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10. Biallelic pathogenic variants in COX11 are associated with an infantile-onset mitochondrial encephalopathy.

Author

Rius, Rocio, Bennett, Neal, Bhattacharya, Kaustuv, Riley, Lisa, Yüksel, Zafer, Formosa, Luke, Compton, Alison, Dale, Russell, Cowley, Mark, Gayevskiy, Velimir, Al Tala, Saeed, Almehery, Abdulrahman, Ryan, Michael, Thorburn, David, Christodoulou, John, and Nakamura, Ken

Subjects
COX11, OXPHOS, coenzyme Q, mitochondrial disorders, Humans, Mitochondrial Encephalomyopathies, Mitochondrial Diseases, Mitochondria, Adenosine Triphosphate, Copper Transport Proteins, Mitochondrial Proteins, Electron Transport Chain Complex Proteins
Abstract

Primary mitochondrial diseases are a group of genetically and clinically heterogeneous disorders resulting from oxidative phosphorylation (OXPHOS) defects. COX11 encodes a copper chaperone that participates in the assembly of complex IV and has not been previously linked to human disease. In a previous study, we identified that COX11 knockdown decreased cellular adenosine triphosphate (ATP) derived from respiration, and that ATP levels could be restored with coenzyme Q10 (CoQ10 ) supplementation. This finding is surprising since COX11 has no known role in CoQ10 biosynthesis. Here, we report a novel gene-disease association by identifying biallelic pathogenic variants in COX11 associated with infantile-onset mitochondrial encephalopathies in two unrelated families using trio genome and exome sequencing. Functional studies showed that mutant COX11 fibroblasts had decreased ATP levels which could be rescued by CoQ10 . These results not only suggest that COX11 variants cause defects in energy production but reveal a potential metabolic therapeutic strategy for patients with COX11 variants.

Published
2022

11. Magnetic resonance spectroscopy in MELAS syndrome: correlation with CSF and plasma metabolite levels and change after glutamine supplementation.

Author

Guerrero-Molina, María Paz, Bernabeu-Sanz, Ángela, Ramos-González, Ana, Morales-Conejo, Montserrat, Delmiro, Aitor, Domínguez-González, Cristina, Arenas, Joaquín, Martín, Miguel A., and González de la Aleja, Jesús

Subjects
*DRUG efficacy, *GLUTAMIC acid, *PREFRONTAL cortex, *STROKE, *SCIENTIFIC observation, *CLINICAL trials, *PROTON magnetic resonance spectroscopy, *LACTIC acidosis, *CASE-control method, *MITOCHONDRIAL encephalomyopathies, *CREATINE, *LACTATES, *RESEARCH funding, *GLUTAMINE, *DATA analysis software, *METABOLITES, *LONGITUDINAL method, *EVALUATION, BRAIN metabolism
Abstract

Purpose: MELAS syndrome is a genetic disorder caused by mitochondrial DNA mutations. We previously described that MELAS patients had increased CSF glutamate and decreased CSF glutamine levels and that oral glutamine supplementation restores these values. Proton magnetic resonance spectroscopy (1H-MRS) allows the in vivo evaluation of brain metabolism. We aimed to compare 1H-MRS of MELAS patients with controls, the 1H-MRS after glutamine supplementation in the MELAS group, and investigate the association between 1H-MRS and CSF lactate, glutamate, and glutamine levels. Methods: We conducted an observational case–control study and an open-label, single-cohort study with single-voxel MRS (TE 144/35 ms). We assessed the brain metabolism changes in the prefrontal (PFC) and parieto-occipital) cortex (POC) after oral glutamine supplementation in MELAS patients. MR spectra were analyzed with jMRUI software. Results: Nine patients with MELAS syndrome (35.8 ± 3.2 years) and nine sex- and age-matched controls were recruited. Lactate/creatine levels were increased in MELAS patients in both PFC and POC (0.40 ± 0.05 vs. 0, p < 0.001; 0.32 ± 0.03 vs. 0, p < 0.001, respectively). No differences were observed between groups in glutamate and glutamine (Glx/creatine), either in PFC (p = 0.930) or POC (p = 0.310). No differences were observed after glutamine supplementation. A positive correlation was found between CSF lactate and lactate/creatine only in POC (0.85, p = 0.003). Conclusion: No significant metabolite changes were observed in the brains of MELAS patients after glutamine supplementation. While we found a positive correlation between lactate levels in CSF and 1H-MRS in MELAS patients, we could not monitor treatment response over short periods with this tool. Trial registration: ClinicalTrials.gov Identifier: NCT04948138; initial release 24/06/2021; first patient enrolled on 1/07/2021. https://clinicaltrials.gov/ct2/show/NCT04948138 [ABSTRACT FROM AUTHOR]

