar atrophy in most carriers and variable cerebral periventricular white matter T2 hyperintensities. Two children were treated with hematopoietic stem cell transplantation for hematologic malignancies, and the neurologic symptoms of one of these worsened after treatment. Three affected individuals had attention deficit hyperactivity disorder or cognitive problems. Retinal dysfunction was not previously reported in individuals with ATXPC. Conclusions: The neurologic phenotype of this syndrome is defined by balance or gait impairment, nystagmus, hyperreflexia in the lower limbs and, frequently, marked cerebellar atrophy. Paracentral retinal dysfunction may contribute to glare, reading problems, and clumsiness. Timely diagnosis of ATXPC is important to address the risk for severe hemorrhage, infection, and hematologic malignancies inherent in this syndrome; regular hematologic follow-up might be beneficial.

Published

2017

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

Author

Jukka S. Moilanen, Allison Matthews, Lin-Hua Zhang, Riikka Keski-Filppula, Johanna Uusimaa, Matti Nuutinen, Päivi Myllynen, Jessie M. Cameron, Saikat Santra, Arndt Rolfs, Päivi Vieira, Elisa Rahikkala, Richard J. Rodenburg, Clara D.M. van Karnebeek, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, ANS - Cellular & Molecular Mechanisms, and Paediatric Metabolic Diseases

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Recurrent hypoglycemia, Mutation, Missense, Urine, Biology, Hypoglycemia, Biochemistry, 03 medical and health sciences, Endocrinology, PCK1, Internal medicine, Chlorocebus aethiops, Genetics, medicine, Animals, Humans, Exome, Genetic Predisposition to Disease, Child, Molecular Biology, Liver Diseases, Homozygote, Intracellular Signaling Peptides and Proteins, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Sequence Analysis, DNA, medicine.disease, Pedigree, 3. Good health, Pyruvate carboxylase, Citric acid cycle, 030104 developmental biology, Liver, Alanine transaminase, COS Cells, biology.protein, Female, Phosphoenolpyruvate Carboxykinase (GTP), Phosphoenolpyruvate carboxykinase, Carbohydrate Metabolism, Inborn Errors, Urine organic acids

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.

Published

2017

20. Acute liver failure after valproate exposure in patients withPOLG1mutations and the prognosis after liver transplantation

Author

Reetta Kälviäinen, Johanna Arola, Leena Jutila, Johanna Hynynen, Kari Majamaa, Matias Röyttä, Heikki Mäkisalo, Eija Tukiainen, Tuomas Komulainen, Reetta Hinttala, Arno Nordin, and Johanna Uusimaa

Subjects

Transplantation, Mitochondrial DNA, Valproic Acid, Mutation, Pathology, medicine.medical_specialty, Hepatology, business.industry, medicine.medical_treatment, Mitochondrial disease, Status epilepticus, Disease, Liver transplantation, medicine.disease, medicine.disease_cause, 3. Good health, medicine, Surgery, medicine.symptom, business, medicine.drug

Abstract

Patients with mutations in the POLG1 gene encoding mitochondrial DNA polymerase gamma have an increased risk of valproate-induced liver failure. POLG1 mutations are common, and these patients often suffer from intractable seizures. The role of liver transplantation in the treatment of patients with mitochondrial diseases has been controversial. We studied valproate-induced liver failure associated with POLG1 mutations and the prognosis for these patients after liver transplantation. POLG1 was analyzed in blood DNA, mitochondrial DNA (mtDNA) was quantified in liver samples, and clinical data were collected. Five patients with valproate-induced liver failure associated with POLG1 mutations were retrospectively identified. Three patients were previously suspected to have Wilson's disease. Four patients with homozygous p.W748S and p.E1143G mutations had mtDNA depletion in the liver. One of these patients died before anticipated transplantation; the other 3 patients with liver transplantation have survived 4 to 19 years. Two patients have presented with occasional epileptic seizures, and 1 patient has been seizure-free for 11 years. One patient with a heterozygous p.Q1236H mutation (but without mtDNA depletion in the liver) died suddenly 2 years after liver transplantation. In conclusion, the POLG1 mutation status and the age at presentation of valproate-induced liver failure can affect the prognosis after liver transplantation. A heterozygous POLG1 p.Q1236H mutation was related to valproate-induced liver failure without mtDNA depletion, whereas patients homozygous for POLG1 p.W748S and p.E1143G mutations had mtDNA depletion. An analysis of the POLG1 gene should be performed for all patients with suspected mitochondrial disease before the introduction of valproate therapy, and treatment with valproic acid should be avoided in these patients. Liver Transpl 20:1402–1412, 2014. © 2014 AASLD.

Published

2014

21. Prospective study of <scp> POLG </scp> mutations presenting in children with intractable epilepsy: Prevalence and clinical features

Author

Joanna Poulton, Johanna Uusimaa, Yusuf A. Rajabally, A O'Rourke, C Smith, Annie Shrier, Manisha Narasimhan, Carl Fratter, Julie Evans, Frances M. Cowan, Vasantha Gowda, Anthony McShane, and Tamasine Hedderly

Subjects

Heterozygote, Pediatrics, medicine.medical_specialty, Pathology, Adolescent, Population, Epilepsia partialis continua, Mitochondrial diseases, Neuroimaging, DNA-Directed DNA Polymerase, Status epilepticus, Gene mutation, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Genetic epilepsies, Prevalence, Humans, Medicine, Prospective Studies, Child, education, Children, 030304 developmental biology, Full-Length Original Research, 0303 health sciences, Alpers' disease, education.field_of_study, Valproic Acid, business.industry, Homozygote, Brain, Infant, Metabolic diseases, Drug Resistant Epilepsy, medicine.disease, Magnetic Resonance Imaging, DNA Polymerase gamma, 3. Good health, Neurology, Child, Preschool, Mutation, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery, medicine.drug

Abstract

Epilepsy has both genetic and environmental causes. Recently, Ottman reported on more than 20 genes thought to be associated with idiopathic epilepsy (Ottman et al., 2010), but still these are relevant for only a small proportion of patients, and few patients have access to DNA diagnostics. This is unfortunate because genetic testing may clarify a diagnosis and allow better genetic counseling, help to optimize medication-avoiding side effects, and reduce the need for further investigation (Delgado-Escueta & Bourgeois, 2008). The term “intractable” epilepsy has been generally used when epilepsy is difficult to treat and there has been failure of two or more first-line antiseizure medications. Instead of “intractable epilepsy,” the ILAE (International League Against Epilepsy) has recently recommended the phrase “drug resistant epilepsy” to describe the condition where two tolerated and appropriately chosen antiepileptic drugs have failed to achieve sustained freedom from seizures, with no mention of the frequency of seizures (Kwan et al., 2010). Intractable epilepsy can be associated with genetic and chromosomal abnormalities, cortical malformations, congenital and acquired central nervous system (CNS) infections, inborn errors of metabolism, hypoxic-ischemic injury, and neoplasm but in many cases it is of unknown etiology. Several mitochondrial diseases caused by mutations in either mitochondrial or nuclear genes are characterized by “intractable” epilepsy as one of the presenting features. Epilepsy associated with mitochondrial diseases can manifest as infantile spasms; astatic convulsions; myoclonic, focal, or generalized seizures; or as epilepsia partialis continua (Canafoglia et al., 2001). It has clearly been shown that POLG encoding the catalytic α-subunit of mitochondrial DNA polymerase gamma, is one of the genes causing epilepsy. Patients carrying this gene frequently have epilepsy in addition to numerous other neurologic manifestations including ophthalmoplegia and ataxia (Rantamaki et al., 2001; Van Goethem et al., 2001; Lamantea et al., 2002; Van Goethem et al., 2003; Hakonen et al., 2005) and Alpers' disease (OMIM 203700), which is characterized by intractable seizures, episodic progression of neurologic symptoms, liver failure, and pharmacogenetic sensitivity to valproic acid (VPA) toxicity (Harding et al., 1995; Ferrari et al., 2005; Nguyen et al., 2005; Tzoulis et al., 2006; Uusimaa et al., 2008). The most common mutations in the POLG gene are p. A467T, p.W748S, and p.G848S with carrier frequencies up to 1% in some populations (Hakonen et al., 2005; Winterthun et al., 2005; Kollberg et al., 2006). It has been shown that VPA should not to be used to treat patients with mitochondrial disease, particularly because patients with POLG mutations are at increased risk for VPA-induced liver failure (Ferrari et al., 2005; Gordon, 2006; Uusimaa et al., 2008; Stewart et al., 2009). The aim of this study was to assess prospectively the prevalence of the three most common POLG mutations in a defined population of children with nonsyndromic intractable epilepsy, but without liver manifestation typical for Alpers disease at the presentation of their epilepsy. We have previously reported POLG findings in a group of children, most of whom had typical clinical features of Alpers disease (Ashley et al., 2008). We also retrospectively reviewed the notes of children with a presentation of intractable epilepsy and one of the common POLG mutations who did not have classic Alpers syndrome, because liver dysfunction was absent, and report on the clinical features and laboratory findings of these patients. This study is significant for understanding and treating patients with epilepsy, because POLG gene mutations have a high prevalence and are hence a potentially important cause of severe intractable epilepsy. Our findings further expand the clinical phenotypes associated with POLG mutations. This is very important for clinical diagnostics, genetic counseling, and treatment decisions because of the increased risk for VPA-induced liver failure in patients with POLG mutations.

