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1. Glut1 Deficiency Syndrome (Glut1DS): State of the art in 2020 and recommendations of the international Glut1DS study group

Author

Klepper, J. Akman, C. Armeno, M. Auvin, S. Cervenka, M. Cross, H.J. De Giorgis, V. Della Marina, A. Engelstad, K. Heussinger, N. Kossoff, E.H. Leen, W.G. Leiendecker, B. Monani, U.R. Oguni, H. Neal, E. Pascual, J.M. Pearson, T.S. Pons, R. Scheffer, I.E. Veggiotti, P. Willemsen, M. Zuberi, S.M. De Vivo, D.C.

Abstract

Glut1 deficiency syndrome (Glut1DS) is a brain energy failure syndrome caused by impaired glucose transport across brain tissue barriers. Glucose diffusion across tissue barriers is facilitated by a family of proteins including glucose transporter type 1 (Glut1). Patients are treated effectively with ketogenic diet therapies (KDT) that provide a supplemental fuel, namely ketone bodies, for brain energy metabolism. The increasing complexity of Glut1DS, since its original description in 1991, now demands an international consensus statement regarding diagnosis and treatment. International experts (n = 23) developed a consensus statement utilizing their collective professional experience, responses to a standardized questionnaire, and serial discussions of wide-ranging issues related to Glut1DS. Key clinical features signaling the onset of Glut1DS are eye-head movement abnormalities, seizures, neurodevelopmental impairment, deceleration of head growth, and movement disorders. Diagnosis is confirmed by the presence of these clinical signs, hypoglycorrhachia documented by lumbar puncture, and genetic analysis showing pathogenic SLC2A1 variants. KDT represent standard choices with Glut1DS-specific recommendations regarding duration, composition, and management. Ongoing research has identified future interventions to restore Glut1 protein content and function. Clinical manifestations are influenced by patient age, genetic complexity, and novel therapeutic interventions. All clinical phenotypes will benefit from a better understanding of Glut1DS natural history throughout the life cycle and from improved guidelines facilitating early diagnosis and prompt treatment. Often, the presenting seizures are treated initially with antiseizure drugs before the cause of the epilepsy is ascertained and appropriate KDT are initiated. Initial drug treatment fails to treat the underlying metabolic disturbance during early brain development, contributing to the long-term disease burden. Impaired development of the brain microvasculature is one such complication of delayed Glut1DS treatment in the postnatal period. This international consensus statement should facilitate prompt diagnosis and guide best standard of care for Glut1DS throughout the life cycle. © 2020 The Authors. Epilepsia Open published by Wiley Periodicals LLC on behalf of International League Against Epilepsy.

Published
2020

2. Glut1 Deficiency Syndrome (Glut1DS): State of the art in 2020 and recommendations of the international Glut1DS study group

Author

Klepper, J, Akman, C, Armeno, M, Auvin, S, Cervenka, M, Cross, HJ, De Giorgis, V, Della Marina, A, Engelstad, K, Heussinger, N, Kossoff, EH, Leen, WG, Leiendecker, B, Monani, UR, Oguni, H, Neal, E, Pascual, JM, Pearson, TS, Pons, R, Scheffer, IE, Veggiotti, P, Willemsen, M, Zuberi, SM, De Vivo, DC, Klepper, J, Akman, C, Armeno, M, Auvin, S, Cervenka, M, Cross, HJ, De Giorgis, V, Della Marina, A, Engelstad, K, Heussinger, N, Kossoff, EH, Leen, WG, Leiendecker, B, Monani, UR, Oguni, H, Neal, E, Pascual, JM, Pearson, TS, Pons, R, Scheffer, IE, Veggiotti, P, Willemsen, M, Zuberi, SM, and De Vivo, DC

Abstract

Glut1 deficiency syndrome (Glut1DS) is a brain energy failure syndrome caused by impaired glucose transport across brain tissue barriers. Glucose diffusion across tissue barriers is facilitated by a family of proteins including glucose transporter type 1 (Glut1). Patients are treated effectively with ketogenic diet therapies (KDT) that provide a supplemental fuel, namely ketone bodies, for brain energy metabolism. The increasing complexity of Glut1DS, since its original description in 1991, now demands an international consensus statement regarding diagnosis and treatment. International experts (n = 23) developed a consensus statement utilizing their collective professional experience, responses to a standardized questionnaire, and serial discussions of wide-ranging issues related to Glut1DS. Key clinical features signaling the onset of Glut1DS are eye-head movement abnormalities, seizures, neurodevelopmental impairment, deceleration of head growth, and movement disorders. Diagnosis is confirmed by the presence of these clinical signs, hypoglycorrhachia documented by lumbar puncture, and genetic analysis showing pathogenic SLC2A1 variants. KDT represent standard choices with Glut1DS-specific recommendations regarding duration, composition, and management. Ongoing research has identified future interventions to restore Glut1 protein content and function. Clinical manifestations are influenced by patient age, genetic complexity, and novel therapeutic interventions. All clinical phenotypes will benefit from a better understanding of Glut1DS natural history throughout the life cycle and from improved guidelines facilitating early diagnosis and prompt treatment. Often, the presenting seizures are treated initially with antiseizure drugs before the cause of the epilepsy is ascertained and appropriate KDT are initiated. Initial drug treatment fails to treat the underlying metabolic disturbance during early brain development, contributing to the long-term disease burden. Im

Published
2020

4. Paroxysmal eye-head movements in Glut1 deficiency syndrome

Author

Pearson, T.S. Pons, R. Engelstad, K. Kane, S.A. Goldberg, M.E. De Vivo, D.C.

Subjects
genetic structures
Abstract

Objective: To describe a characteristic paroxysmal eye-head movement disorder that occurs in infants with Glut1 deficiency syndrome (Glut1 DS). Methods: We retrospectively reviewed the medical charts of 101 patients with Glut1 DS to obtain clinical data about episodic abnormal eye movements and analyzed video recordings of 18 eye movement episodes from 10 patients. Results: A documented history of paroxysmal abnormal eye movements was found in 32/101 patients (32%), and a detailed description was available in 18 patients, presented here. Episodes started before age 6 months in 15/18 patients (83%), and preceded the onset of seiz ures in10/16 patients (63%) who experienced both types of episodes. Eye movement episodes resolved, with or without treatment, by 6 years of age in 7/8 patients with documented longtermcourse. Episodes were brief (usually ,5 minutes). Video analysis revealed that the eye movements were rapid, multidirectional, and often accompanied by a head movement in the same direction. Eye movements were separated by clear intervals of fixation, usually ranging from 200to 800 ms. The movements were consistent with eye-head gaze saccades. These movements can be distinguished from opsoclonus by the presence of a clear intermovement fixation interval and the association of a same-direction head movement. Conclusions: Paroxysmal eye-head movements, for which we suggest the term aberrant gaze saccades, are an early symptom of Glut1 DS in infancy. Recognition of the episodes will facilitate prompt diagnosis of this treatable neurodevelopmental disorder. © 2017 American Academy of Neurology.

Published
2017

5. MITOCHONDRIAL DISEASES II (Oral)

Author

Hirano, M., primary, Lopez-Garcia, C., additional, Rosales, X., additional, Engelstad, K., additional, Uddin, J., additional, Dominguez, C., additional, Paradas, C., additional, Marti, R., additional, and Garone, C., additional

Published
2018
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7. Nusinersen versus sham control in infantile-onset spinal muscular atrophy