Published
2024
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13. New variant in the FBXL4 gene – leading to mitochondrial DNA depletion syndrome

Author

Carolina Ferreira Gonçalves, Patrícia Lipari Pinto, Ana Raquel Claro, Joana Coelho, Sofia Quintas, Márcia Rodrigues, Paula Costa, Ana Margalha Miranda, Mónica Rebelo, Célia Nogueira, Patrícia Janeiro, and Ana Gaspar

Subjects
fbxl4 protein, lactic acidosis, dna, mitochondrial, mitochondrial encephalomyopathies, congenital disorder, manifestations, neurologic, Medicine, Pediatrics, RJ1-570
Abstract

Defects in the mitochondrial DNA (mtDNA) cause mtDNA depletion syndrome (MTDPS), a subclass of mitochondrial disorders that are genetically and phenotypically heterogeneous. MTDPS is a rare autosomal recessive disease caused by a mutation of a nuclear gene named FBXL4 (F-box and leucine-rich repeat protein 4), located on chromosome 6. This nuclear-encoded mitochondrial protein plays a vital role in mitochondrial bioenergetics, mtDNA maintenance, and mitochondrial dynamics. Pathogenic variants in the FBXL4 gene reduce mtDNA synthesis, resulting in a large decrease in the mtDNA content in cells, which is essential for normal energy production. These pathogenic variants in the FBXL4 gene are associated with an encephalomyopathy MTDPS type 13 (MTDPS13), a rare and severe mul­tisystemic disorder mainly characterized by infant-onset encephalomyopathy and lactic acidosis, developmental delay, hypotonia with feeding difficulties and failure to thrive. Other features may include the central nervous system and the ophthalmologic, cardiac, gastrointestinal, genito­urinary, and immunological systems. Herein, we report the case of an infant born to consanguineous Pakistani parents with an early onset of severe lactic acidosis, hypotonia, feeding difficulties, hypertro­phic cardiomyopathy, supraventricular tachycardia, and transient neutro­penia harboring a homozygous variant in the FBXL4 (c.370C>T [p.Q124*]) gene. This variant was identified in the patient’s parents in heterozygosity. He started medical treatment (with coenzyme Q10, propranolol, and sodium bicarbonate) and multidisciplinary support. As a result, a progressive improvement in postural tone and feeding autonomy was observed during the first months of life. Therefore, encephalomyopathy MTDPS13 should be suspected when dealing with patients with severe congenital lactic acidosis and developmental impairment.

Published
2024
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15. An Indian Case Study on Mitochondrial Neurogastrointestinal Encephalomyopathy.

Author

Kareem, Shabana and Mathai, Reemy Sara

Subjects
UBIQUINONES, HYDROLASES, CARNITINE, MAGNETIC resonance imaging, BRAIN diseases, DYSTONIA, LACTATES, TRANSFERASES, GENETIC mutation, MUSCULAR atrophy, EARLY diagnosis, SPEECH disorders, DELAYED diagnosis, MITOCHONDRIAL encephalomyopathies, MITOCHONDRIAL DNA, EYE movements, SYMPTOMS
Abstract

Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) is a unique autosomal recessive disorder characterized by mitochondrial changes resulting from mutations in the TYMP gene, responsible for encoding thymidine phosphorylase. Despite its genetic origin, the study indicates that the manifestation of MNGIE does not strictly adhere to a hereditary pattern. The investigation focused on a family from the Ernakulam district of Kerala, India, involving three members. The proband began experiencing gait difficulties at the age of 4, leading to a confirmed diagnosis of MNGIE at 17. Subsequent clinical assessments confirmed MNGIE in the two younger siblings, while the youngest remained unaffected. Common symptoms across all three included ptosis, limited eye movements, generalized muscle atrophy, and the absence of tendon reflexes. Elevated lactate levels were observed in both venous blood and cerebrospinal fluid, and magnetic resonance imaging scans revealed diffuse leukoencephalopathy. Emphasizing the importance of early identification of MNGIE patients, the study underscores the emerging therapeutic options that can positively impact survival and overall health outcomes. The findings highlight that prompt diagnosis and intervention contribute to improved prognosis and well-being in affected individuals. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Differentiating MELAS from Bland Ischemic Stroke: Clinicoradiologic Criteria.

Subjects
*STROKE diagnosis, *ISCHEMIC stroke, *LACTIC acidosis, *DIFFERENTIAL diagnosis, *MITOCHONDRIAL encephalomyopathies, *NEURORADIOLOGY, *SYMPTOMS
Abstract

The article focuses on the development of clinicoradiologic criteria to distinguish mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS) from bland ischemic stroke, which is essential for prompt MELAS-specific treatment and further research into acute MELAS treatments.Topic include the clinical and radiologic distinctions between MELAS and ischemic stroke and the proposed diagnostic criteria with their sensitivity and specificity values.

Published
2023

17. Mic60 is essential to maintain mitochondrial integrity and to prevent encephalomyopathy.

Author

Dong, Tingting, Zhang, Zai‐Qiang, Sun, Li‐Hong, Zhang, Weilong, Zhu, Zhaohui, Lin, Lin, Yang, Lin, Lv, An, Liu, Chunying, Li, Qing, Yang, Rui‐Feng, Zhang, Xiuru, Niu, Yamei, Chen, Hou‐Zao, Liu, De‐Pei, and Tong, Wei‐Min

Subjects
*MITOCHONDRIA, *MITOCHONDRIAL DNA, *REACTIVE oxygen species, *MITOCHONDRIAL membranes, *MEMBRANE potential
Abstract

Mitochondrial encephalomyopathies (ME) are frequently associated with mutations of mitochondrial DNA, but the pathogenesis of a subset of ME (sME) remains elusive. Here we report that haploinsufficiency of a mitochondrial inner membrane protein, Mic60, causes progressive neurological abnormalities with insulted mitochondrial structure and neuronal loss in mice. In addition, haploinsufficiency of Mic60 reduces mitochondrial membrane potential and cellular ATP production, increases reactive oxygen species, and alters mitochondrial oxidative phosphorylation complexes in neurons in an age‐dependent manner. Moreover, haploinsufficiency of Mic60 compromises brain glucose intake and oxygen consumption in mice, resembling human ME syndrome. We further discover that MIC60 protein expression declined significantly in human sME, implying that insufficient MIC60 may contribute for pathogenesis of human ME. Notably, systemic administration of antioxidant N‐acetylcysteine largely reverses mitochondrial dysfunctions and metabolic disorders in haplo‐insufficient Mic60 mice, also restores neurological abnormal symptom. These results reveal Mic60 is required in the maintenance of mitochondrial integrity and function, and likely a potential therapeutics target for mitochondrial encephalomyopathies. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Microbleeds within Mitochondrial Stroke-Like Lesion Rather Result from Their Vulnerability Than from Microangiopathy.