Published

2013

22. Case report: a novel frameshift mutation in the mitochondrial cytochrome c oxidase II gene causing mitochondrial disorder

Author

Markku Saari, Laura Kytövuori, Hannu Tuominen, Mikko Kärppä, Reetta Hinttala, Johanna Uusimaa, and Kari Majamaa

Subjects

0301 basic medicine, Proband, Adult, Male, Mitochondrial DNA, Pathology, medicine.medical_specialty, Mitochondrial Diseases, Cytochrome-c Oxidase Deficiency, Mitochondrial diseases, Case Report, Human mitochondrial genetics, DNA, Mitochondrial, lcsh:RC346-429, Frameshift mutation, Electron Transport Complex IV, 03 medical and health sciences, 0302 clinical medicine, Case report, Medicine, Cytochrome c oxidase, Humans, Cognitive decline, Frameshift Mutation, lcsh:Neurology. Diseases of the nervous system, Sequence Deletion, Oxidase test, biology, business.industry, Muscles, General Medicine, Molecular biology, Heteroplasmy, Mitochondria, 030104 developmental biology, Mutation, biology.protein, Neurology (clinical), business, Cytochrome c oxidase deficiency, 030217 neurology & neurosurgery, Neuromuscular disorders

Abstract

Background: Mitochondrial cytochrome c oxidase 2, MT-CO2, encodes one of the three subunits, which form the catalytic core of cytochrome c oxidase (COX), complex IV. Mutations in MT-CO2 are rare and the associated phenotypes are variable including nonsyndromic and syndromic forms of mitochondrial diseases. Case presentation: We describe a 30-year-old man with cognitive decline, epilepsy, psychosis, exercise intolerance, sensorineural hearing impairment, retinitis pigmentosa, cataract and lactic acidosis. COX-deficient fibers and ragged red fibers were abundant in the muscle. Sequencing of mitochondrial DNA (mtDNA) revealed a novel frameshift mutation m.8156delG that was predicted to cause altered C-terminal amino acid sequence and to lead to truncation of the COX subunit 2. The deletion was heteroplasmic being present in 26% of the mtDNA in blood, 33% in buccal mucosa and 95% in muscle. Deletion heteroplasmy correlated with COX-deficiency in muscle histochemistry. The mother and the siblings of the proband did not harbor the deletion. Conclusions: The clinical features and muscle histology of the proband suggested a mitochondrial disorder. The m.8156delG deletion is a new addition to the short list of pathogenic mutations in the mtDNA-encoded subunits of COX. This case illustrates the importance of mtDNA sequence analysis in patients with an evident mitochondrial disorder.

Published

2016

23. Gain-of-function

Author

Josef Davidsson, Yenan T. Bryceson, Samuel C. C. Chiang, Jonna Komulainen-Ebrahim, Johanna Uusimaa, David Bryder, Jörg Cammenga, Riitta Niinimäki, Hannaleena Kokkonen, Merja Möttönen, Andreas Puschmann, Jan-Inge Henter, Elisa Rahikkala, Jukka S. Moilanen, Hong Qian, Tim Ripperger, Bianca Tesi, Tim D. Holmes, Ulf Tedgård, Sorina Gorcenco, Alexandra Rundberg Nilsson, Matthias Voss, Lennart Nilsson, Thoas Fioretos, and Cornelis J.H. Pronk

Subjects

0301 basic medicine, Adult, Male, Heterozygote, Myeloid, Tumor suppressor gene, Pancytopenia, Immunology, Gene Expression, Biology, medicine.disease_cause, Biochemistry, Immunophenotyping, 03 medical and health sciences, medicine, Missense mutation, Humans, Cognitive Dysfunction, Myeloid Cells, Child, Immunodeficiency, Alleles, Cell Proliferation, Chromosome 7 (human), Cytopenia, Mutation, B-Lymphocytes, Myeloid Neoplasia, Mosaicism, Tumor Suppressor Proteins, Immunologic Deficiency Syndromes, Cell Biology, Hematology, Middle Aged, medicine.disease, Uniparental disomy, Hematopoiesis, Pedigree, Killer Cells, Natural, 030104 developmental biology, medicine.anatomical_structure, Myelodysplastic Syndromes, Interferon Type I, Female, Chromosomes, Human, Pair 7

Abstract

Several monogenic causes of familial myelodysplastic syndrome (MDS) have recently been identified. We studied 2 families with cytopenia, predisposition to MDS with chromosome 7 aberrations, immunodeficiency, and progressive cerebellar dysfunction. Genetic studies uncovered heterozygous missense mutations in SAMD9L, a tumor suppressor gene located on chromosome arm 7q. Consistent with a gain-of-function effect, ectopic expression of the 2 identified SAMD9L mutants decreased cell proliferation relative to wild-type protein. Of the 10 individuals identified who were heterozygous for either SAMD9L mutation, 3 developed MDS upon loss of the mutated SAMD9L allele following intracellular infections associated with myeloid, B-, and natural killer (NK)-cell deficiency. Five other individuals, 3 with spontaneously resolved cytopenic episodes in infancy, harbored hematopoietic revertant mosaicism by uniparental disomy of 7q, with loss of the mutated allele or additional in cisSAMD9L truncating mutations. Examination of 1 individual indicated that somatic reversions were postnatally selected. Somatic mutations were tracked to CD34+ hematopoietic progenitor cell populations, being further enriched in B and NK cells. Stimulation of these cell types with interferon (IFN)-α or IFN-γ induced SAMD9L expression. Clinically, revertant mosaicism was associated with milder disease, yet neurological manifestations persisted in 3 individuals. Two carriers also harbored a rare, in trans germ line SAMD9L missense loss-of-function variant, potentially counteracting the SAMD9L mutation. Our results demonstrate that gain-of-function mutations in the tumor suppressor SAMD9L cause cytopenia, immunodeficiency, variable neurological presentation, and predisposition to MDS with -7/del(7q), whereas hematopoietic revertant mosaicism commonly ameliorated clinical manifestations. The findings suggest a role for SAMD9L in regulating IFN-driven, demand-adapted hematopoiesis.

Published

2016

24. Succinate-CoA ligase deficiency due to mutations in SUCLA2 and SUCLG1: phenotype and genotype correlations in 71 patients

Author

Elisabeth Holme, Rosalba Carrozzo, Andrés Nascimento Osorio, Robert W. Taylor, Carlo Dionisi-Vici, Kirstine Ravn, Hernan Amartino, Duccio Maria Cordelli, Alberto Burlina, Karin Naess, Filippo M. Santorelli, René de Coo, Niklas Darin, Berit Woldseth, Alfred Peter Born, Päivi Vieira, Morten Duno, Flemming Wibrand, Fróði Joensen, Enrico Bertini, Magnhild Rasmussen, Robert McFarland, Daniela Buhas, Gabriela Stangoni, Elsebet Ostergaard, Samir Mesli, Johanna Uusimaa, Marzia Bianchi, Paolo Prontera, Mustafa Batbayli, Isabelle Redonnet-Vernhet, Mar Tulinius, Daniela Verrigni, Philippe Jouvencel, Neurology, Carrozzo, Rosalba, Verrigni, Daniela, Rasmussen, Magnhild, de Coo, Rene, Amartino, Hernan, Bianchi, Marzia, Buhas, Daniela, Mesli, Samir, Naess, Karin, Born, Alfred Peter, Woldseth, Berit, Prontera, Paolo, Batbayli, Mustafa, Ravn, Kirstine, Joensen, Fróði, Cordelli, Duccio M., Santorelli, Filippo Maria, Tulinius, Mar, Darin, Nikla, Duno, Morten, Jouvencel, Philippe, Burlina, Alberto, Stangoni, Gabriela, Bertini, Enrico, Redonnet-Vernhet, Isabelle, Wibrand, Flemming, Dionisi-Vici, Carlo, Uusimaa, Johanna, Vieira, Paivi, Osorio, Andrés Nascimento, McFarland, Robert, Taylor, Robert W., Holme, Elisabeth, and Ostergaard, Elsebet

Subjects

Male, 0301 basic medicine, Mitochondrial Diseases, SUCLA2, DNA Mutational Analysis, Methylmalonic acid, Bioinformatics, Gastroenterology, Mitochondrial Encephalomyopathie, chemistry.chemical_compound, Succinate-CoA Ligases, Gene duplication, Genotype, Mitochondrial Disease, Missense mutation, Child, Genetics (clinical), education.field_of_study, Amino Acid Metabolism, Inborn Error, Phenotype, Codon, Nonsense, Child, Preschool, Female, Human, Adult, medicine.medical_specialty, Adolescent, Nonsense mutation, Population, Mutation, Missense, DNA, Mitochondrial, DNA Mutational Analysi, Young Adult, 03 medical and health sciences, Genetic, Mitochondrial Encephalomyopathies, Internal medicine, Genetics, medicine, Humans, Amino Acid Sequence, education, Amino Acid Metabolism, Inborn Errors, Succinate-CoA Ligase, business.industry, Infant, Newborn, Infant, 030104 developmental biology, Methylmalonic aciduria, chemistry, business, Methylmalonic Acid