Author

Finkel, RS, Mercuri, E, Darras, BT, Connolly, AM, Kuntz, NL, Kirschner, J, Chiriboga, CA, Saito, K, Servais, L, Tizzano, E, Topaloglu, H, Tulinius, M, Montes, J, Glanzman, AM, Bishop, K, Zhong, ZJ, Gheuens, S, Bennett, CF, Schneider, E, Farwell, W, De Vivo, DC, Bradley, WG, Schroth, MK, Bodensteriner, JB, Davis, CS, Shell, R, Hen, J, Austin, ED, Aziz-Zaman, S, Cappell, J, Constantinescu, A, Cruz, R, Dastgir, J, Dunaway, S, Engelstad, K, Gormley, M, Holuba La Marca, N, Khandji, A, Kramer, S, Marra, J, Ortiz-Miller, C, Popolizio, M, Salazar, R, Sanabria, L, Weimer, L, Anand, P, Gadeken, R, Golumbek, PT, Siener, C, Zaidman, CM, Al-Ghamdi, F, Berde, C, Ghosh, P, Graham, R, Harrington, T, Koka, A, Laine, R, Liew, W, Mirek, E, Ordonez, G, Pasternak, A, Quigley, J, Sethna, N, Souris, M, Szelag, H, Wand, L, Day, JW, D'Souza, G, Duong, TT, Gee, R, Kitsuwa-Lowe, J, McFall, D, Patnaik, S, Paulose, S, Perez, J, Proud, C, Purse, B, Ramamurthi, RJ, Sakamuri, S, Sampson, J, Sanjanwala, B, Tesi Rocha, AC, Watson, K, Welsh, L, Pena, LDM, Case, L, Coates, J, DeArmey, S, Homi, MM, Milleson, C, Nelson, N, Ross, A, Smith, E, Taicher, B, Wootton, J, Finanger, E, Benjamin, D, Frank, A, Roberts, C, Russman, B, Finkel, RS, Mercuri, E, Darras, BT, Connolly, AM, Kuntz, NL, Kirschner, J, Chiriboga, CA, Saito, K, Servais, L, Tizzano, E, Topaloglu, H, Tulinius, M, Montes, J, Glanzman, AM, Bishop, K, Zhong, ZJ, Gheuens, S, Bennett, CF, Schneider, E, Farwell, W, De Vivo, DC, Bradley, WG, Schroth, MK, Bodensteriner, JB, Davis, CS, Shell, R, Hen, J, Austin, ED, Aziz-Zaman, S, Cappell, J, Constantinescu, A, Cruz, R, Dastgir, J, Dunaway, S, Engelstad, K, Gormley, M, Holuba La Marca, N, Khandji, A, Kramer, S, Marra, J, Ortiz-Miller, C, Popolizio, M, Salazar, R, Sanabria, L, Weimer, L, Anand, P, Gadeken, R, Golumbek, PT, Siener, C, Zaidman, CM, Al-Ghamdi, F, Berde, C, Ghosh, P, Graham, R, Harrington, T, Koka, A, Laine, R, Liew, W, Mirek, E, Ordonez, G, Pasternak, A, Quigley, J, Sethna, N, Souris, M, Szelag, H, Wand, L, Day, JW, D'Souza, G, Duong, TT, Gee, R, Kitsuwa-Lowe, J, McFall, D, Patnaik, S, Paulose, S, Perez, J, Proud, C, Purse, B, Ramamurthi, RJ, Sakamuri, S, Sampson, J, Sanjanwala, B, Tesi Rocha, AC, Watson, K, Welsh, L, Pena, LDM, Case, L, Coates, J, DeArmey, S, Homi, MM, Milleson, C, Nelson, N, Ross, A, Smith, E, Taicher, B, Wootton, J, Finanger, E, Benjamin, D, Frank, A, Roberts, C, and Russman, B

Abstract

BACKGROUND: Spinal muscular atrophy is an autosomal recessive neuromuscular disorder that is caused by an insufficient level of survival motor neuron (SMN) protein. Nusinersen is an antisense oligonucleotide drug that modifies pre–messenger RNA splicing of the SMN2 gene and thus promotes increased production of full-length SMN protein. METHODS: We conducted a randomized, double-blind, sham-controlled, phase 3 efficacy and safety trial of nusinersen in infants with spinal muscular atrophy. The primary end points were a motor-milestone response (defined according to results on the Hammersmith Infant Neurological Examination) and event-free survival (time to death or the use of permanent assisted ventilation). Secondary end points included overall survival and subgroup analyses of event-free survival according to disease duration at screening. Only the first primary end point was tested in a prespecified interim analysis. To control the overall type I error rate at 0.05, a hierarchical testing strategy was used for the second primary end point and the secondary end points in the final analysis. RESULTS: In the interim analysis, a significantly higher percentage of infants in the nusinersen group than in the control group had a motor-milestone response (21 of 51 infants [41%] vs. 0 of 27 [0%], P<0.001), and this result prompted early termination of the trial. In the final analysis, a significantly higher percentage of infants in the nusinersen group than in the control group had a motor-milestone response (37 of 73 infants [51%] vs. 0 of 37 [0%]), and the likelihood of event-free survival was higher in the nusinersen group than in the control group (hazard ratio for death or the use of permanent assisted ventilation, 0.53; P=0.005). The likelihood of overall survival was higher in the nusinersen group than in the control group (hazard ratio for death, 0.37; P=0.004), and infants with a shorter disease duration at screening were more likely than those with a longer disea

Published
2017

10. The spectrum of movement disorders in Glut-1 deficiency

Author

Pons, R. Collins, A. Rotstein, M. Engelstad, K. De Vivo, D.C.

Subjects
nervous system diseases
Abstract

To assess the spectrum of movement disorders, we reviewed video recordings and charts of 57 patients with Glut-1 deficiency. Eighty-nine percent of patients with Glut-1 deficiency syndrome had a disturbance of gait. The most frequent gait abnormalities were ataxic-spastic and ataxic. Action limb dystonia was observed in 86% of cases and mild chorea in 75%. Cerebellar action tremor was seen in 70% of patients, myoclonus in 16%, and dyspraxia in 21%. Nonepileptic paroxysmal events occurred in 28% of patients, and included episodes of ataxia, weakness, Parkinsonism and nonkinesogenic dyskinesias. The 40 patients (70%) who were on the ketogenic diet had less severe gait disturbances but more dystonia, chorea, tremor, myoclonus, dyspraxia, and paroxysmal events compared with the 17 patients on a conventional diet. Poor dietary compliance and low ketonuria appear to trigger the paroxysmal events in some patients. Gait disturbances and movement disorders are frequent in patients with Glut-1 deficiency and are signs of chronic and intermittent pyramidal, cerebellar and extrapyramidal circuit dysfunction. These clinical symptoms reflect chronic nutrient deficiency during brain development and may be mitigated by chronic ketosis. © 2010 Movement Disorder Society.

Published
2010

20. Dichloroacetate causes toxic neuropathy in MELAS: A randomized, controlled clinical trial

Author

Kaufmann, P., primary, Engelstad, K., additional, Wei, Y., additional, Jhung, S., additional, Sano, M. C., additional, Shungu, D. C., additional, Millar, W. S., additional, Hong, X., additional, Gooch, C. L., additional, Mao, X., additional, Pascual, J. M., additional, Hirano, M., additional, Stacpoole, P. W., additional, DiMauro, S., additional, and De Vivo, D. C., additional

Published
2006
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27. Deoxynucleoside Therapy for Thymidine Kinase 2-Deficient Myopathy

Author

Francisco Javier Aguirre‐Rodríguez, Susana G. Kalko, Elena Martín-Hernández, Fabiola Mavillard, Michio Hirano, Javier Torres-Torronteras, Bruce Levin, Marcos Madruga-Garrido, Cecilia Jimenez-Mallebrera, Yuqi Tu, Juan P. Morealejo‐Aycinena, Yuelin Long, Karin Kleinsteuber, Ramon Martí, Itxaso Marti, Jasim Uddin, Olga Serrano, Caterina Garone, Concepcion Álvarez del Vayo, M. Alice Donati, Francina Munell, John L.P. Thompson, Carmen Paradas, Cristina Domínguez-González, Andrés Nascimento, M. Dolores Sardina, Kristen Engelstad, Dominguez-Gonzalez C., Madruga-Garrido M., Mavillard F., Garone C., Aguirre-Rodriguez F.J., Donati M.A., Kleinsteuber K., Marti I., Martin-Hernandez E., Morealejo-Aycinena J.P., Munell F., Nascimento A., Kalko S.G., Sardina M.D., Alvarez del Vayo C., Serrano O., Long Y., Tu Y., Levin B., Thompson J.L.P., Engelstad K., Uddin J., Torres-Torronteras J., Jimenez-Mallebrera C., Marti R., Paradas C., Hirano M., Instituto de Salud Carlos III, Generalitat de Catalunya, European Commission, Muscular Dystrophy Association (US), and Arturo Estopinan TK2 Research Fund