Author

Finsterer, Josef

Subjects
MITOCHONDRIAL encephalomyopathies, MELAS syndrome, STROKE, LACTIC acidosis, MAGNETIC resonance imaging
Abstract

MELAS syndrome (mitochondrial encephalopathy, lactic acidosis, and stroke-like episode) is one of the most common syndromic mitochondrial disorders (MID) and is due to the variant m.3243A>G in MT-TL1 in approximately 80% of cases. MELAS is a multisystem disorder with stroke-like episodes (SLEs) as a pathognomonic feature. The morphological correlate of SLEs in cerebral imaging are stroke-like lesions (SLLs). SLLs present on cerebral MRI with a T2, FLAIR, DWI, and PWI-hyperintense and OEF-hypointense lesion that is not confined to a vascular territory and extends to a nadir before disappearing or terminating as a structural lesion. Occasionally, these features are accompanied by microbleeds within the SLL, usually along the cortex. These microbleeds are thought to result from laminar cortical necrosis, and end-stage of a SLL or seizures, a common manifestation of SLEs. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Impediments to Heart Transplantation in Adults With MELASMT-TL1:m.3243A>G Cardiomyopathy.

Author

Di Toro, Alessandro, Urtis, Mario, Narula, Nupoor, Giuliani, Lorenzo, Grasso, Maurizia, Pasotti, Michele, Pellegrini, Carlo, Serio, Alessandra, Pilotto, Andrea, Antoniazzi, Elena, Rampino, Teresa, Magrassi, Lorenzo, Valentini, Adele, Cavallini, Anna, Scelsi, Laura, Ghio, Stefano, Abelli, Massimo, Olivotto, Iacopo, Porcu, Maurizio, and Gavazzi, Antonello

Subjects
*MELAS syndrome, *HEART transplantation, *CARDIOMYOPATHIES, *MITOCHONDRIAL DNA, *CHRONIC kidney failure, *HEARING disorders, *MUSCLE diseases, *DNA, *GENETIC mutation, *MITOCHONDRIAL encephalomyopathies, *DISEASE complications, CHRONIC kidney failure complications
Abstract

Background: The heart is commonly involved in maternally inherited mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS) syndrome caused by the MT-TL1 m.3243A>G mutation of the mitochondrial DNA. Heart transplantation (HTx) is controversial and has rarely been performed with conflicting results.Objectives: We analyzed factors preventing HTx in consecutive adult patients with MELASMT-TL1:m.3243A>G cardiomyopathy diagnosed and followed during the last 23 years in our HTx referral center.Methods: The series consists of 14 unrelated adult probands who were referred for evaluation of cardiomyopathy from 1998 to 2021. None had a suspected diagnosis of MELAS before referral. All patients underwent clinical and genetic visit and counseling, mitochondrial DNA sequencing, cardiovascular investigation (including right heart catheterization and endomyocardial biopsy in 10), multidisciplinary assessment, and biochemical tests. Family screening identified 2 affected relatives.Results: The cardiac phenotype was characterized by hypertrophic, concentric, nonobstructive cardiomyopathy that often evolved into a dilated cardiomyopathy-like phenotype. Of the 14 probands, 7 were potential candidates for HTx, 2 for heart and kidney Tx, and 1 was on the active HTx list for 3 years. None of the 10 probands underwent HTx. One is currently being evaluated for HTx. All had diabetes, hearing loss, and myopathy, and 10 had chronic kidney disease and progressive encephalomyopathy. During follow-up, 10 died from heart failure associated with multiorgan failure within 5 years of the genetic diagnosis.Conclusions: High risk of stroke-like episodes, chronic kidney disease, and wasting myopathy in MELASMT-TL1:m.3243A>G patients prevents activation of plans for HTx. As a result, the management of their cardiomyopathy in this syndromic context remains an unmet clinical need. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Clinical Value of Magnetic Resonance Spectroscopy in the Initial Evaluation of Patients with Mitochondrial Encephalomyopathy, Lactic Acidosis, and Stroke-Like Episodes