Abstract

Background: The encephalomyopathic mtDNA depletion syndrome with methylmalonic aciduria is associated with deficiency of succinate-CoA ligase, caused by mutations in SUCLA2 or SUCLG1. We report here 25 new patients with succinate-CoA ligase deficiency, and review the clinical and molecular findings in these and 46 previously reported patients. Patients and results: Of the 71 patients, 50 had SUCLA2 mutations and 21 had SUCLG1 mutations. In the newly-reported 20 SUCLA2 patients we found 16 different mutations, of which nine were novel: two large gene deletions, a 1 bp duplication, two 1 bp deletions, a 3 bp insertion, a nonsense mutation and two missense mutations. In the newly-reported SUCLG1 patients, five missense mutations were identified, of which two were novel. The median onset of symptoms was two months for patients with SUCLA2 mutations and at birth for SUCLG1 patients. Median survival was 20 years for SUCLA2 and 20 months for SUCLG1. Notable clinical differences between the two groups were hepatopathy, found in 38 % of SUCLG1 cases but not in SUCLA2 cases, and hypertrophic cardiomyopathy which was not reported in SUCLA2 patients, but documented in 14 % of cases with SUCLG1 mutations. Long survival, to age 20 years or older, was reported in 12 % of SUCLA2 and in 10 % of SUCLG1 patients. The most frequent abnormality on neuroimaging was basal ganglia involvement, found in 69 % of SUCLA2 and 80 % of SUCLG1 patients. Analysis of respiratory chain enzyme activities in muscle generally showed a combined deficiency of complexes I and IV, but normal histological and biochemical findings in muscle did not preclude a diagnosis of succinate-CoA ligase deficiency. In five patients, the urinary excretion of methylmalonic acid was only marginally elevated, whereas elevated plasma methylmalonic acid was consistently found. Conclusions: To our knowledge, this is the largest study of patients with SUCLA2 and SUCLG1 deficiency. The most important findings were a significantly longer survival in patients with SUCLA2 mutations compared to SUCLG1 mutations and a trend towards longer survival in patients with missense mutations compared to loss-of-function mutations. Hypertrophic cardiomyopathy and liver involvement was exclusively found in patients with SUCLG1 mutations, whereas epilepsy was much more frequent in patients with SUCLA2 mutations compared to patients with SUCLG1 mutations. The mutation analysis revealed a number of novel mutations, including a homozygous deletion of the entire SUCLA2 gene, and we found evidence of two founder mutations in the Scandinavian population, in addition to the known SUCLA2 founder mutation in the Faroe Islands.

Published

2016

25. Nodularia spumigena extract induces upregulation of mitochondrial respiratory chain complexes in spinach (Spinacia oleracea L.)

Author

Mirjami Miettinen, Reetta Hinttala, Eva-Mari Aro, Paula Mulo, Kaarina Sivonen, Nina Lehtimäki, Johanna Uusimaa, Kari Majamaa, and Sumathy Shunmugam

Subjects

Alternative oxidase, Spinacia, biology, Physiology, Plant Science, Mitochondrion, biology.organism_classification, Nodularin, Respiratory enzyme, chemistry.chemical_compound, Mitochondrial respiratory chain, Isocitrate dehydrogenase, chemistry, Biochemistry, biology.protein, Citrate synthase, Agronomy and Crop Science

Abstract

Nodularin, a cyclic hepatotoxic pentapeptide produced by the nitrogen-fixing cyanobacterium Nodularia spumigena, induces oxidative stress in various organisms including higher plants and algae. We have monitored the physiological consequences of N. spumigena AV1 extract exposure on terrestrial plants, specifically focusing on the mitochondrial function of Spinacia oleracea L. Our results show that exposure of the plants to the nodularin-containing extract leads to significantly increased activity of respiratory complex I and citrate synthase, as well as increased accumulation of various subunits of respiratory enzyme complexes. Moreover, upregulation of the stress-induced alternative oxidase as well as the NAD+-specific isocitrate dehydrogenase and mitochondrial ascorbate peroxidase was detected in the mitochondria of plants exposed to N. spumigena AV1 extract, while no difference in the carbonylation level of the mitochondrial proteins could be detected between the control and the exposed plants.

Published

2012

26. Prevalence of the primary LHON mutations in Northern Finland associated with bilateral optic atrophy and tobacco-alcohol amblyopia

Author

Kari Majamaa, Karoliina Karjalainen, Paula Korkiamäki, Anne M. Remes, Johanna Uusimaa, and Marko Kervinen

Subjects

Genetics, education.field_of_study, Mitochondrial DNA, genetic structures, business.industry, Mitochondrial disease, Point mutation, Population, General Medicine, medicine.disease, eye diseases, Heteroplasmy, Ophthalmology, Atrophy, medicine, Population study, Restriction fragment length polymorphism, business, education

Abstract

Purpose: Leber hereditary optic neuropathy (LHON) is regarded as the most common mitochondrial disease. We have previously reported comprehensive population-based epidemiological data on common mitochondrial DNA (mtDNA) mutations including m.3243A>G, m.8344A>G and large-scale mtDNA deletions in Northern Finland. Our aim was to investigate the prevalence of primary LHON mutations and mutations in the four mtDNA genes considered hot spots for LHON in the same population. Methods: The study population consisted of 42 adult patients with an aetiologically undefined bilateral optic atrophy. The major LHON mutations m.3460G>A, m.11778G>A and m.14484T>C were analysed by restriction fragment length polymorphism (RFLP), and MTND1, MTND6 and MTATP6 genes were sequenced. MTND5 gene was analysed by conformation-sensitive gel electrophoresis (CSGE). Results: No major LHON mutations were found in the population of the province of Northern Ostrobothnia giving the prevalence of these mutations 0–1.36:100 000 (95% CI). However, two main mutations were found elsewhere in Northern Finland, homoplasmic m.11778G>A from Kainuu and heteroplasmic m.3460G>A from Central Ostrobothnia. Furthermore, tobacco-alcohol amblyopia was diagnosed in five patients in the study population and one of them had m.11778G>A. Conclusion: The prevalence of the three major LHON mutations is lower in Northern Finland than elsewhere in Finland or in Western Europe. As LHON and tobacco-alcohol amblyopia have a similar phenotype, we recommend analysing the known LHON-associated mutations before setting tobacco-alcohol amblyopia diagnosis.

Published

2012

27. Mitochondrial phenylalanyl-tRNA synthetase mutations underlie fatal infantile Alpers encephalopathy

Author

Fowzan S. Alkuraya, Alexandra Götz, Michael Ibba, Leena Valanne, Anders Paetau, Helena Pihko, Christopher Carroll, Pirjo Isohanni, Eric M. Caruso, Liliya Euro, Johanna Uusimaa, Srujana S. Yadavalli, Jenni M. Elo, Henna Tyynismaa, and Anu Suomalainen

Subjects

Protein Folding, Mitochondrial Diseases, Mitochondrial disease, Molecular Sequence Data, Aminoacylation, Mitochondrion, Biology, medicine.disease_cause, Mitochondrial Proteins, Phenylalanine—tRNA ligase, 03 medical and health sciences, 0302 clinical medicine, RNA, Transfer, Mutant protein, Anticodon, Genetics, medicine, Humans, Exome, Amino Acid Sequence, Molecular Biology, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Mutation, Base Sequence, Infant, Diffuse Cerebral Sclerosis of Schilder, General Medicine, medicine.disease, TRNA binding, Molecular biology, Mitochondria, Transfer RNA, Female, Phenylalanine-tRNA Ligase, 030217 neurology & neurosurgery

Abstract

Next-generation sequencing has turned out to be a powerful tool to uncover genetic basis of childhood mitochondrial disorders. We utilized whole-exome analysis and discovered novel compound heterozygous mutations in FARS2 (mitochondrial phenylalanyl transfer RNA synthetase), encoding the mitochondrial phenylalanyl transfer RNA (tRNA) synthetase (mtPheRS) in two patients with fatal epileptic mitochondrial encephalopathy. The mutations affected highly conserved amino acids, p.I329T and p.D391V. Recently, a homozygous FARS2 variant p.Y144C was reported in a Saudi girl with mitochondrial encephalopathy, but the pathogenic role of the variant remained open. Clinical features, including postnatal onset, catastrophic epilepsy, lactic acidemia, early lethality and neuroimaging findings of the patients with FARS2 variants, resembled each other closely, and neuropathology was consistent with Alpers syndrome. Our structural analysis of mtPheRS predicted that p.I329T weakened ATP binding in the aminoacylation domain, and in vitro studies with recombinant mutant protein showed decreased affinity of this variant to ATP. Furthermore, p.D391V and p.Y144C were predicted to disrupt synthetase function by interrupting the rotation of the tRNA anticodon stem-binding domain from a closed to an open form. In vitro characterization indicated reduced affinity of p.D391V mutant protein to phenylalanine, whereas p.Y144C disrupted tRNA binding. The stability of p.I329T and p.D391V mutants in a refolding assay was impaired. Our results imply that the three FARS2 mutations directly impair aminoacylation function and stability of mtPheRS, leading to a decrease in overall tRNA charging capacity. This study establishes a new genetic cause of infantile mitochondrial Alpers encephalopathy and reports a new mitochondrial aminoacyl-tRNA synthetase as a cause of mitochondrial disease.