Subjects
0301 basic medicine, Adult, Compassionate Use Trials, Male, medicine.medical_specialty, Neurology, Side effect, medicine.medical_treatment, Deoxyribonucleosides, Walk Test, Gastroenterology, Thymidine Kinase, Article, 03 medical and health sciences, 0302 clinical medicine, Muscular Diseases, Internal medicine, tk2, myopathy, nucleosides, therapy, medicine, Humans, Myopathy, Child, Feeding tube, Mechanical ventilation, business.industry, Discontinuation, Diarrhea, 030104 developmental biology, Child, Preschool, Female, Neurology (clinical), GDF15, medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

[Objective] Thymidine kinase 2, encoded by the nuclear gene TK2, is required for mitochondrial DNA maintenance. Autosomal recessive TK2 mutations cause depletion and multiple deletions of mtDNA that manifest predominantly as a myopathy usually beginning in childhood and progressing relentlessly. We investigated the safety and efficacy of deoxynucleoside monophosphate and deoxynucleoside therapies., [Methods] We administered deoxynucleoside monophosphates and deoxynucleoside to 16 TK2‐deficient patients under a compassionate use program., [Results] In 5 patients with early onset and severe disease, survival and motor functions were better than historically untreated patients. In 11 childhood and adult onset patients, clinical measures stabilized or improved. Three of 8 patients who were nonambulatory at baseline gained the ability to walk on therapy; 4 of 5 patients who required enteric nutrition were able to discontinue feeding tube use; and 1 of 9 patients who required mechanical ventilation became able to breathe independently. In motor functional scales, improvements were observed in the 6‐minute walk test performance in 7 of 8 subjects, Egen Klassifikation in 2 of 3, and North Star Ambulatory Assessment in all 5 tested. Baseline elevated serum growth differentiation factor 15 levels decreased with treatment in all 7 patients tested. A side effect observed in 8 of the 16 patients was dose‐dependent diarrhea, which did not require withdrawal of treatment. Among 12 other TK2 patients treated with deoxynucleoside, 2 adults developed elevated liver enzymes that normalized following discontinuation of therapy., [Interpretation] This open‐label study indicates favorable side effect profiles and clinical efficacy of deoxynucleoside monophosphate and deoxynucleoside therapies for TK2 deficiency. ANN NEUROL 2019;86:293–303, This work was supported in part by grants from the Spanish Carlos III Health Institute (PMP15/00025 for C.P., F.Ma., and R.M.; PI16/00579 and CP09/00011 for C.J.‐M.), Muscular Dystrophy Association (577391), Arturo Estopinan TK2 Research Fund, Generalitat de Catalunya PERIS program (SLT002/16/00370 for J.T‐T.), and European Regional Development Fund.

Published
2019

28. A platform to map the mind-mitochondria connection and the hallmarks of psychobiology: the MiSBIE study.

Author

Kelly C, Trumpff C, Acosta C, Assuras S, Baker J, Basarrate S, Behnke A, Bo K, Bobba-Alves N, Champagne FA, Conklin Q, Cross M, De Jager P, Engelstad K, Epel E, Franklin SG, Hirano M, Huang Q, Junker A, Juster RP, Kapri D, Kirschbaum C, Kurade M, Lauriola V, Li S, Liu CC, Liu G, McEwen B, McGill MA, McIntyre K, Monzel AS, Michelson J, Prather AA, Puterman E, Rosales XQ, Shapiro PA, Shire D, Slavich GM, Sloan RP, Smith JLM, Spann M, Spicer J, Sturm G, Tepler S, de Schotten MT, Wager TD, and Picard M

Subjects
Humans, Brain metabolism, Mitochondrial Diseases metabolism, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, Mitochondria metabolism
Abstract

Health emerges from coordinated psychobiological processes powered by mitochondrial energy transformation. But how do mitochondria regulate the multisystem responses that shape resilience and disease risk across the lifespan? The Mitochondrial Stress, Brain Imaging, and Epigenetics (MiSBIE) study was established to address this question and determine how mitochondria influence the interconnected neuroendocrine, immune, metabolic, cardiovascular, cognitive, and emotional systems among individuals spanning the spectrum of mitochondrial energy transformation capacity, including participants with rare mitochondrial DNA (mtDNA) lesions causing mitochondrial diseases (MitoDs). This interdisciplinary effort is expected to generate new insights into the pathophysiology of MitoDs, provide a foundation to develop novel biomarkers of human health, and integrate our fragmented knowledge of bioenergetic, brain-body, and mind-mitochondria processes relevant to medicine and public health., Competing Interests: Declaration of interests The authors have no competing interests to declare., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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29. Psychobiological regulation of plasma and saliva GDF15 dynamics in health and mitochondrial diseases.

Author

Huang Q, Trumpff C, Monzel AS, Rausser S, Haahr R, Devine J, Liu CC, Kelly C, Thompson E, Kurade M, Michelson J, Shaulson ED, Li S, Engelstad K, Tanji K, Lauriola V, Wang T, Wang S, Zuraikat FM, St-Onge MP, Kaufman BA, Sloan R, Juster RP, Marsland AL, Gouspillou G, Hirano M, and Picard M

Abstract

GDF15 (growth differentiation factor 15) is a marker of cellular energetic stress linked to physical-mental illness, aging, and mortality. However, questions remain about its dynamic properties and measurability in human biofluids other than blood. Here, we examine the natural dynamics and psychobiological regulation of plasma and saliva GDF15 in four human studies representing 4,749 samples from 188 individuals. We show that GDF15 protein is detectable in saliva (8% of plasma concentration), likely produced by salivary glands secretory duct cells. Using a brief laboratory socio-evaluative stressor paradigm, we find that psychosocial stress increases plasma (+3.5-5.9%) and saliva GDF15 (+43%) with distinct kinetics, within minutes. Moreover, saliva GDF15 exhibits a robust awakening response, declining by ~40-89% within 30-45 minutes from its peak level at the time of waking up. Clinically, individuals with genetic mitochondrial OxPhos diseases show elevated baseline plasma and saliva GDF15, and post-stress GDF15 levels in both biofluids correlate with multi-system disease severity, exercise intolerance, and the subjective experience of fatigue. Taken together, our data establish that saliva GDF15 is dynamic, sensitive to psychological states, a clinically relevant endocrine marker of mitochondrial diseases. These findings also point to a shared psychobiological pathway integrating metabolic and mental stress., Competing Interests: Financial competing interests The authors have no competing interests to declare.

Published
2024
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30. Mechanochemically Enabled Metastable Niobium Tungsten Oxides.

Author

Raji-Adefila B, Wang Y, Ding Y, Avdeev M, Outka A, Gonzales H, Engelstad K, Sainio S, Nordlund D, Kan WH, Zhou S, and Chen D

Abstract

Metastable compounds have greatly expanded the synthesizable compositions of solid-state materials and have attracted enormous amounts of attention in recent years. Especially, mechanochemically enabled metastable materials synthesis has been very successful in realizing cation-disordered materials with highly simple crystal structures, such as rock salts. Application of the same strategy for other structural types, especially for non-close-packed structures, is peculiarly underexplored. Niobium tungsten oxides (NbWOs), a class of materials that have been under the spotlight because of their diverse structural varieties and promising electrochemical and thermoelectric properties, are ideally suited to fill such a knowledge gap. In this work, we develop a new series of metastable NbWOs and realize one with a fully cation-disordered structure. Furthermore, we find that metastable NbWOs transform to a cation-disordered cubic structure when applied as a Li-ion battery anode, highlighting an intriguing non-close-packed-close-packed conversion process, as evidenced in various physicochemical characterizations, in terms of diffraction, electronic, and vibrational structures. Finally, by comparing the cation-disordered NbWO with other trending cation-disordered oxides, we raise a few key structural features for cation disorder and suggest a few possible research opportunities for this field.

Published
2024
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31. A United States-based patient-reported adult polyglucosan body disease registry: initial results.