Author

Hyunjoo Lee, Je Hee Shin, Ji-Hoon Na, and Young-Mock Lee

Subjects
magnetic resonance spectroscopy, mitochondrial encephalomyopathies, melas syndrome, mitochondrial diseases, acidosis, lactic, Internal medicine, RC31-1245, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Purpose Magnetic resonance spectroscopy (MRS) is a diagnostic tool used to detect abnormal accumulation of lactate in the brain parenchyma in various metabolic diseases. This study evaluated the clinical roles of brain MRS in the initial assessment of mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS) caused by impairment of the mitochondrial respiratory chain. Methods Twenty-five patients with the A3243G mutation among 34 MELAS patients referred to the pediatric neurology clinic of Gangnam Severance Hospital between January 2006 and December 2020 were included. In this retrospective study, demographic, clinical, laboratory (serum lactate and lactate-to-pyruvate ratio), magnetic resonance imaging (MRI), and initial MRS (presence of lactate peak and abnormal N-acetylaspartate [NAA]) data were reviewed. Results Brain MRI showed cortical lesions in 24 of 25 genetically confirmed A3243G MELAS patients with neurologic symptoms in this study. On MRS, 18 patients (72%) had increased lactate peaks, depicting anaerobic energy metabolism, and 17 patients (68%) had decreased NAA levels, indicating neuronal integrity. Ten patients underwent MRS in the acute stage (within 2 weeks of symptoms). Unlike patients who underwent MRS more than 2 weeks after symptom onset, a lactate peak on MRS was observed in all patients in the acute stage (P=0.011). Conclusion Elevated lactate peaks in acute cerebral infarctions are highly suggestive of mitochondrial encephalopathy. MRS alone is insufficient to diagnose MELAS, but it is valuable as a noninvasive supplemental diagnostic tool in combination with genetic testing.

Published
2021
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24. The characteristics of cardiac involvement in 113 patients with mitochondrial encephalomyopathy with lactic academia and stroke-like episodes.

Author

ZHAO Xu-tong, WANG Jie, ZHUO Yong-jie, WANG Qi, YANG Ying, LIU Lin, DING Wen-hui, YUAN Yun, and WANG Zhao-xia

Subjects
ECHOCARDIOGRAPHY, STROKE, VENTRICULAR ejection fraction, PULMONARY hypertension, LACTIC acidosis, MITOCHONDRIAL encephalomyopathies, HEART block, ELECTROCARDIOGRAPHY, GENOTYPES, ARRHYTHMIA, HEART diseases, HEART failure
Abstract

Objective To report the characteristics of cardiac involvement in a group of patients with mitochondrial encephalomyopathy with lactic academia and stroke-like episodes (MELAS). Methods A total of 113 patients with MELAS who were admitted to Peking University First Hospital from January 2010 to December 2019 were included. The type and severity of heart disease were judged by electrocardiogram (ECG) and echocardiography. Cardiac dysfunction and systolic function were assessed by New York Heart Association (NYHA) classification and left ventricular ejection fraction (LVEF). Results All 113 patients were from 112 families, and the main genotype was m. 3243 A>G (81.42%, 92/113). ECG was performed in 113 cases, among which 14 (12.38%) had abnormal cardiac conduction, including 10 (8.85%) with pre-excitation syndrome, 3 (2.65%) with complete or incomplete right bundle branch block, and one (0.88%) with I° atrioventricular block. Echocardiography was performed in 70 cases, among which 18 (25.71%) had myocardial lesions, including 13 (18.57%) with myocardial damage and 5 (7.14%) with pulmonary hypertension (PH). Only one case had NYHA II with decreased left ventricular systolic function. In 32 patients with cardiac disease, only one patient presented cardiac symptoms in the 7th year of the course of disease. Conclusions MELAS patients may have various manifestations of cardiac involvement, including cardiomyopathy, heart failure, arrhythmia, and so on. Attention should be paid to cardiac-related examinations. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Forecasting stroke-like episodes and outcomes in mitochondrial disease.

Author

Ng, Yi Shiau, Lax, Nichola Z, Blain, Alasdair P, Erskine, Daniel, Baker, Mark R, Polvikoski, Tuomo, Thomas, Rhys H, Morris, Christopher M, Lai, Ming, Whittaker, Roger G, Gebbels, Alasdair, Winder, Amy, Hall, Julie, Feeney, Catherine, Farrugia, Maria Elena, Hirst, Claire, Roberts, Mark, Lawthom, Charlotte, Chrysostomou, Alexia, and Murphy, Kevin