Published

2012

28. LHON/MELAS overlap mutation in ND1 subunit of mitochondrial complex I affects ubiquinone binding as revealed by modeling in Escherichia coli NDH-1

Author

Kari Majamaa, Reetta Hinttala, Jukka Pätsi, Salla Pakanen, Thomas Nyström, Marko Kervinen, Pilvi Maliniemi, Ilmo E. Hassinen, and Johanna Uusimaa

Subjects

Mitochondrial DNA, Ubiquinone, NADH-ubiquinone oxidoreductase, Protein subunit, Molecular Sequence Data, Biophysics, Optic Atrophy, Hereditary, Leber, Biology, Conservative mutation, medicine.disease_cause, Models, Biological, Biochemistry, Mitochondrial myopathy, MELAS Syndrome, Escherichia coli, medicine, Animals, Humans, Amino Acid Sequence, Genetics, Ubiquinone binding, Mutation, Electron Transport Complex I, Sequence Homology, Amino Acid, Transition (genetics), Escherichia coli Proteins, Membrane Proteins, NADH Dehydrogenase, Cell Biology, medicine.disease, Mitochondria, Protein Subunits, MELAS, Mutagenesis, Site-Directed, Leber hereditary optic neuropathy, Protein Binding

Abstract

Defects in complex I due to mutations in mitochondrial DNA are associated with clinical features ranging from single organ manifestation like Leber hereditary optic neuropathy (LHON) to multiorgan disorders like mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes (MELAS) syndrome. Specific mutations cause overlap syndromes combining several phenotypes, but the mechanisms of their biochemical effects are largely unknown. The m.3376G>A transition leading to p.E24K substitution in ND1 with LHON/MELAS phenotype was modeled here in a homologous position (NuoH-E36K) in the Escherichia coli enzyme and it almost totally abolished complex I activity. The more conservative mutation NuoH-E36Q resulted in higher apparent Km for ubiquinone and diminished inhibitor sensitivity. A NuoH homolog of the m.3865A>G transition, which has been found concomitantly in the overlap syndrome patient with the m.3376G>A, had only a minor effect. Consequences of a primary LHON-mutation m.3460G>A affecting the same extramembrane loop as the m.3376G>A substitution were also studied in the E. coli model and were found to be mild. The results indicate that the overlap syndrome-associated m.3376G>A transition in MTND1 is the pathogenic mutation and m.3865A>G transition has minor, if any, effect on presentation of the disease. The kinetic effects of the NuoH-E36Q mutation suggest its proximity to the putative ubiquinone binding domain in 49kD/PSST subunits. In all, m.3376G>A perturbs ubiquinone binding, a phenomenon found in LHON, and decreases the activity of fully assembled complex I as in MELAS.

Published

2012

29. POLG1 manifestations in childhood

Author

Johanna Uusimaa, Anna H. Hakonen, Ilse Paetau, Tuula Lönnqvist, Leena Valanne, Helena Pihko, Anders Paetau, Pirjo Isohanni, Anu Suomalainen, Elina Liukkonen, Tiina Wallden, L. Luostarinen, Tarja Linnankivi, and Liliya Euro

Subjects

Mitochondrial DNA, Pathology, medicine.medical_specialty, Mitochondrial Diseases, Ataxia, Adolescent, Mitochondrial disease, Molecular Sequence Data, Encephalopathy, Respiratory chain, DNA-Directed DNA Polymerase, Young Adult, Epilepsy, Atrophy, Intellectual Disability, Humans, Medicine, Amino Acid Sequence, Child, business.industry, Age Factors, Infant, Diffuse Cerebral Sclerosis of Schilder, medicine.disease, DNA Polymerase gamma, Child, Preschool, Mutation, Epilepsy syndromes, Neurology (clinical), medicine.symptom, business

Abstract

Objective: Mitochondrial DNA polymerase γ (POLG1) mutations in children often manifest as Alpers syndrome, whereas in adults, a common manifestation is mitochondrial recessive ataxia syndrome (MIRAS) with severe epilepsy. Because some patients with MIRAS have presented with ataxia or epilepsy already in childhood, we searched for POLG1 mutations in neurologic manifestations in childhood. Methods: We investigated POLG1 in 136 children, all clinically suspected to have mitochondrial disease, with one or more of the following: ataxia, axonal neuropathy, severe epilepsy without known epilepsy syndrome, epileptic encephalopathy, encephalohepatopathy, or neuropathologically verified Alpers syndrome. Results: Seven patients had POLG1 mutations, and all of them had severe encephalopathy with intractable epilepsy. Four patients had died after exposure to sodium valproate. Brain MRI showed parieto-occipital or thalamic hyperintense lesions, white matter abnormality, and atrophy. Muscle histology and mitochondrial biochemistry results were normal in all. Conclusions: POLG1 analysis should belong to the first-line DNA diagnostic tests for children with an encephalitis-like presentation evolving into epileptic encephalopathy with liver involvement (Alpers syndrome), even if brain MRI and morphology, respiratory chain activities, and the amount of mitochondrial DNA in the skeletal muscle are normal. POLG1 analysis should precede valproate therapy in pediatric patients with a typical phenotype. However, POLG1 is not a common cause of isolated epilepsy or ataxia in childhood.

Published

2011

30. FGF-21 as a biomarker for muscle-manifesting mitochondrial respiratory chain deficiencies: a diagnostic study

Author

Anu Suomalainen, Kirsi H. Pietiläinen, Johanna Annunen-Rasila, Johanna Uusimaa, Helena Pihko, Laurence A. Bindoff, Henna Tyynismaa, Pirjo Isohanni, Mari Päivikki Korpela, Katrin Õunap, Ksenia Sevastianova, Niklas Darin, Sanna Marjavaara, Michio Hirano, Hannele Yki-Järvinen, Leo A. J. Kluijtmans, Anders Paetau, Aila Rissanen, Jenni M. Elo, Sari Kiuru-Enari, Jana Buzkova, Anna H. Hakonen, Jan A.M. Smeitink, Mar Tulinius, and Tiina Tyni

Subjects

Adult, Male, medicine.medical_specialty, FGF21, Mitochondrial Diseases, Adolescent, Mitochondrial disease, Respiratory chain, Gastroenterology, Genomic disorders and inherited multi-system disorders [IGMD 3], 03 medical and health sciences, Young Adult, 0302 clinical medicine, Internal medicine, medicine, Humans, Child, Muscle, Skeletal, 030304 developmental biology, Aged, Retrospective Studies, 2. Zero hunger, Aged, 80 and over, 0303 health sciences, Muscle biopsy, medicine.diagnostic_test, biology, business.industry, Skeletal muscle, Infant, Odds ratio, Middle Aged, medicine.disease, 3. Good health, Fibroblast Growth Factors, Endocrinology, medicine.anatomical_structure, Child, Preschool, biology.protein, Biomarker (medicine), Creatine kinase, Female, Neurology (clinical), business, 030217 neurology & neurosurgery, Biomarkers

Abstract

Contains fulltext : 95893.pdf (Publisher’s version ) (Closed access) BACKGROUND: Muscle biopsy is the gold standard for diagnosis of mitochondrial disorders because of the lack of sensitive biomarkers in serum. Fibroblast growth factor 21 (FGF-21) is a growth factor with regulatory roles in lipid metabolism and the starvation response, and concentrations are raised in skeletal muscle and serum in mice with mitochondrial respiratory chain deficiencies. We investigated in a retrospective diagnostic study whether FGF-21 could be a biomarker for human mitochondrial disorders. METHODS: We assessed samples from adults and children with mitochondrial disorders or non-mitochondrial neurological disorders (disease controls) from seven study centres in Europe and the USA, and recruited healthy volunteers (healthy controls), matched for age where possible, from the same centres. We used ELISA to measure FGF-21 concentrations in serum or plasma samples (abnormal values were defined as >200 pg/mL). We compared these concentrations with values for lactate, pyruvate, lactate-to-pyruvate ratio, and creatine kinase in serum or plasma and calculated sensitivity, specificity, and positive and negative predictive values for all biomarkers. FINDINGS: We analysed serum or plasma from 67 patients (41 adults and 26 children) with mitochondrial disorders, 34 disease controls (22 adults and 12 children), and 74 healthy controls. Mean FGF-21 concentrations in serum were 820 (SD 1151) pg/mL in adult and 1983 (1550) pg/mL in child patients with respiratory chain deficiencies and 76 (58) pg/mL in healthy controls. FGF-21 concentrations were high in patients with mitochondrial disorders affecting skeletal muscle but not in disease controls, including those with dystrophies. In patients with abnormal FGF-21 concentrations in serum, the odds ratio of having a muscle-manifesting mitochondrial disease was 132.0 (95% CI 38.7-450.3). For the identification of muscle-manifesting mitochondrial disease, the sensitivity was 92.3% (95% CI 81.5-97.9%) and specificity was 91.7% (84.8-96.1%). The positive and negative predictive values for FGF-21 were 84.2% (95% CI 72.1-92.5%) and 96.1 (90.4-98.9%). The accuracy of FGF-21 to correctly identify muscle-manifesting respiratory chain disorders was better than that for all conventional biomarkers. The area under the receiver-operating-characteristic curve for FGF-21 was 0.95; by comparison, the values for other biomarkers were 0.83 lactate (p=0.037, 0.83 for pyruvate (p=0.015), 0.72 for the lactate-to-pyruvate ratio (p=0.0002), and 0.77 for creatine kinase (p=0.013). INTERPRETATION: Measurement of FGF-21 concentrations in serum identified primary muscle-manifesting respiratory chain deficiencies in adults and children and might be feasible as a first-line diagnostic test for these disorders to reduce the need for muscle biopsy. FUNDING: Sigrid Juselius Foundation, Jane and Aatos Erkko Foundation, Molecular Medicine Institute of Finland, University of Helsinki, Helsinki University Central Hospital, Academy of Finland, Novo Nordisk, Arvo and Lea Ylppo Foundation. 01 september 2011

Published

2011

31. Connexin 26 mutations and nonsyndromic hearing impairment in Northern Finland

Author

Päivi Lindholm, Tuija Löppönen, Johanna Uusimaa, Elina Mäki-Torkko, Mirja Luotonen, J. Leisti, Marja-Leena Väisänen, Mirja Väyrynen, Minna Allinen, and Heikki Löppönen