Author

Sparks J, Michelassi F, Thompson JLP, Buchsbaum R, Pires N, DeRosa JT, Engelstad K, DiMauro S, Akman HO, and Hirano M

Abstract

Background: Adult Polyglucosan Body Disease (APBD) is an ultra-rare, genetic neurodegenerative disorder caused by autosomal recessive mutations in the glycogen branching enzyme gene. Knowledge of the demographic and clinical characteristics of APBD patients and the natural history of the disease is lacking. We report here initial results from a patient-reported registry of APBD patients., Objectives: (1) Maximize the quality of the APBD Registry survey data; (2) provide an initial report on APBD disease progression and natural history using these data; and (3) specify next steps in the process for testing potential new therapies., Design: Data are from members of the APBD Research Foundation (New York), surveyed from 2014 by the Columbia APBD Patient/Family (CAP) Registry. Inclusion criteria are: disease onset at age 18+ and progressive clinical triad of peripheral neuropathy, spasticity, and neurogenic bladder., Methods: Genetic testing results were used when available. Respondents found to not have APBD in clinical records were excluded. All changes and exclusions were recorded in a database edit log. Results are reported in frequency tables, bar graphs, time plots, and heat maps., Results: The 96 respondents meeting inclusion criteria were predominantly (96.8%) White, highly educated (89.3% at least some college education), and mostly (85.1%) of Ashkenazi Jewish descent. 57.1% had at least one parent born in the United States, with at least one grandparent from Europe (excluding Russia; 75.4%), the United States (42.1%), or Russia (33.3%). 37.2% reported a family history of APBD, and 33.3% had an affected sibling. Median APBD onset age was 51 [Interquartile range (IQR) 11], and median age of diagnosis 57 (IQR 10.5). The 75 reported prior misdiagnoses were mainly peripheral neuropathy (43, 60.6%) and spinal stenosis (11, 15.1%)., Conclusion: Although from a demographically constricted survey, the results provide basic clinical information for future studies to develop treatments for APBD., Competing Interests: There are no competing interests., (© The Author(s) 2024.)

Published
2024
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32. Quantitative determination of SLC2A1 variant functional effects in GLUT1 deficiency syndrome.

Author

Tayebi N, Leon-Ricardo B, McCall K, Mehinovic E, Engelstad K, Huynh V, Turner TN, Weisenberg J, Thio LL, Hruz P, Williams RSB, De Vivo DC, Petit V, Haller G, and Gurnett CA

Subjects
Humans, Phenotype, Monosaccharide Transport Proteins genetics, Mutation, Missense, Glucose Transporter Type 1 genetics, Carbohydrate Metabolism, Inborn Errors genetics, Carbohydrate Metabolism, Inborn Errors diagnosis
Abstract

Objective: The goal of this study is to demonstrate the utility of a growth assay to quantify the functional impact of single nucleotide variants (SNVs) in SLC2A1, the gene responsible for Glut1DS., Methods: The functional impact of 40 SNVs in SLC2A1 was quantitatively determined in HAP1 cells in which SLC2A1 is required for growth. Donor libraries were introduced into the endogenous SLC2A1 gene in HAP1-Lig4KO cells using CRISPR/Cas9. Cell populations were harvested and sequenced to quantify the effect of variants on growth and generate a functional score. Quantitative functional scores were compared to 3-OMG uptake, SLC2A1 cell surface expression, CADD score, and clinical data, including CSF/blood glucose ratio., Results: Nonsense variants (N = 3) were reduced in cell culture over time resulting in negative scores (mean score: -1.15 ± 0.17), whereas synonymous variants (N = 10) were not depleted (mean score: 0.25 ± 0.12) (P < 2e-16). Missense variants (N = 27) yielded a range of functional scores including slightly negative scores, supporting a partial function and intermediate phenotype. Several variants with normal results on either cell surface expression (p.N34S and p.W65R) or 3-OMG uptake (p.W65R) had negative functional scores. There is a moderate but significant correlation between our functional scores and CADD scores., Interpretation: Cell growth is useful to quantitatively determine the functional effects of SLC2A1 variants. Nonsense variants were reliably distinguished from benign variants in this in vitro functional assay. For facilitating early diagnosis and therapeutic intervention, future work is needed to determine the functional effect of every possible variant in SLC2A1., (© 2023 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2023
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33. Newborn Screening for Spinal Muscular Atrophy in New York State: Clinical Outcomes From the First 3 Years.

Author

Lee BH, Deng S, Chiriboga CA, Kay DM, Irumudomon O, Laureta E, Delfiner L, Treidler SO, Anziska Y, Sakonju A, Kois C, Farooq O, Engelstad K, Laurenzano A, Hogan K, Caggana M, Saavedra-Matiz CA, Stevens CF, and Ciafaloni E

Subjects
Infant, Infant, Newborn, Humans, New York, Retrospective Studies, Real-Time Polymerase Chain Reaction, Neonatal Screening, Muscular Atrophy, Spinal diagnosis, Muscular Atrophy, Spinal genetics, Muscular Atrophy, Spinal therapy
Abstract

Background and Objectives: Spinal muscular atrophy (SMA) was added to the Recommended Uniform Screening Panel in July 2018 largely on the basis of the availability and efficacy of newly approved disease-modifying therapies. New York State (NYS) started universal newborn screening for SMA in October 2018. The authors report the findings from the first 3 years of screening., Methods: Statewide neonatal screening was conducted using DNA extracted from dried blood spots using a real-time quantitative PCR assay. Retrospective follow-up data were collected from 9 referral centers across the state on 34 infants., Results: In the first 3 years since statewide implementation, nearly 650,000 infants have been screened for SMA. Thirty-four babies screened positive and were referred to a neuromuscular specialty care center. The incidence remains lower than previously predicted. The majority (94%), including all infants with 2-3 copies of survival motor neuron ( SMN) 2, have received treatment. Among treated infants, the overwhelming majority (94%; 30/32) have received gene replacement. All infants in this cohort with 3 copies of SMN2 are clinically asymptomatic posttreatment based on early clinical follow-up data. Infants with 2 copies of SMN2 are more variable in their outcomes. Electrodiagnostic outcomes data obtained from a subgroup of patients (n = 11) demonstrated either improvement or no change in compound muscle action potential (CMAP) amplitude at last clinical follow-up compared with pretreatment baseline. Most infants were treated before 6 weeks of age (median = 34.5 days of life; range 11-180 days). Delays and barriers to treatment identified by treating clinicians followed 2 broad themes: medical and nonmedical. Medical delays most commonly reported were the presence of AAV9 antibodies and elevated troponin I levels. Nonmedical barriers included delays in obtaining insurance and insurance policies regarding specific treatment modalities., Discussion: The findings from the NYS cohort of newborn screen-identified infants are consistent with other reports of improved outcomes from early diagnosis and treatment. Additional biomarkers of motor neuron health including EMG can potentially be helpful in detecting preclinical decline., (© 2022 American Academy of Neurology.)

Published
2022
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34. Visual memory failure presages conversion to MELAS phenotype.

Author

Leaffer EB, De Vivo DC, Engelstad K, Fryer RH, Gu Y, Shungu DC, Hirano M, DiMauro S, and Hinton VJ

Subjects
Brain metabolism, Humans, Lactic Acid metabolism, Phenotype, MELAS Syndrome, Stroke complications
Abstract

Objective: To examine the correlation between verbal and visual memory function and correlation with brain metabolites (lactate and N-Acetylaspartate, NAA) in individuals with mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS)., Methods: Memory performance and brain metabolites (ventricular lactate, occipital lactate, and occipital NAA) were examined in 18 MELAS, 58 m.3243A > G carriers, and 20 familial controls. Measures included the Selective Reminding Test (verbal memory), Benton Visuospatial Retention Test (visual memory), and MR Spectroscopy (NAA, Lactate). ANOVA, chi-squared/Fisher's exact tests, paired t-tests, Pearson correlations, and Spearman correlations were used., Results: When compared to carriers and controls, MELAS patients had the: (1) most impaired memory functions (Visual: p = 0.0003; Verbal: p = 0.02), (2) greatest visual than verbal memory impairment, (3) highest brain lactate levels (p < 0.0001), and (4) lowest brain NAA levels (p = 0.0003). Occipital and ventricular lactate to NAA ratios correlated significantly with visual memory performance (p ≤ 0.001). Higher lactate levels (p ≤ 0.01) and lower NAA levels (p = 0.0009) correlated specifically with greater visual memory dysfunction in MELAS. There was little or no correlation with verbal memory., Interpretation: Individuals with MELAS are at increased risk for impaired memory. Although verbal and visual memory are both affected, visual memory is preferentially affected and more clearly associated with brain metabolite levels. Preferential involvement of posterior brain regions is a distinctive clinical signature of MELAS. We now report a distinctive cognitive phenotype that targets visual memory more prominently and earlier than verbal memory. We speculate that this finding in carriers presages a conversion to the MELAS phenotype., (© 2022 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2022
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35. Advances in Thymidine Kinase 2 Deficiency: Clinical Aspects, Translational Progress, and Emerging Therapies.