Subjects
*MELAS syndrome, *MITOCHONDRIAL DNA, *MITOCHONDRIA, *SENSORINEURAL hearing loss, *CEREBRAL atrophy, *GENETIC counseling, *RESEARCH, *STROKE, *GENETIC mutation, *DNA, *MITOCHONDRIAL pathology, *RESEARCH methodology, *RETROSPECTIVE studies, *EVALUATION research, *MITOCHONDRIAL encephalomyopathies, *COMPARATIVE studies, *RESEARCH funding, *DISEASE complications
Abstract

In this retrospective, multicentre, observational cohort study, we sought to determine the clinical, radiological, EEG, genetics and neuropathological characteristics of mitochondrial stroke-like episodes and to identify associated risk predictors. Between January 1998 and June 2018, we identified 111 patients with genetically determined mitochondrial disease who developed stroke-like episodes. Post-mortem cases of mitochondrial disease (n = 26) were identified from Newcastle Brain Tissue Resource. The primary outcome was to interrogate the clinico-radiopathological correlates and prognostic indicators of stroke-like episode in patients with mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes syndrome (MELAS). The secondary objective was to develop a multivariable prediction model to forecast stroke-like episode risk. The most common genetic cause of stroke-like episodes was the m.3243A>G variant in MT-TL1 (n = 66), followed by recessive pathogenic POLG variants (n = 22), and 11 other rarer pathogenic mitochondrial DNA variants (n = 23). The age of first stroke-like episode was available for 105 patients [mean (SD) age: 31.8 (16.1)]; a total of 35 patients (32%) presented with their first stroke-like episode ≥40 years of age. The median interval (interquartile range) between first and second stroke-like episodes was 1.33 (2.86) years; 43% of patients developed recurrent stroke-like episodes within 12 months. Clinico-radiological, electrophysiological and neuropathological findings of stroke-like episodes were consistent with the hallmarks of medically refractory epilepsy. Patients with POLG-related stroke-like episodes demonstrated more fulminant disease trajectories than cases of m.3243A>G and other mitochondrial DNA pathogenic variants, in terms of the frequency of refractory status epilepticus, rapidity of progression and overall mortality. In multivariate analysis, baseline factors of body mass index, age-adjusted blood m.3243A>G heteroplasmy, sensorineural hearing loss and serum lactate were significantly associated with risk of stroke-like episodes in patients with the m.3243A>G variant. These factors informed the development of a prediction model to assess the risk of developing stroke-like episodes that demonstrated good overall discrimination (area under the curve = 0.87, 95% CI 0.82-0.93; c-statistic = 0.89). Significant radiological and pathological features of neurodegeneration were more evident in patients harbouring pathogenic mtDNA variants compared with POLG: brain atrophy on cranial MRI (90% versus 44%, P < 0.001) and reduced mean brain weight (SD) [1044 g (148) versus 1304 g (142), P = 0.005]. Our findings highlight the often idiosyncratic clinical, radiological and EEG characteristics of mitochondrial stroke-like episodes. Early recognition of seizures and aggressive instigation of treatment may help circumvent or slow neuronal loss and abate increasing disease burden. The risk-prediction model for the m.3243A>G variant can help inform more tailored genetic counselling and prognostication in routine clinical practice. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Clinical phenotype of FASTKD2 mutation.

Author

Shah, Ritesh and Balasubramaniam, Seema

Subjects
STROKE diagnosis, ANTICONVULSANTS, GENETIC mutation, STATUS epilepticus, VIRAL encephalitis, MAGNETIC resonance imaging, LACTIC acidosis, MITOCHONDRIAL encephalomyopathies, PHENOTYPES, SYMPTOMS
Abstract