Subjects

Male, Adolescent, Hearing Loss, Sensorineural, DNA Mutational Analysis, Connexin, Northern finland, Compound heterozygosity, Connexins, Gene Frequency, Sequence Analysis, Protein, Genotype, Humans, Medicine, Allele, Child, Gene, Finland, Genetics, business.industry, Connexin 26, Otorhinolaryngology, Child, Preschool, Mutation (genetic algorithm), Mutation testing, Female, business

Abstract

Objective: The aims of the present study were to evaluate the role of the gap junction protein β-2 gene (GJB2), encoding connexin 26 (Cx26), in children with moderate to profound prelingual nonsyndromic sensorineural hearing impairment (HI) and to investigate the carrier frequencies of the GJB2 gene mutations in a control population in Northern Finland. Methods: Mutation analysis was performed by direct sequencing and carrier detection by conformation sensitive gel electrophoresis further confirmed by direct sequencing. Results: Cx26 mutations were found in 15 of 71 (21.1%) (67 families) children with HI. Homozygosity for the mutation 35delG was shown to be the cause of HI in 13 of 15 (86.7%) children. Homozygosity for the M34T genotype was found in one child, and compound heterozygosity for the M34T/V37I genotype was found in another. Five families of those with suspected familial HI (29.4%) and six families out of those with sporadic HI (12.0%) had a homozygous or compound heterozygous mutation. The carrier frequency for the mutation 35delG was 1 of 78 (4 of 313) and that for the M34T was 1 of 26 (12 of 313). Conclusion: 35delG/35delG genotype was found to be a significant cause of moderate to profound prelingual nonsyndromic sensorineural HI in Northern Finland. M34T/M34T genotype was seen in only one child, but the carrier frequency of the M34T allele was about three times higher than that of the 35delG mutation.

Published

2010

32. 8th European Congress on Epileptology, �Berlin, Germany, 21 - 25 September 2008

Author

Hannu Kalimo, Johanna Uusimaa, Leena Valanne, Tarja Linnankivi, Anu Suomalainen, Anders Paetau, A. Harju, Pirjo Isohanni, Helena Pihko, and T. Loennqvist

Subjects

Pediatrics, medicine.medical_specialty, Epilepsy, Neurology, business.industry, medicine, Liver failure, Neurology (clinical), medicine.disease, business, Early onset

Published

2009

33. Homozygous W748S mutation in thePOLG1gene in patients with juvenile-onset Alpers syndrome and status epilepticus

Author

Reetta Hinttala, Heidi K. Soini, Markku Päivärinta, Ilmo E. Hassinen, Heikki Rantala, Johanna Uusimaa, Anne M. Remes, Riitta Herva, Kari Majamaa, Jukka S. Moilanen, and Matias Röyttä

Subjects

Pathology, medicine.medical_specialty, Mitochondrial DNA, Adolescent, Migraine Disorders, DNA Mutational Analysis, DNA-Directed DNA Polymerase, Status epilepticus, Biology, medicine.disease_cause, DNA, Mitochondrial, Diagnosis, Differential, Epilepsy, Liver disease, Fatal Outcome, Status Epilepticus, medicine, Humans, Valproic Acid, Mutation, Point mutation, Homozygote, Brain, Diffuse Cerebral Sclerosis of Schilder, Electroencephalography, Sequence Analysis, DNA, Liver Failure, Acute, medicine.disease, DNA Polymerase gamma, Liver, Neurology, Immunology, Etiology, Female, Epilepsy, Tonic-Clonic, Neurology (clinical), medicine.symptom, medicine.drug

Abstract

Summary 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

34. Evaluating clinical mitochondrial respiratory chain enzymes from biopsy specimens presenting skewed probability distribution of activity data

Author

Johanna Uusimaa, Heikki Rantala, Pentti Nieminen, Ilmo E. Hassinen, Milla-Riikka Hautakangas, and Reetta Hinttala

Subjects

0301 basic medicine, Male, Mitochondrial Diseases, Adolescent, Biopsy, Respiratory chain, Physiology, Reductase, Bioinformatics, 03 medical and health sciences, 0302 clinical medicine, Medicine, Cytochrome c oxidase, Humans, Human Activities, Child, Muscle, Skeletal, Molecular Biology, medicine.diagnostic_test, biology, business.industry, Infant, Newborn, Skeletal muscle, Infant, Mitochondrial Myopathies, Cell Biology, Respiratory chain enzyme, 030104 developmental biology, medicine.anatomical_structure, Mitochondrial respiratory chain enzymes, Electron Transport Chain Complex Proteins, Child, Preschool, biology.protein, Molecular Medicine, Female, Nervous System Diseases, business, 030217 neurology & neurosurgery

Abstract

Due to the relative rarity of mitochondrial diseases, generating reference ranges is problematic in evaluation of respiratory chain activities particularly in pediatric cases. We determined the sample distribution of respiratory chain enzyme activities in skeletal muscle biopsies collected from pediatric patients suspected of neuromuscular disorders. Activities of NADH-ubiquinone reductase, NADH-cytochrome c reductase, succinate-cytochrome c reductase; ubiquinol-cytochrome c reductase and cytochrome c oxidase activities have log-normal distributions even when confirmed mitochondrial diseases were ruled out. Impact of the log-normal distribution of the respiratory chain enzyme activities on clinical diagnostics is discussed.

Published

2015

35. Sodium valproate induces mitochondrial respiration dysfunction in HepG2 in vitro cell model

Author

Peppi Koivunen, Tiffany Lodge, Mika Pietilä, Jukka Hakkola, Tuomas Komulainen, Karl J. Morten, Reetta Hinttala, Johanna Uusimaa, Joanna Poulton, and Maija Bolszak

Subjects

Mitochondrial ROS, Mitochondrial Diseases, Time Factors, Cell Respiration, SOD2, Mitochondria, Liver, Mitochondrion, Pharmacology, Biology, Toxicology, medicine.disease_cause, Oxidative Phosphorylation, Adenosine Triphosphate, Pyruvic Acid, medicine, Humans, Cell Proliferation, Membrane Potential, Mitochondrial, Cell Death, Dose-Response Relationship, Drug, Superoxide Dismutase, Valproic Acid, Galactose, Hep G2 Cells, Pyruvate dehydrogenase complex, medicine.disease, Molecular biology, Mitochondrial toxicity, Oxidative Stress, Mitochondrial respiratory chain, Glucose, Mitochondrial permeability transition pore, Electron Transport Chain Complex Proteins, Hepatocytes, lipids (amino acids, peptides, and proteins), Anticonvulsants, Chemical and Drug Induced Liver Injury, Reactive Oxygen Species, Oxidative stress

Abstract

Sodium valproate (VPA) is a potentially hepatotoxic antiepileptic drug. Risk of VPA-induced hepatotoxicity is increased in patients with mitochondrial diseases and especially in patients with POLG1 gene mutations. We used a HepG2 cell in vitro model to investigate the effect of VPA on mitochondrial activity. Cells were incubated in glucose medium and mitochondrial respiration-inducing medium supplemented with galactose and pyruvate. VPA treatments were carried out at concentrations of 0-2.0mM for 24-72 h. In both media, VPA caused decrease in oxygen consumption rates and mitochondrial membrane potential. VPA exposure led to depleted ATP levels in HepG2 cells incubated in galactose medium suggesting dysfunction in mitochondrial ATP production. In addition, VPA exposure for 72 h increased levels of mitochondrial reactive oxygen species (ROS), but adversely decreased protein levels of mitochondrial superoxide dismutase SOD2, suggesting oxidative stress caused by impaired elimination of mitochondrial ROS and a novel pathomechanism related to VPA toxicity. Increased cell death and decrease in cell number was detected under both metabolic conditions. However, immunoblotting did not show any changes in the protein levels of the catalytic subunit A of mitochondrial DNA polymerase γ, the mitochondrial respiratory chain complexes I, II and IV, ATP synthase, E3 subunit dihydrolipoyl dehydrogenase of pyruvate dehydrogenase, 2-oxoglutarate dehydrogenase and glutathione peroxidase. Our results show that VPA inhibits mitochondrial respiration and leads to mitochondrial dysfunction, oxidative stress and increased cell death, thus suggesting an essential role of mitochondria in VPA-induced hepatotoxicity.

Published

2015

36. The MELAS mutations 3946 and 3949 perturb the critical structure in a conserved loop of the ND1 subunit of mitochondrial complex I

Author

Johanna Uusimaa, Kari Majamaa, Marko Kervinen, Moshe Finel, Heli Helander, Ilmo E. Hassinen, Sari Kurki, and Reetta Hinttala

Subjects

Ubiquinone, Molecular Sequence Data, Mutant, Mitochondrion, Biology, MELAS syndrome, DNA, Mitochondrial, Catalysis, Conserved sequence, 03 medical and health sciences, 0302 clinical medicine, Oxidoreductase, MELAS Syndrome, Genetics, medicine, Humans, Point Mutation, Amino Acid Sequence, Molecular Biology, Conserved Sequence, Genetics (clinical), Paracoccus denitrificans, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Electron Transport Complex I, Escherichia coli Proteins, Point mutation, Cell Membrane, General Medicine, medicine.disease, biology.organism_classification, Molecular biology, Enzyme assay, Protein Subunits, Biochemistry, chemistry, biology.protein, 030217 neurology & neurosurgery

Abstract

The ND1 subunit gene of the mitochondrial NADH-ubiquinone oxidoreductase (complex I) is a hot spot for mutations causing Leber hereditary optic neuropathy and several mutations causing the mitochondrial encephalopathy, lactic acidosis and stroke-like episodes syndrome (MELAS). We have used Escherichia coli and Paracoccus denitrificans as model systems to study the effect of mutations 3946 and 3949, which change conserved residues in ND1 and cause MELAS. The vicinity of these mutations was also explored with a series of mutations in charged residues. The 3946 mutation results in E214K substitution in human ND1. Replacement of the equivalent residue in E. coli with lysine or glutamine detracted from enzyme assembly and the assembled enzyme was inactive. However, the equivalent E234Q mutant enzyme in P. denitrificans failed to assemble completely (or was rapidly degraded). Also the corresponding substitution with aspartate decreased the enzyme activity in P. denitrificans and E. coli. The 3949-equivalent substitution, Y229H in E. coli, lowered the catalytic activity by 30%. In addition, an activation of the enzyme during catalytic turnover was seen in this bacterial NDH-1, something that was even more pronounced in another mutant in the same loop, D213E. Several other mutations in this region decreased the enzyme activity. The studied MELAS mutations are situated in a matrix-side loop, which appears to be highly sensitive to structural perturbations. The results provide new information on the function of the region affected by the MELAS mutations 3946 and 3949 that is not obtainable from patient samples or current eukaryote models.