Author

Berardo A, Domínguez-González C, Engelstad K, and Hirano M

Subjects
Animals, Child, DNA, Mitochondrial genetics, Humans, Mice, Thymidine Kinase genetics, Thymidine Kinase metabolism, Mitochondrial Myopathies, Muscular Diseases genetics
Abstract

Defects in the replication, maintenance, and repair of mitochondrial DNA (mtDNA) constitute a growing and genetically heterogeneous group of mitochondrial disorders. Multiple genes participate in these processes, including thymidine kinase 2 (TK2) encoding the mitochondrial matrix protein TK2, a critical component of the mitochondrial nucleotide salvage pathway. TK2 deficiency (TK2d) causes mtDNA depletion, multiple deletions, or both, which manifest predominantly as mitochondrial myopathy. A wide clinical spectrum phenotype includes a severe, rapidly progressive, early onset form (median survival: < 2 years); a less severe childhood-onset form; and a late-onset form with a variably slower rate of progression. Clinical presentation typically includes progressive weakness of limb, neck, facial, oropharyngeal, and respiratory muscle, whereas limb myopathy with ptosis, ophthalmoparesis, and respiratory involvement is more common in the late-onset form. Deoxynucleoside monophosphates and deoxynucleosides that can bypass the TK2 enzyme defect have been assessed in a mouse model, as well as under open-label compassionate use (expanded access) in TK2d patients, indicating clinical efficacy with a favorable side-effect profile. This treatment is currently undergoing testing in clinical trials intended to support approval in the US and European Union (EU). In the early expanded access program, growth differentiation factor 15 (GDF-15) appears to be a useful biomarker that correlates with therapeutic response. With the advent of a specific treatment and given the high morbidity and mortality associated with TK2d, clinicians need to know how to recognize and diagnose this disorder. Here, we summarize translational research about this rare condition emphasizing clinical aspects.

Published
2022
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36. Hypotonia-cystinuria 2p21 deletion syndrome: Intrafamilial variability of clinical expression.

Author

Towheed A, Hietanen CL, Kamath VG, Singh LN, Ho A, Engelstad K, Cornett K, Montes J, and De Vivo D

Subjects
Adult, Chromosome Deletion, Chromosomes, Human, Pair 21 genetics, Female, Humans, Male, Siblings, Young Adult, Craniofacial Abnormalities diagnosis, Craniofacial Abnormalities genetics, Craniofacial Abnormalities physiopathology, Cystinuria diagnosis, Cystinuria genetics, Cystinuria physiopathology, Intellectual Disability diagnosis, Intellectual Disability genetics, Intellectual Disability physiopathology, Mitochondrial Diseases diagnosis, Mitochondrial Diseases genetics, Mitochondrial Diseases physiopathology, Muscle Hypotonia diagnosis, Muscle Hypotonia genetics, Muscle Hypotonia physiopathology
Abstract

Two siblings presented similarly with congenital hypotonia, lactic acidosis, and failure to thrive. Later in childhood, the brother developed cystinuria and nephrolithiasis whereas the older sister suffered from cystinuria and chronic neurobehavioral disturbances. Biopsied muscle studies demonstrated deficient cytochrome c oxidase activities consistent with a mitochondrial disease. Whole exome sequencing (WES), however, revealed a homozygous 2p21 deletion involving two contiquous genes, SLC3A1 (deletion of exons 2-10) and PREPL (deletion of exons 2-14). The molecular findings were consistent with the hypotonia-cystinuria 2p21 deletion syndrome, presenting similarly in infancy with mitochondrial dysfunction but diverging later in childhood and displaying intrafamilial phenotypic variability., (© 2021 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2021
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37. Familial Occurrence of Adult Granulosa Cell Tumors: Analysis of Whole-Genome Germline Variants.

Author

Roze JF, Kutzera J, Koole W, Ausems MGEM, Engelstad K, Piek JMJ, de Kroon CD, Verheijen RHM, van Haaften G, Zweemer RP, and Monroe GR

Abstract

Adult granulosa cell tumor (AGCT) is a rare ovarian cancer subtype, with a peak incidence around 50-55 years. Although AGCT can occur in specific syndromes, a genetic predisposition for AGCT has not been identified. The aim of this study is to identify a genetic variant in families with AGCT patients, potentially contributing to tumor evolution. We identified four families, each including two women diagnosed with AGCT. Whole-genome sequencing was performed to identify overlapping germline variants or affected genes. Familial relationship was evaluated using genealogy and genomic analyses. Patient characteristics, medical (family) history, and pedigrees were collected. Findings were compared to a reference group of 33 unrelated AGCT patients. Mean age at diagnosis was 38 years (range from 17 to 60) versus 51 years in the reference group, and seven of eight patients were premenopausal. In two families, three first degree relatives were diagnosed with breast cancer. Furthermore, polycystic ovary syndrome (PCOS) and subfertility was reported in three families. Predicted deleterious variants in PIK3C2G, BMP5, and LRP2 were identified. In conclusion, AGCTs occur in families and could potentially be hereditary. In these families, the age of AGCT diagnosis is lower and cases of breast cancer, PCOS, and subfertility are present. We could not identify an overlapping genetic variant or affected locus that may explain a genetic predisposition for AGCT.

Published
2021
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38. Exploring triheptanoin as treatment for short chain enoyl CoA hydratase deficiency.

Author

Engelstad K, Salazar R, Koenigsberger D, Stackowtiz E, Brodlie S, Brandabur M, and De Vivo DC

Subjects
Brain Diseases, Metabolic, Inborn metabolism, Brain Diseases, Metabolic, Inborn physiopathology, Child, Female, Humans, Triglycerides administration & dosage, Brain Diseases, Metabolic, Inborn drug therapy, Enoyl-CoA Hydratase deficiency, Triglycerides pharmacology
Abstract

We explored the benefits of triheptanoin as a treatment for Short Chain Enoyl Co-A Hydratase (SCEH) deficiency. One child with early onset, severe SCEH Deficiency was treated with triheptanoin, an odd chain oil with anapleurotic properties, for 37 months. Blood and urine chemistry safety measures, motor skills assessment, physical exam, and neurological assessment were monitored over a 27 month period. Modest sustained gains in motor skills, attention, muscle bulk, and strength were observed without any significant adverse effects. Triheptanoin appears to be a promising effective treatment for SCEH Deficiency., (© 2021 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2021
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39. Regulatory environment for novel therapeutic development in mitochondrial diseases.

Author

Hirano M, Berardo A, Barca E, Emmanuele V, Quinzii C, Simpson CV, Engelstad K, Rosales XQ, and Thompson JLP

Subjects
Drug Approval, Humans, Rare Diseases drug therapy, United States, United States Food and Drug Administration, Mitochondrial Diseases drug therapy, Orphan Drug Production legislation & jurisprudence
Abstract

At present, there is just one approved therapy for patients with mitochondrial diseases in Europe, another in Japan, and none in the United States. These facts reveal an important and significant unmet need for approved therapies for these debilitating and often fatal disorders. To fill this need, it is critical for clinicians and drug developers to work closely with regulatory agencies. In the United States, mitochondrial disease patients and clinicians, the United Mitochondrial Disease Foundation, and pharmaceutical industry members have engaged with the Food and Drug Administration to educate each other about these complex and heterogeneous diseases and about regulatory requirements to obtain approvals for novel therapies. Clinical development of therapies for rare diseases has been facilitated by the 1983 US Orphan Drug Act (ODA) and similar legislation in Japan and the European Union. Further legislation and regulatory guidance have expanded and refined regulatory flexibility. While regulatory and financial incentives of the ODA have augmented involvement of pharmaceutical companies, clinicians, with patient advocacy groups and industry, need to conduct natural history studies, develop clinical outcome measures, and identify potential supportive surrogate endpoints predictive of clinical benefit, which together are critical foundations for clinical trials. Thus, the regulatory environment for novel therapeutic development is conducive and offers flexibility for mitochondrial diseases. Nevertheless, flexibility does not mean lower standards, as well-controlled rigorous clinical trials of high quality are still required to establish the efficacy of potential therapies and to obtain regulatory agency approvals for their commercial use. This process is illustrated through the authors' ongoing efforts to develop therapy for thymidine kinase 2 deficiency., (© 2020 SSIEM.)