Mitochondrial disorders (MIDs) are frequently multisystemic in nature and cause significant morbidity and mortality. Accurate assessment of mitochondrial disease prevalence has been difficult in the past. Primary MIDs are due to mutations in mitochondrial DNA (mtDNA) or nuclear DNA (nDNA)-located genes. Here we report cases of two siblings who presented to the pediatric emergency department with status epilepticus. Initially, the elder sibling was treated for metabolic encephalopathy and viral encephalitis, during his admission to the hospital. On treatment with multiple antiepileptic drugs, the status epilepticus subsided. A provisional diagnosis of mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes was made. Magnetic resonance imaging showed diffusion restriction in the left temporal lobe, insular cortex, and left lentiform nucleus, which completely resolved on follow-up after 1 month. His sudden demise in May 2019 due to status epilepticus, and a similar case presentation in his younger sibling, prompted us to do a genetic analysis test. The exome sequence revealed FASTKD2 mutation, a rare variant. This case report helps in increasing the awareness among the clinicians about the clinical presentation of FASTKD2 mutation case. [ABSTRACT FROM AUTHOR]

Published
2021
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27. Fluoroquinolone-induced serious, persistent, multisymptom adverse effects.

Author

Golomb, Beatrice Alexandra, Koslik, Hayley Jean, and Redd, Alan J

Subjects
Humans, Mitochondrial Encephalomyopathies, Pharyngitis, Paranasal Sinus Diseases, Epididymitis, Iatrogenic Disease, Fluoroquinolones, Anti-Bacterial Agents, Treatment Outcome, Adult, Middle Aged, Female, Male, Clinical Sciences
Abstract

We present a case series of four previously healthy, employed adults without significant prior medical history in each of whom symptoms developed while on fluoroquinolones (FQs), with progression that continued following discontinuation evolving to a severe, disabling multisymptom profile variably involving tendinopathy, muscle weakness, peripheral neuropathy, autonomic dysfunction, sleep disorder, cognitive dysfunction and psychiatric disturbance. Physicians and patients should be alert to the potential for FQ-induced severe disabling multisymptom pathology that may persist and progress following FQ use. Known induction by FQs of delayed mitochondrial toxicity provides a compatible mechanism, with symptom profiles (and documented mechanisms of FQ toxicity) compatible with the hypothesis of an exposure-induced mitochondrial neurogastrointestinal encephalomyopathy.

Published
2015

28. Metabolic rescue in pluripotent cells from patients with mtDNA disease

Author

Ma, Hong, Folmes, Clifford DL, Wu, Jun, Morey, Robert, Mora-Castilla, Sergio, Ocampo, Alejandro, Ma, Li, Poulton, Joanna, Wang, Xinjian, Ahmed, Riffat, Kang, Eunju, Lee, Yeonmi, Hayama, Tomonari, Li, Ying, Van Dyken, Crystal, Gutierrez, Nuria Marti, Tippner-Hedges, Rebecca, Koski, Amy, Mitalipov, Nargiz, Amato, Paula, Wolf, Don P, Huang, Taosheng, Terzic, Andre, Laurent, Louise C, Belmonte, Juan Carlos Izpisua, and Mitalipov, Shoukhrat

Subjects
Stem Cell Research, Neurodegenerative, Stem Cell Research - Induced Pluripotent Stem Cell - Non-Human, Stem Cell Research - Induced Pluripotent Stem Cell, Genetics, Aetiology, 2.1 Biological and endogenous factors, Adenosine Triphosphate, Animals, Cell Line, DNA, Mitochondrial, Embryo, Mammalian, Fibroblasts, Gene Expression Profiling, Haplotypes, Humans, Induced Pluripotent Stem Cells, Leigh Disease, Mice, Mitochondria, Mitochondrial Diseases, Mitochondrial Encephalomyopathies, Mutation, Nuclear Transfer Techniques, Nucleotides, Oxygen Consumption, Polymorphism, Single Nucleotide, Sequence Analysis, RNA, Skin, General Science & Technology
Abstract