Published

2006

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

Author

Johanna Uusimaa, R.J.H. Smeets, Jan A.M. Smeitink, Reetta Hinttala, Jukka S. Moilanen, Kari Majamaa, and Cristina Ugalde

Subjects

Genetics, Mutation, Mitochondrial DNA, Nuclear gene, Energy and redox metabolism [NCMLS 4], Biology, medicine.disease_cause, Molecular biology, Respiratory enzyme, Nuclear DNA, Mitochondrial medicine [IGMD 8], medicine, Coding region, medicine.symptom, Cellular energy metabolism [UMCN 5.3], Myopathy, Gene, Letter to JMG, Genetics (clinical)

Abstract

Contains fulltext : 50631.pdf (Publisher’s version ) (Closed access) 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

38. Ataxia-pancytopenia syndrome with SAMD9L mutations

Author

Mikael Karlberg, Karin Nordborg, Andreas Puschmann, Ulrika Kjellström, Johanna Uusimaa, Jörg Cammenga, Christer Nilsson, Ulf Tedgård, Elisa Rahikkala, Josef Davidsson, Jonna Komulainen-Ebrahim, Johanna Krüger, Lennart Nilsson, Maria Suo-Palosaari, Sorina Gorcenco, Dominik Turkiewicz, and Sten Andréasson

Subjects

0301 basic medicine, Pediatrics, medicine.medical_specialty, Neurology, business.industry, medicine.medical_treatment, Hematopoietic stem cell transplantation, Nystagmus, Hyperreflexia, medicine.disease, Hyperintensity, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine, Attention deficit hyperactivity disorder, Medical genetics, Cerebellar atrophy, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery, Genetics (clinical)

Abstract

Objective:We describe the neurologic, neuroradiologic, and ophthalmologic phenotype of 1 Swedish and 1 Finnish family with autosomal dominant ataxia-pancytopenia (ATXPC) syndrome and SAMD9L mutations.Methods:Members of these families with germline SAMD9L c.2956C>T, p.Arg986Cys, or c.2672T>C, p.Ile891Thr mutations underwent structured interviews and neurologic and ophthalmologic examinations. Neuroimaging was performed, and medical records were reviewed. Previous publications on SAMD9L-ATXPC were reviewed.Results:Twelve individuals in both families were affected clinically. All mutation carriers examined had balance impairment, although severity was very variable. All but 1 had nystagmus, and all but 1 had pyramidal tract signs. Neurologic features were generally present from childhood on and progressed slowly. Two adult patients, who experienced increasing clumsiness, glare, and difficulties with gaze fixation, had paracentral retinal dysfunction verified by multifocal electroretinography. Brain MRI showed early, marked cerebellar atrophy in most carriers and variable cerebral periventricular white matter T2 hyperintensities. Two children were treated with hematopoietic stem cell transplantation for hematologic malignancies, and the neurologic symptoms of one of these worsened after treatment. Three affected individuals had attention deficit hyperactivity disorder or cognitive problems. Retinal dysfunction was not previously reported in individuals with ATXPC.Conclusions:The neurologic phenotype of this syndrome is defined by balance or gait impairment, nystagmus, hyperreflexia in the lower limbs and, frequently, marked cerebellar atrophy. Paracentral retinal dysfunction may contribute to glare, reading problems, and clumsiness. Timely diagnosis of ATXPC is important to address the risk for severe hemorrhage, infection, and hematologic malignancies inherent in this syndrome; regular hematologic follow-up might be beneficial.

Published

2017

39. Genetic aetiology of ophthalmological manifestations in children - a focus on mitochondrial disease-related symptoms

Author

Riikka Keski-Filppula, Aura Falck, Kari Majamaa, Marko Kervinen, Johanna Uusimaa, Jukka S. Moilanen, Anne M. Remes, Anri Hurme, and Paula Widgren

Subjects

0301 basic medicine, Male, Mitochondrial DNA, Candidate gene, medicine.medical_specialty, Pathology, Mitochondrial Diseases, genetic structures, Adolescent, Eye Diseases, Mitochondrial disease, DNA Mutational Analysis, Nystagmus, DNA-Directed DNA Polymerase, DNA, Mitochondrial, Nystagmus, Pathologic, Optic neuropathy, 03 medical and health sciences, Retinal Diseases, Internal medicine, Optic Nerve Diseases, medicine, Blepharoptosis, Humans, Family history, Child, Retrospective Studies, Ophthalmoplegia, biology, business.industry, Infant, Newborn, Infant, General Medicine, Mitochondrial Proton-Translocating ATPases, medicine.disease, eye diseases, DNA Polymerase gamma, Ophthalmology, 030104 developmental biology, Child, Preschool, MT-ATP6, Genome, Mitochondrial, Mutation, biology.protein, Female, medicine.symptom, business, Retinopathy

Abstract

Purpose To investigate the association of mutations in the mitochondrial DNA (mtDNA) or nuclear candidate genes with mitochondrial disease-related ophthalmic manifestations (nystagmus, ptosis, ophthalmoplegia, optic neuropathy and retinopathy) in children. Methods A retrospective cohort of children (n = 98) was identified from the medical record files of a tertiary care hospital. The entire mtDNA and nuclear genes POLG1, OPA1 and PEO1 were analysed from the available DNA samples (n = 38). Furthermore, some nuclear candidate genes were investigated based on family history and phenotype. Rare mtDNA mutations were evaluated using in silico predictors and sequence alignment. Results Three patients had previously identified mutations in mtDNA that are associated with optic neuropathy (in MT-ND6 and MT-ND1) and nystagmus (in tRNA Arg). Nine rare mutations in MT-ATP6 were identified in seven patients, of whom four manifested with retinopathy and three had clusters of MT-ATP6 mutations. Nuclear PEO1 and OPA1 were unchanged in all samples, but a patient with nystagmus had a heterozygous POLG1 mutation. The analysis of nuclear candidate genes revealed mutations in NDUF8 (patient with nystagmus), TULP1 (patient with optic neuropathy, nystagmus and retinopathy) and RP2 (patient with retinopathy) genes. Conclusions Children with retinopathy, nystagmus or optic neuropathy, especially together with developmental delay or positive family history, should be considered for mitochondrial disease. MT-ATP6 should be taken into account for children with retinopathy of unknown aetiology.

Published

2014

40. Mitochondrial DNA Depletion and Deletions in Paediatric Patients with Neuromuscular Diseases: Novel Phenotypes

Author

Johanna Uusimaa, Reetta Hinttala, Outi Saarenpää-Heikkilä, Vesa Vähäsarja, Päivi Vieira, Hannu Tuominen, Heikki Rantala, Tuomas Komulainen, Petri Lehenkari, Päivi Olsén, Pietari Kinnunen, Salla Pakanen, Johanna Palmio, Kari Majamaa, and Milla-Riikka Hautakangas

Subjects

Genetics, Mitochondrial DNA, MtDNA depletion, medicine, Pigmentary Retinopathy, Biology, Bioinformatics, medicine.disease, Phenotype, Article, Paediatric patients, Pearson syndrome

Abstract

To study the clinical manifestations and occurrence of mtDNA depletion and deletions in paediatric patients with neuromuscular diseases and to identify novel clinical phenotypes associated with mtDNA depletion or deletions.Muscle DNA samples from patients presenting with undefined encephalomyopathies or myopathies were analysed for mtDNA content by quantitative real-time PCR and for deletions by long-range PCR. Direct sequencing of mtDNA maintenance genes and whole-exome sequencing were used to study the genetic aetiologies of the diseases. Clinical and laboratory findings were collected.Muscle samples were obtained from 104 paediatric patients with neuromuscular diseases. mtDNA depletion was found in three patients with severe early-onset encephalomyopathy or myopathy. Two of these patients presented with novel types of mitochondrial DNA depletion syndromes associated with increased serum creatine kinase (CK) and multiorgan disease without mutations in any of the known mtDNA maintenance genes; one patient had pathologic endoplasmic reticulum (ER) membranes in muscle. The third patient with mtDNA depletion was diagnosed with merosine-deficient muscular dystrophy caused by a homozygous mutation in the LAMA2 gene. Two patients with an early-onset Kearns-Sayre/Pearson-like phenotype harboured a large-scale mtDNA deletion, minor multiple deletions and high mtDNA content.Novel encephalomyopathic mtDNA depletion syndrome with structural alterations in muscle ER was identified. mtDNA depletion may also refer to secondary mitochondrial changes related to muscular dystrophy. We suggest that a large-scale mtDNA deletion, minor multiple deletions and high mtDNA content associated with Kearns-Sayre/Pearson syndromes may be secondary changes caused by mutations in an unknown nuclear gene.