Published
2021
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40. Circulating markers of NADH-reductive stress correlate with mitochondrial disease severity.

Author

Sharma R, Reinstadler B, Engelstad K, Skinner OS, Stackowitz E, Haller RG, Clish CB, Pierce K, Walker MA, Fryer R, Oglesbee D, Mao X, Shungu DC, Khatri A, Hirano M, De Vivo DC, and Mootha VK

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Alanine blood, Biomarkers blood, Child, Child, Preschool, Female, Growth Differentiation Factor 15 blood, Humans, Hydroxybutyrates blood, Lactic Acid blood, MELAS Syndrome genetics, Male, Middle Aged, Mutation, Severity of Illness Index, MELAS Syndrome blood
Abstract

Mitochondrial disorders represent a large collection of rare syndromes that are difficult to manage both because we do not fully understand biochemical pathogenesis and because we currently lack facile markers of severity. The m.3243A>G variant is the most common heteroplasmic mitochondrial DNA mutation and underlies a spectrum of diseases, notably mitochondrial encephalomyopathy lactic acidosis and stroke-like episodes (MELAS). To identify robust circulating markers of m.3243A>G disease, we first performed discovery proteomics, targeted metabolomics, and untargeted metabolomics on plasma from a deeply phenotyped cohort (102 patients, 32 controls). In a validation phase, we measured concentrations of prioritized metabolites in an independent cohort using distinct methods. We validated 20 analytes (1 protein, 19 metabolites) that distinguish patients with MELAS from controls. The collection includes classic (lactate, alanine) and more recently identified (GDF-15, α-hydroxybutyrate) mitochondrial markers. By mining untargeted mass-spectra we uncovered 3 less well-studied metabolite families: N-lactoyl-amino acids, β-hydroxy acylcarnitines, and β-hydroxy fatty acids. Many of these 20 analytes correlate strongly with established measures of severity, including Karnofsky status, and mechanistically, nearly all markers are attributable to an elevated NADH/NAD+ ratio, or NADH-reductive stress. Our work defines a panel of organelle function tests related to NADH-reductive stress that should enable classification and monitoring of mitochondrial disease.

Published
2021
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41. Glut1 Deficiency Syndrome (Glut1DS): State of the art in 2020 and recommendations of the international Glut1DS study group.

Author

Klepper J, Akman C, Armeno M, Auvin S, Cervenka M, Cross HJ, De Giorgis V, Della Marina A, Engelstad K, Heussinger N, Kossoff EH, Leen WG, Leiendecker B, Monani UR, Oguni H, Neal E, Pascual JM, Pearson TS, Pons R, Scheffer IE, Veggiotti P, Willemsen M, Zuberi SM, and De Vivo DC

Abstract

Glut1 deficiency syndrome (Glut1DS) is a brain energy failure syndrome caused by impaired glucose transport across brain tissue barriers. Glucose diffusion across tissue barriers is facilitated by a family of proteins including glucose transporter type 1 (Glut1). Patients are treated effectively with ketogenic diet therapies (KDT) that provide a supplemental fuel, namely ketone bodies, for brain energy metabolism. The increasing complexity of Glut1DS, since its original description in 1991, now demands an international consensus statement regarding diagnosis and treatment. International experts (n = 23) developed a consensus statement utilizing their collective professional experience, responses to a standardized questionnaire, and serial discussions of wide-ranging issues related to Glut1DS. Key clinical features signaling the onset of Glut1DS are eye-head movement abnormalities, seizures, neurodevelopmental impairment, deceleration of head growth, and movement disorders. Diagnosis is confirmed by the presence of these clinical signs, hypoglycorrhachia documented by lumbar puncture, and genetic analysis showing pathogenic SLC2A1 variants. KDT represent standard choices with Glut1DS-specific recommendations regarding duration, composition, and management. Ongoing research has identified future interventions to restore Glut1 protein content and function. C linical manifestations are influenced by patient age, genetic complexity, and novel therapeutic interventions. All clinical phenotypes will benefit from a better understanding of Glut1DS natural history throughout the life cycle and from improved guidelines facilitating early diagnosis and prompt treatment. Often, the presenting seizures are treated initially with antiseizure drugs before the cause of the epilepsy is ascertained and appropriate KDT are initiated. Initial drug treatment fails to treat the underlying metabolic disturbance during early brain development, contributing to the long-term disease burden. Impaired development of the brain microvasculature is one such complication of delayed Glut1DS treatment in the postnatal period. This international consensus statement should facilitate prompt diagnosis and guide best standard of care for Glut1DS throughout the life cycle., (© 2020 The Authors. Epilepsia Open published by Wiley Periodicals LLC on behalf of International League Against Epilepsy.)

Published
2020
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42. Implementation of population-based newborn screening reveals low incidence of spinal muscular atrophy.

Author

Kay DM, Stevens CF, Parker A, Saavedra-Matiz CA, Sack V, Chung WK, Chiriboga CA, Engelstad K, Laureta E, Farooq O, Ciafaloni E, Lee BH, Malek S, Treidler S, Anziska Y, Delfiner L, Sakonju A, and Caggana M

Subjects
Female, Homozygote, Humans, Incidence, Infant, Infant, Newborn, New York, Pregnancy, Survival of Motor Neuron 1 Protein genetics, Muscular Atrophy, Spinal diagnosis, Muscular Atrophy, Spinal epidemiology, Muscular Atrophy, Spinal genetics, Neonatal Screening
Abstract

Purpose: Spinal muscular atrophy (SMA) was added to the Recommended Uniform Screening Panel (RUSP) in July 2018, following FDA approval of the first effective SMA treatment, and demonstration of feasibility of high-throughput newborn screening using a primary molecular assay. SMA newborn screening was implemented in New York State (NYS) on 1 October 2018., Methods: Screening was conducted using DNA extracted from dried blood spots with a multiplex real-time quantitative polymerase chain reaction (qPCR) assay targeting the recurrent SMN1 exon 7 gene deletion., Results: During the first year, 225,093 infants were tested. Eight screened positive, were referred for follow-up, and confirmed to be homozygous for the deletion. Infants with two or three copies of the SMN2 gene, predicting more severe, earlier-onset SMA, were treated with antisense oligonucleotide and/or gene therapy. One infant with ≥4 copies SMN2 also received gene therapy., Conclusion: Newborn screening permits presymptomatic SMA diagnosis, when treatment initiation is most beneficial. At 1 in 28,137 (95% confidence interval [CI]: 1 in 14,259 to 55,525), the NYS SMA incidence is 2.6- to 4.7-fold lower than expected. The low SMA incidence is likely attributable to imprecise and biased estimates, coupled with increased awareness, access to and uptake of carrier screening, genetic counseling, cascade testing, prenatal diagnosis, and advanced reproductive technologies.

Published
2020
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43. Mitochondrial diseases in North America: An analysis of the NAMDC Registry.

Author

Barca E, Long Y, Cooley V, Schoenaker R, Emmanuele V, DiMauro S, Cohen BH, Karaa A, Vladutiu GD, Haas R, Van Hove JLK, Scaglia F, Parikh S, Bedoyan JK, DeBrosse SD, Gavrilova RH, Saneto RP, Enns GM, Stacpoole PW, Ganesh J, Larson A, Zolkipli-Cunningham Z, Falk MJ, Goldstein AC, Tarnopolsky M, Gropman A, Camp K, Krotoski D, Engelstad K, Rosales XQ, Kriger J, Grier J, Buchsbaum R, Thompson JLP, and Hirano M

Abstract

Objective: To describe clinical, biochemical, and genetic features of participants with mitochondrial diseases (MtDs) enrolled in the North American Mitochondrial Disease Consortium (NAMDC) Registry., Methods: This cross-sectional, multicenter, retrospective database analysis evaluates the phenotypic and molecular characteristics of participants enrolled in the NAMDC Registry from September 2011 to December 2018. The NAMDC is a network of 17 centers with expertise in MtDs and includes both adult and pediatric specialists., Results: One thousand four hundred ten of 1,553 participants had sufficient clinical data for analysis. For this study, we included only participants with molecular genetic diagnoses (n = 666). Age at onset ranged from infancy to adulthood. The most common diagnosis was multisystemic disorder (113 participants), and only a minority of participants were diagnosed with a classical mitochondrial syndrome. The most frequent classical syndromes were Leigh syndrome (97 individuals) and mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (71 individuals). Pathogenic variants in the mitochondrial DNA were more frequently observed (414 participants) than pathogenic nuclear gene variants (252 participants). Pathogenic variants in 65 nuclear genes were identified, with POLG1 and PDHA1 being the most commonly affected. Pathogenic variants in 38 genes were reported only in single participants., Conclusions: The NAMDC Registry data confirm the high variability of clinical, biochemical, and genetic features of participants with MtDs. This study serves as an important resource for future enhancement of MtD research and clinical care by providing the first comprehensive description of participant with MtD in North America., (Copyright © 2020 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2020
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44. The North American mitochondrial disease registry.