Published

2014

41. Acute liver failure after valproate exposure in patients with POLG1 mutations and the prognosis after liver transplantation

Author

Johanna, Hynynen, Tuomas, Komulainen, Eija, Tukiainen, Arno, Nordin, Johanna, Arola, Reetta, Kälviäinen, Leena, Jutila, Matias, Röyttä, Reetta, Hinttala, Kari, Majamaa, Heikki, Mäkisalo, and Johanna, Uusimaa

Subjects

Adult, Male, Adolescent, Valproic Acid, Transplants, DNA-Directed DNA Polymerase, Liver Failure, Acute, DNA, Mitochondrial, DNA Polymerase gamma, Liver Transplantation, Young Adult, Fatal Outcome, Liver, Mutation, Humans, Anticonvulsants, Female, Retrospective Studies

Abstract

Patients with mutations in the POLG1 gene encoding mitochondrial DNA polymerase gamma have an increased risk of valproate-induced liver failure. POLG1 mutations are common, and these patients often suffer from intractable seizures. The role of liver transplantation in the treatment of patients with mitochondrial diseases has been controversial. We studied valproate-induced liver failure associated with POLG1 mutations and the prognosis for these patients after liver transplantation. POLG1 was analyzed in blood DNA, mitochondrial DNA (mtDNA) was quantified in liver samples, and clinical data were collected. Five patients with valproate-induced liver failure associated with POLG1 mutations were retrospectively identified. Three patients were previously suspected to have Wilson's disease. Four patients with homozygous p.W748S and p.E1143G mutations had mtDNA depletion in the liver. One of these patients died before anticipated transplantation; the other 3 patients with liver transplantation have survived 4 to 19 years. Two patients have presented with occasional epileptic seizures, and 1 patient has been seizure-free for 11 years. One patient with a heterozygous p.Q1236H mutation (but without mtDNA depletion in the liver) died suddenly 2 years after liver transplantation. In conclusion, the POLG1 mutation status and the age at presentation of valproate-induced liver failure can affect the prognosis after liver transplantation. A heterozygous POLG1 p.Q1236H mutation was related to valproate-induced liver failure without mtDNA depletion, whereas patients homozygous for POLG1 p.W748S and p.E1143G mutations had mtDNA depletion. An analysis of the POLG1 gene should be performed for all patients with suspected mitochondrial disease before the introduction of valproate therapy, and treatment with valproic acid should be avoided in these patients.

Published

2014

42. Childhood Encephalopathies and Myopathies: A Prospective Study in a Defined Population to Assess the Frequency of Mitochondrial Disorders

Author

Johanna Uusimaa, Riitta Herva, Ilmo E. Hassinen, Heikki Rantala, Katri Vuopala, Kari Majamaa, Leena Vainionpää, Anne M. Remes, and Matti Nuutinen

Subjects

Adult, Male, Pathology, medicine.medical_specialty, Mitochondrial DNA, Adolescent, Biopsy, Mitochondrial disease, Population, Respiratory chain, MELAS syndrome, DNA, Mitochondrial, Gene Frequency, Mitochondrial Encephalomyopathies, MELAS Syndrome, medicine, Humans, Prospective Studies, Child, Muscle, Skeletal, education, Myopathy, Finland, education.field_of_study, Muscle biopsy, medicine.diagnostic_test, business.industry, Infant, medicine.disease, Mitochondria, Muscle, Microscopy, Electron, Cross-Sectional Studies, Genetics, Population, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, medicine.symptom, business

Abstract

Objectives. To assess the frequency of mitochondrial abnormalities in muscle histology, defects in respiratory chain enzyme activities, and mutations in mitochondrial DNA (mtDNA) in children with unexplained psychomotor retardation in the population of Northern Finland. Background. The frequency of mitochondrial diseases among patients with childhood encephalopathies and myopathies is not known. Frequencies are difficult to estimate because the clinical presentation of these disorders is variable. Methods. A total of 116 consecutive patients with undefined encephalopathies and myopathies were enrolled during a 7-year period in a hospital serving as the only neurologic unit for a pediatric population of 97 609 and as the only tertiary level neurologic unit for a pediatric population of 48 873. Biochemical and morphologic investigations were performed on muscle biopsy material, including oximetric and spectrophotometric analyses of oxidative phosphorylation, histochemistry, electron microscopy, and molecular analysis of mtDNA. Results. Ultrastructural changes in the mitochondria were the most common finding in the muscle biopsies (71%). Ragged-red fibers were found in 4 cases. An oxidative phosphorylation defect was found in 26 children (28%), complex I (n = 15) and complex IV (n = 13) defects being the most common. Fifteen percent of patients (n = 17/116) with unexplained encephalomyopathy or myopathy had a probable mitochondrial disease. Common pathogenic mutations were found in the mtDNA of only 1 patient (.9%). Conclusions. The common known mutations in mtDNA are rarely causes of childhood encephalomyopathies, which is in contrast to the considerable frequency of the common MELAS mutation observed among adults in the same geographical area. Biochemically and morphologically verified mitochondrial disorders were nevertheless common among the children, making the analysis of a muscle biopsy very important for clinical diagnostic purposes.

Published

2000

43. Parkinsonism associated with the homozygous W748S mutation in the POLG1 gene

Author

Reetta Hinttala, Anne M. Remes, Heidi K. Soini, Kari Majamaa, Mikko Kärppä, Johanna Uusimaa, and R. Takalo

Subjects

Male, Ataxia, Parkinson's disease, DNA-Directed DNA Polymerase, Cocaine, Parkinsonian Disorders, Serine, medicine, Humans, Gene, Aged, Tomography, Emission-Computed, Single-Photon, Genetics, Dystonia, business.industry, Parkinsonism, Tryptophan, medicine.disease, DNA Polymerase gamma, Peripheral neuropathy, Neurology, Mutation, Mutation (genetic algorithm), Sensorineural hearing loss, Neurology (clinical), Radiopharmaceuticals, Geriatrics and Gerontology, medicine.symptom, business

Abstract

Parkinsonism has been described in patients with mutations in POLG1 gene. The W748S mutation is one of the most common mutations in this gene and it has been found to be a frequent cause of autosomal recessive ataxia in adults and the Alpers syndrome in children. We found the W748S mutation in a 65-year-old man with a late-onset syndrome consisting of ataxia, parkinsonism, ophthalmoplegia, peripheral neuropathy, and sensorineural hearing loss. Parkinsonism is one of the phenotypic features associated also with the W748S mutation.

Published

2008

44. Alexander disease with occipital predominance and a novel c.799G>C mutation in the GFAP gene

Author

Riitta Herva, Vesa Karttunen, Ari Karttunen, Johanna Uusimaa, Reetta Hinttala, and Anne M. Remes

Subjects

Mutation, Fatal outcome, Disease progression, Biology, medicine.disease_cause, medicine.disease, Molecular biology, Alexander disease, Pathology and Forensic Medicine, Cellular and Molecular Neuroscience, Genotype, medicine, Neurology (clinical), Gene, Spinal cord pathology

Published

2007

45. Leber hereditary optic neuropathy mutations and toxic-genetic optic neuropathy - authors' response

Author

Marko Kervinen, Johanna Uusimaa, Paula Widgren, Ville Saarela, and Anne M. Remes

Subjects

Male, LEBER HEREDITARY OPTIC NEUROPATHY, Pathology, medicine.medical_specialty, business.industry, Point mutation, General Medicine, Optic Atrophy, Hereditary, Leber, medicine.disease, Amblyopia, DNA, Mitochondrial, Optic neuropathy, Ophthalmology, Alcoholism, Tobacco, medicine, Humans, Point Mutation, Female, business

Published

2013

46. Cytopenia, Predisposition to Myelodysplastic Syndrome, Immunodeficiency, and Neurological Disease Caused By Gain-of-Function SAMD9L Mutations Is Frequently Ameliorated By Hematopoietic Revertant Mosaicism

Author

Matthias Voss, Riitta Niinimäki, Magnus Nordenskjöld, Thoas Fioretos, Jan-Inge Henter, Jörg Cammenga, Tim Ripperger, Johanna Uusimaa, Jukka S. Moilanen, Lennart Nilsson, Tim D. Holmes, Bianca Tesi, Elisa Rahikkala, Merja Möttönen, Josef Davidsson, Ulf Tedgård, Samuel C. C. Chiang, Jonna Komulainen-Ebrahim, David Bryder, and Yenan T. Bryceson

Subjects

Chromosome 7 (human), Cytopenia, Immunology, Cell Biology, Hematology, Biology, medicine.disease, Biochemistry, Uniparental disomy, Loss of heterozygosity, medicine, Chromosome abnormality, Missense mutation, Allele, Immunodeficiency

Abstract

Myelodysplastic syndrome (MDS) is a heterogeneous group of clonal hematopoietic diseases characterized by impaired hematopoiesis and progression to acute myeloid leukemia (AML). Although rare, several monogenic causes of familial MDS/AML have recently been molecularly defined. We studied two families with variable manifestation of cytopenia, MDS with cytogenetic aberrations involving chromosome 7, immunodeficiency, and neurologic disease consistent with ataxia-pancytopenia syndrome. Genetic studies uncovered heterozygous missense variants (p.Arg986Cys and p.Ile891Thr) in SAMD9L, a tumor suppressor gene located on chromosome 7. Consistent with a gain-of-function effect, transfection and over-expression of both SAMD9L variants decreased cell proliferation relative to wild-type protein. In the two families, a total of 10 individuals heterozygous for either SAMD9L mutation were identified. Three individuals developed MDS, with monosomy 7 or der(1;7)(q10;p10) as cytogenetic aberrations that encompassed the mutant SAMD9L locus. In an additional five individuals, three of which experienced a spontaneously resolved cytopenic episodes in infancy, we detected mosaic copy-neutral loss of heterozygosity of 7q by uniparental disomy, with loss of the mutated allele, or mosaic cis SAMD9L mutations. By digital PCR, we identified these events in hematopoietic progenitor cell populations, which were further enriched in B and NK cell lineages. Absent in non hematological tissues, these mutations thus represented somatic revertant mosaicism. Clinically, revertant mosaicism was associated with reduced disease severity, although in two individuals neurological manifestations persisted. Of note, two unaffected carriers without revertant mosaicism harbored an additional rare in trans germline SAMD9L p.Thr233Asn missense variant. In cellular assays, the SAMD9L p.Thr233Asn variant increased proliferation, indicating a loss-of-function effect that potentially compensates for the SAMD9L p.Arg986Cys mutation. Together, our results demonstrate that gain-of-function mutations in the tumor suppressor SAMD9L cause a disease with cytopenia, immunodeficiency, variable neurological presentation, and predisposition to MDS with chromosome 7 aberrations, where hematopoietic revertant mosaicism is common and ameliorates the clinical presentation. Disclosures Fioretos: Cantargia: Equity Ownership.

Published

2016

47. [Mitochondrial recessive ataxia syndrome (MIRAS) and valproate toxicity]

Author

Anna H, Hakonen, Pirjo, Isohanni, Maria, Rantamäki, Reetta, Kälviäinen, Arno, Nordin, Johanna, Uusimaa, Anders, Paetau, Bjarne, Udd, Helena, Pihko, and Anu, Wartiovaara

Subjects

Valproic Acid, Mutation, Humans, Anticonvulsants, Ataxia, Genes, Recessive, Syndrome, DNA, Mitochondrial, Liver Failure

Abstract

The clinical phenotypes vary considerably and can be divided into three groups: 1) childhood-onset encephalopathy and hepatopathy, 2) juvenile onset refractory epilepsy and migraine-like headaches, and 3) adult-onset ataxia and neuropathy with additional symptoms such as psychiatric symptoms and cognitive impairment. The life-threatening MIRAS epilepsy should be actively treated, as it is associated with poor prognosis. The form of MIRAS, starting as acute, treatment resistant epilepsy, is important to diagnose, since valproate therapy almost always leads to acute liver failure requiring liver transplantation.

Published

2010

48. [Current prospects of genetics in epilepsy diagnostics--when and what?]

Author

Johanna, Uusimaa, Eija, Gaily, Jaakko, Ignatius, and Anna-Elina, Lehesjoki

Subjects

Epilepsy, Genotype, Humans, Genetic Testing

Abstract

Genetic factors have been estimated to affect the development of epilepsy in as many as 40% of the patients. Several genes have been identified underlying rare epileptic syndromes. Most epilepsies are most likely caused by a combined effect of several genes and environmental factors, and the genetic background of these diseases remains to be largely unknown. In practice, DNA diagnostics is possible only in a small proportion of epilepsy patients. In some cases gene testing is, however, an essential tool in diagnosis, e.g. facilitating the planning of pharmacological therapy for the patient's epilepsy.

Published

2010

49. Individuals with mutations in XPNPEP3, which encodes a mitochondrial protein, develop a nephronophthisis-like nephropathy

Author

Boris Rolinski, Holger Prokisch, Elisa Jaakkola, Ilmo E. Hassinen, Jaakko Ignatius, Peter K. Jackson, Agnès Rötig, Sethu M. Madhavan, Gil Chernin, Carlos Murga-Zamalloa, Salla Pakanen, Peter Freisinger, Christopher J. Westlake, Bryan R. Tennant, Nicholas Katsanis, Friedhelm Hildebrandt, Juliana Helou, R. Elwyn Isaac, John F. O'Toole, Yangjian Liu, Lynne M. Quarmby, Massimo Attanasio, John A. Sayer, Judith Van Houten, Florence Madignier, Dominik Seelow, Takako Suzuki, Moumita Chaki, Edgar A. Otto, Meera Goyal, Saskia F. Heeringa, Gudrun Nürnberg, Matti Nuutinen, Hassan Chaib, Erica E. Davis, Hannu Tuominen, Hemant Khanna, Takehiro Kusakabe, Bethan E. Hoskins, Weibin Zhou, Peter Nürnberg, Matthias T.F. Wolf, Shazia Ashraf, Christian Becker, Hisashi Fujioka, Susan J. Allen, Martina Herzer, Eric Wise, Lambertus P. van den Heuvel, Joseph G. Gleeson, Henry Fehrenbach, Mikko Kärppä, Johanna Uusimaa, Roger C. Wiggins, and Hellevi Lohi

Subjects

Male, Energy and redox metabolism [NCMLS 4], Bioinformatics, Kidney, Aminopeptidases, Ciliopathies, Frameshift mutation, Mitochondrial Proteins, Rats, Sprague-Dawley, Nephronophthisis-like nephropathy, Nephronophthisis, Clinical investigation, medicine, Animals, Humans, Family, Cilia, Renal Insufficiency, Mitochondrial protein, Zebrafish, Renal disorder [IGMD 9], Centrosome, Genetics, Cystic kidney, biology, business.industry, Cilium, Genetic Diseases, Inborn, Chromosome Mapping, General Medicine, medicine.disease, biology.organism_classification, Phenotype, Mitochondria, Rats, Ciliopathy, Mitochondrial medicine [IGMD 8], Commentary, Female, business, Corrigendum, Genome-Wide Association Study

Abstract

Contains fulltext : 88043.pdf (Publisher’s version ) (Closed access) The autosomal recessive kidney disease nephronophthisis (NPHP) constitutes the most frequent genetic cause of terminal renal failure in the first 3 decades of life. Ten causative genes (NPHP1-NPHP9 and NPHP11), whose products localize to the primary cilia-centrosome complex, support the unifying concept that cystic kidney diseases are "ciliopathies". Using genome-wide homozygosity mapping, we report here what we believe to be a new locus (NPHP-like 1 [NPHPL1]) for an NPHP-like nephropathy. In 2 families with an NPHP-like phenotype, we detected homozygous frameshift and splice-site mutations, respectively, in the X-prolyl aminopeptidase 3 (XPNPEP3) gene. In contrast to all known NPHP proteins, XPNPEP3 localizes to mitochondria of renal cells. However, in vivo analyses also revealed a likely cilia-related function; suppression of zebrafish xpnpep3 phenocopied the developmental phenotypes of ciliopathy morphants, and this effect was rescued by human XPNPEP3 that was devoid of a mitochondrial localization signal. Consistent with a role for XPNPEP3 in ciliary function, several ciliary cystogenic proteins were found to be XPNPEP3 substrates, for which resistance to N-terminal proline cleavage resulted in attenuated protein function in vivo in zebrafish. Our data highlight an emerging link between mitochondria and ciliary dysfunction, and suggest that further understanding the enzymatic activity and substrates of XPNPEP3 will illuminate novel cystogenic pathways.

Published

2010

50. Antipyretic agents for preventing recurrences of febrile seizures: randomized controlled trial

Author

Heikki Rantala, Reija Alen, Teemu Strengell, Johanna Uusimaa, Matti Uhari, P. Lautala, and Rita Tarkka

Subjects

Male, medicine.medical_specialty, Randomization, Diclofenac, Time Factors, Administration, Oral, Ibuprofen, Neurological disorder, Placebo, Seizures, Febrile, law.invention, Placebos, Randomized controlled trial, Double-Blind Method, law, Internal medicine, Febrile seizure, medicine, Secondary Prevention, Humans, Antipyretic, Acetaminophen, Analysis of Variance, Chi-Square Distribution, business.industry, Suppositories, Anti-Inflammatory Agents, Non-Steroidal, Infant, medicine.disease, Confidence interval, Clinical trial, Treatment Outcome, Anesthesia, Child, Preschool, Pediatrics, Perinatology and Child Health, Drug Therapy, Combination, Female, business, medicine.drug

Abstract

Objective To evaluate the efficacy of different antipyretic agents and their highest recommended doses for preventing febrile seizures. Design Randomized, placebo-controlled, double-blind trial. Setting Five hospitals, each working as the only pediatric hospital in its region. Participants A total of 231 children who experienced their first febrile seizure between January 1, 1997, and December 31, 2003. The children were observed for 2 years. Interventions All febrile episodes during follow-up were treated first with either rectal diclofenac or placebo. After 8 hours, treatment was continued with oral ibuprofen, acetaminophen, or placebo. Main Outcome Measure Recurrence of febrile seizures. Results The children experienced 851 febrile episodes, and 89 of these included a febrile seizure. Febrile seizure recurrences occurred in 54 of the 231 children (23.4%). There were no significant differences between the groups in the main measure of effect, and the effect estimates were similar, as the rate was 23.4% (46 of 197) in those receiving antipyretic agents and 23.5% (8 of 34) in those receiving placebo (difference, 0.2; 95% confidence interval, −12.8 to 17.6; P = .99). Fever was significantly higher during the episodes with seizure than in those without seizure (39.7°C vs 38.9°C; difference, 0.7°C; 95% confidence interval, −0.9°C to −0.6°C; P Conclusions Antipyretic agents are ineffective for the prevention of recurrences of febrile seizures and for the lowering of body temperature in patients with a febrile episode that leads to a recurrent febrile seizure. Trial Registration clinicaltrials.gov Identifier:NCT00568217

Published

2009