Author

Rosales XQ, Thompson JLP, Haas R, Van Hove JLK, Karaa A, Krotoski D, Engelstad K, Buchsbaum R, DiMauro S, and Hirano M

Abstract

Aim: The North American Mitochondrial Disease Consortium (NAMDC) comprises a network of 17 clinical centers with a mission to conduct translational research on mitochondrial diseases. NAMDC is a part of the Rare Disease Clinical Research Network (RDCRN) and is funded by the National Institutes of Health. To foster its mission, NAMDC has implemented a comprehensive Mitochondrial Disease Clinical Registry (hereafter NAMDC Registry), collected biosamples deposited into the NAMDC Biorepository, defined phenotypes and genotypes of specific disorders, collected natural history data, identified outcome measures, characterized safety and long-term toxicity and efficacy of promising therapies, and trained young investigators interested in patient-oriented research in mitochondrial disease., Methods: Research conducted by NAMDC is built on the foundation of the Clinical Registry. Data within the registry are encrypted and maintained in a centralized database at Columbia University Medical Center. In addition to clinical data, NAMDC has established a mitochondrial disease biorepository, collecting DNA, plasma, cell, and tissue samples. Specimens are assigned coded identifiers in compliance with all relevant regulatory entities and with emerging NIH guidelines for biorepositories. NAMDC funds two pilot projects each year. Pilot grants are small grants typically supporting an early stage concept to obtain preliminary data. Pilot grants must enhance and address major issues in mitochondrial medicine and specific areas of need for the field and for the successful outcome of NAMDC. The grant selection process is facilitated by input from multiple stakeholders including patient organizations and the strategic leadership of NAMDC. To train new mitochondrial disease investigators, NAMDC has established a Fellowship Program which offers a unique training opportunity to senior postdoctoral clinical fellows. The fellowship includes a 6-month period of intensive training in clinical trial methodology through the Clinical Research Enhancement through Supplemental Training program and equivalent programs at the other sites, along with rotations up to 3 months each to two additional consortium sites where a rich and varied training experience is provided. Nine core educational sites participate in this training program, each offering a summer grant program in mitochondrial medicine funded by our NAMDC partner the United Mitochondrial Disease Foundation (www.umdf.org). All clinical research in NAMDC depends on the participation of mitochondrial disease patients. Since individual mitochondrial disorders are often extremely rare, major communication and recruitment efforts are required. Therefore, NAMDC has forged a very close partnership with the premier patient advocacy group for mitochondrial diseases in North America, the United Mitochondrial Disease Foundation (UMDF)., Results: The NAMDC Registry has confirmed the clinical and genetical heterogeneity of mitochondrial diseases due to primary mutations in mitochondrial DNA or nuclear DNA. During the 8 years of this NIH-U54 grant, this consortium, acting in close collaboration with a patient advocacy group, the UMDF, has effectively addressed these complex diseases. NAMDC has expanded a powerful patient registry with more than 1600 patients enrolled to date, a website for education and recruitment of patients (www.namdc.org), a NAMDC biorepository housed at the Mayo Clinic in Rochester, MN, and essential diagnostic guidelines for consensus research. In addition, eight clinical studies have been initiated and the NAMDC fellowship program has been actively training the next generation of mitochondrial disease clinical investigators, of which six have completed the program and remain actively involved in mitochondrial disease research., Conclusion: The NAMDC Patient Registry and Biorepository is actively facilitating mitochondrial disease research, and accelerating progress in the understanding and treatment of mitochondrial diseases., Competing Interests: Conflicts of interest All authors declared that there are no conflicts of interest.

Published
2020
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45. Exploring mTOR inhibition as treatment for mitochondrial disease.

Author

Sage-Schwaede A, Engelstad K, Salazar R, Curcio A, Khandji A, Garvin JH Jr, and De Vivo DC

Subjects
Child, Preschool, Female, Humans, Infant, Leigh Disease pathology, MELAS Syndrome pathology, Male, Mitochondria pathology, Treatment Outcome, Everolimus therapeutic use, Immunosuppressive Agents therapeutic use, Leigh Disease drug therapy, MELAS Syndrome drug therapy, TOR Serine-Threonine Kinases antagonists & inhibitors
Abstract

Leigh syndrome and MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes) are two of the most frequent pediatric mitochondrial diseases. Both cause severe morbidity and neither have effective treatment. Inhibiting the mammalian target of rapamycin (mTOR) pathway has been shown in model mice of Leigh syndrome to extend lifespan and attenuate both the clinical and pathological progression of disease. Based on this observation, we treated two children with everolimus, a rapamycin analogue. The child with Leigh syndrome showed sustained benefit, while the child with MELAS failed to respond and died of progressive disease. We discuss possible mechanisms underlying these disparate responses to mTOR inhibition., (© 2019 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals, Inc on behalf of American Neurological Association.)

Published
2019
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46. Deoxynucleoside Therapy for Thymidine Kinase 2-Deficient Myopathy.

Author

Domínguez-González C, Madruga-Garrido M, Mavillard F, Garone C, Aguirre-Rodríguez FJ, Donati MA, Kleinsteuber K, Martí I, Martín-Hernández E, Morealejo-Aycinena JP, Munell F, Nascimento A, Kalko SG, Sardina MD, Álvarez Del Vayo C, Serrano O, Long Y, Tu Y, Levin B, Thompson JLP, Engelstad K, Uddin J, Torres-Torronteras J, Jimenez-Mallebrera C, Martí R, Paradas C, and Hirano M

Subjects
Adult, Child, Child, Preschool, Female, Humans, Male, Walk Test methods, Compassionate Use Trials methods, Deoxyribonucleosides therapeutic use, Muscular Diseases drug therapy, Muscular Diseases enzymology, Thymidine Kinase deficiency
Abstract

Objective: Thymidine kinase 2, encoded by the nuclear gene TK2, is required for mitochondrial DNA maintenance. Autosomal recessive TK2 mutations cause depletion and multiple deletions of mtDNA that manifest predominantly as a myopathy usually beginning in childhood and progressing relentlessly. We investigated the safety and efficacy of deoxynucleoside monophosphate and deoxynucleoside therapies., Methods: We administered deoxynucleoside monophosphates and deoxynucleoside to 16 TK2-deficient patients under a compassionate use program., Results: In 5 patients with early onset and severe disease, survival and motor functions were better than historically untreated patients. In 11 childhood and adult onset patients, clinical measures stabilized or improved. Three of 8 patients who were nonambulatory at baseline gained the ability to walk on therapy; 4 of 5 patients who required enteric nutrition were able to discontinue feeding tube use; and 1 of 9 patients who required mechanical ventilation became able to breathe independently. In motor functional scales, improvements were observed in the 6-minute walk test performance in 7 of 8 subjects, Egen Klassifikation in 2 of 3, and North Star Ambulatory Assessment in all 5 tested. Baseline elevated serum growth differentiation factor 15 levels decreased with treatment in all 7 patients tested. A side effect observed in 8 of the 16 patients was dose-dependent diarrhea, which did not require withdrawal of treatment. Among 12 other TK2 patients treated with deoxynucleoside, 2 adults developed elevated liver enzymes that normalized following discontinuation of therapy., Interpretation: This open-label study indicates favorable side effect profiles and clinical efficacy of deoxynucleoside monophosphate and deoxynucleoside therapies for TK2 deficiency. ANN NEUROL 2019;86:293-303., (© 2019 American Neurological Association.)

Published
2019
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47. Paroxysmal eye-head movements in Glut1 deficiency syndrome.

Author

Pearson TS, Pons R, Engelstad K, Kane SA, Goldberg ME, and De Vivo DC

Subjects
Carbohydrate Metabolism, Inborn Errors drug therapy, Child, Dyskinesias drug therapy, Female, Humans, Infant, Male, Retrospective Studies, Seizures drug therapy, Seizures physiopathology, Video Recording, Carbohydrate Metabolism, Inborn Errors physiopathology, Dyskinesias physiopathology, Eye Movements, Head Movements, Monosaccharide Transport Proteins deficiency
Abstract

Objective: To describe a characteristic paroxysmal eye-head movement disorder that occurs in infants with Glut1 deficiency syndrome (Glut1 DS)., Methods: We retrospectively reviewed the medical charts of 101 patients with Glut1 DS to obtain clinical data about episodic abnormal eye movements and analyzed video recordings of 18 eye movement episodes from 10 patients., Results: A documented history of paroxysmal abnormal eye movements was found in 32/101 patients (32%), and a detailed description was available in 18 patients, presented here. Episodes started before age 6 months in 15/18 patients (83%), and preceded the onset of seizures in 10/16 patients (63%) who experienced both types of episodes. Eye movement episodes resolved, with or without treatment, by 6 years of age in 7/8 patients with documented long-term course. Episodes were brief (usually <5 minutes). Video analysis revealed that the eye movements were rapid, multidirectional, and often accompanied by a head movement in the same direction. Eye movements were separated by clear intervals of fixation, usually ranging from 200 to 800 ms. The movements were consistent with eye-head gaze saccades. These movements can be distinguished from opsoclonus by the presence of a clear intermovement fixation interval and the association of a same-direction head movement., Conclusions: Paroxysmal eye-head movements, for which we suggest the term aberrant gaze saccades, are an early symptom of Glut1 DS in infancy. Recognition of the episodes will facilitate prompt diagnosis of this treatable neurodevelopmental disorder., (Copyright © 2017 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2017
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48. Analysis of Gait Disturbance in Glut 1 Deficiency Syndrome.

Author

Blumenschine M, Montes J, Rao AK, Engelstad K, and De Vivo DC

Subjects
Adolescent, Biomechanical Phenomena, Exercise Test, Fatigue diagnosis, Fatigue physiopathology, Humans, Male, Severity of Illness Index, Surveys and Questionnaires, Young Adult, Carbohydrate Metabolism, Inborn Errors diagnosis, Carbohydrate Metabolism, Inborn Errors physiopathology, Gait physiology, Monosaccharide Transport Proteins deficiency
Abstract

Anticipating potential therapies for Glut 1 deficiency syndrome (Glut1DS) emphasizes the need for effective clinical outcome measures. The 6-minute walk test is a well-established outcome measure that evaluates walking ability in neurological diseases. Twenty-one children with Glut 1 deficiency syndrome and 21 controls performed the 6-minute walk test. Fatigue was determined by comparing distance walked in the first and sixth minutes. Gait was analyzed by stride length, velocity, cadence, base of support, and percentage time in double support. Independent sample t-tests examined differences between group. Repeated-measures analysis of variance evaluated gait parameters over time. Glut 1 deficiency syndrome patients walked less (P < .05), had slower velocities (P < .0001), had shorter stride lengths (P < .0001), spent more time in double support (P < .001), and had increasing variability in base of support (P = .009). Glut 1 deficiency syndrome patients have impaired motor performance, walk more slowly, and have poor balance. The 6-minute walk test with gait analysis may serve as a useful outcome measure in clinical trials in Glut 1 deficiency syndrome., (© The Author(s) 2016.)

Published
2016
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49. Attitudes toward prevention of mtDNA-related diseases through oocyte mitochondrial replacement therapy.

Author

Engelstad K, Sklerov M, Kriger J, Sanford A, Grier J, Ash D, Egli D, DiMauro S, Thompson JL, Sauer MV, and Hirano M

Subjects
Adult, Cross-Sectional Studies, DNA, Mitochondrial chemistry, Female, Humans, Mitochondrial Diseases genetics, Mitochondrial Diseases psychology, Point Mutation, Attitude, Heterozygote, Mitochondrial Diseases prevention & control, Mitochondrial Replacement Therapy psychology
Abstract

Study Question: Among women who carry pathogenic mitochondrial DNA (mtDNA) point mutations and healthy oocyte donors, what are the levels of support for developing oocyte mitochondrial replacement therapy (OMRT) to prevent transmission of mtDNA mutations?, Summary Answer: The majority of mtDNA carriers and oocyte donors support the development of OMRT techniques to prevent transmission of mtDNA diseases., What Is Known Already: Point mutations of mtDNA cause a variety of maternally inherited human diseases that are frequently disabling and often fatal. Recent developments in (OMRT) as well as pronuclear transfer between embryos offer new potential options to prevent transmission of mtDNA disease. However, it is unclear whether the non-scientific community will approve of embryos that contain DNA from three people., Study Design, Size, Duration: Between 1 June 2012 through 12 February 2015, we administered surveys in cross-sectional studies of 92 female carriers of mtDNA point mutations and 112 healthy oocyte donors., Participants/materials, Setting, Methods: The OMRT carrier survey was completed by 92 female carriers of an mtDNA point mutation. Carriers were recruited through the North American Mitochondrial Disease Consortium (NAMDC), the United Mitochondrial Disease Foundation (UMDF), patient support groups, research and private patients followed at the Columbia University Medical Center (CUMC) and patients' referrals of maternal relatives. The OMRT donor survey was completed by 112 women who had donated oocytes through a major ITALIC! in vitro fertilization clinic., Main Results and the Role of Chance: All carriers surveyed were aware that they could transmit the mutation to their offspring, with 78% (35/45) of women, who were of childbearing age, indicating that the risk was sufficient to consider not having children, and 95% (87/92) of all carriers designating that the development of this technique was important and worthwhile. Of the 21 surveyed female carriers considering childbearing, 20 (95%) considered having their own biological offspring somewhat or very important and 16 of the 21 respondents (76%) were willing to donate oocytes for research and development. Of 112 healthy oocyte donors who completed the OMRT donor survey, 97 (87%) indicated that they would donate oocytes for generating a viable embryo through OMRT., Limitations, Reasons for Caution: Many of the participants were either patients or relatives of patients who were already enrolled in a research-oriented database, or who sought care in a tertiary research university setting, indicating a potential sampling bias. The survey was administered to a select group of individuals, who carry, or are at risk for carrying, mtDNA point mutations. These individuals are more likely to have been affected by the mutation or have witnessed first-hand the devastating effects of these mutations. It has not been established whether the general public would be supportive of this work. This survey did not explicitly address alternatives to OMRT., Wider Implications of the Findings: This is the first study indicating a high level of interest in the development of these methods among women affected by the diseases or who are at risk of carrying mtDNA mutations as well as willingness of most donors to provide oocytes for the development of OMRT., Study Funding/competing Interests: This work was conducted under the auspices of the NAMDC (Study Protocol 7404). NAMDC (U54NS078059) is part of the NCATS Rare Diseases Clinical Research Network (RDCRN). RDCRN is an initiative of the Office of Rare Diseases Research (ORDR) and NCATS. NAMDC is funded through a collaboration between NCATS, NINDS, NICHD and NIH Office of Dietary Supplements. The work was also supported by the Bernard and Anne Spitzer Fund and the New York Stem Cell Foundation (NYSCF). Dr Hirano has received research support from Santhera Pharmaceuticals and Edison Pharmaceuticals for studies unrelated to this work. None of the other authors have conflicts of interest., Trial Registration Number: Not applicable., (© The Author 2016. Published by Oxford University Press on behalf of the European Society of Human Reproduction and Embryology. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2016
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50. A De Novo Mutation in MTND6 Causes Generalized Dystonia in 2 Unrelated Children.

Author

Kurt YG, Çoku J, Akman HO, Naini A, Lu J, Engelstad K, Hirano M, De Vivo DC, and DiMauro S

Abstract

Dystonia is often associated with the symmetrical basal ganglia lesions of Leigh syndrome. However, it has also been associated with mitochondrial ND mutations, with or without Leber hereditary optic neuropathy. The m.14459G>A mutation in ND6 causes dystonia with or without familial Leber hereditary optic neuropathy. We report heteroplasmic 14459G>A mutations in 2 unrelated children with nonmaternally inherited generalized dystonia and showing bilateral magnetic resonance imaging lesions in nucleus pallidus and putamen. Both children have reached their teenage years, and they are intellectually active, despite their motor problems., Competing Interests: Declaration of Conflicting Interests: The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published
2016
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