Mitochondria have a major role in energy production via oxidative phosphorylation, which is dependent on the expression of critical genes encoded by mitochondrial (mt)DNA. Mutations in mtDNA can cause fatal or severely debilitating disorders with limited treatment options. Clinical manifestations vary based on mutation type and heteroplasmy (that is, the relative levels of mutant and wild-type mtDNA within each cell). Here we generated genetically corrected pluripotent stem cells (PSCs) from patients with mtDNA disease. Multiple induced pluripotent stem (iPS) cell lines were derived from patients with common heteroplasmic mutations including 3243A>G, causing mitochondrial encephalomyopathy and stroke-like episodes (MELAS), and 8993T>G and 13513G>A, implicated in Leigh syndrome. Isogenic MELAS and Leigh syndrome iPS cell lines were generated containing exclusively wild-type or mutant mtDNA through spontaneous segregation of heteroplasmic mtDNA in proliferating fibroblasts. Furthermore, somatic cell nuclear transfer (SCNT) enabled replacement of mutant mtDNA from homoplasmic 8993T>G fibroblasts to generate corrected Leigh-NT1 PSCs. Although Leigh-NT1 PSCs contained donor oocyte wild-type mtDNA (human haplotype D4a) that differed from Leigh syndrome patient haplotype (F1a) at a total of 47 nucleotide sites, Leigh-NT1 cells displayed transcriptomic profiles similar to those in embryo-derived PSCs carrying wild-type mtDNA, indicative of normal nuclear-to-mitochondrial interactions. Moreover, genetically rescued patient PSCs displayed normal metabolic function compared to impaired oxygen consumption and ATP production observed in mutant cells. We conclude that both reprogramming approaches offer complementary strategies for derivation of PSCs containing exclusively wild-type mtDNA, through spontaneous segregation of heteroplasmic mtDNA in individual iPS cell lines or mitochondrial replacement by SCNT in homoplasmic mtDNA-based disease.

Published
2015

29. Clinical Value of Magnetic Resonance Spectroscopy in the Initial Evaluation of Patients with Mitochondrial Encephalomyopathy, Lactic Acidosis, and Stroke-Like Episodes.

Author

Lee, Hyunjoo, Shin, Je Hee, Na, Ji-Hoon, and Lee, Young-Mock

Subjects
*NUCLEAR magnetic resonance spectroscopy, *MELAS syndrome, *METABOLIC disorders, *MITOCHONDRIAL encephalomyopathies, *LACTIC acidosis
Abstract

Purpose: Magnetic resonance spectroscopy (MRS) is a diagnostic tool used to detect abnormal accumulation of lactate in the brain parenchyma in various metabolic diseases. This study evaluated the clinical roles of brain MRS in the initial assessment of mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS) caused by impairment of the mitochondrial respiratory chain. Methods: Twenty-five patients with the A3243G mutation among 34 MELAS patients referred to the pediatric neurology clinic of Gangnam Severance Hospital between January 2006 and December 2020 were included. In this retrospective study, demographic, clinical, laboratory (serum lactate and lactate-to-pyruvate ratio), magnetic resonance imaging (MRI), and initial MRS (presence of lactate peak and abnormal N-acetylaspartate [NAA]) data were reviewed. Results: Brain MRI showed cortical lesions in 24 of 25 genetically confirmed A3243G MELAS patients with neurologic symptoms in this study. On MRS, 18 patients (72%) had increased lactate peaks, depicting anaerobic energy metabolism, and 17 patients (68%) had decreased NAA levels, indicating neuronal integrity. Ten patients underwent MRS in the acute stage (within 2 weeks of symptoms). Unlike patients who underwent MRS more than 2 weeks after symptom onset, a lactate peak on MRS was observed in all patients in the acute stage (P=0.011). Conclusion: Elevated lactate peaks in acute cerebral infarctions are highly suggestive of mitochondrial encephalopathy. MRS alone is insufficient to diagnose MELAS, but it is valuable as a noninvasive supplemental diagnostic tool in combination with genetic testing. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Biallelic variants in LIG3 cause a novel mitochondrial neurogastrointestinal encephalomyopathy.

Author

Bonora, Elena, Chakrabarty, Sanjiban, Kellaris, Georgios, Tsutsumi, Makiko, Bianco, Francesca, Bergamini, Christian, Ullah, Farid, Isidori, Federica, Liparulo, Irene, Diquigiovanni, Chiara, Masin, Luca, Rizzardi, Nicola, Cratere, Mariapia Giuditta, Boschetti, Elisa, Papa, Valentina, Maresca, Alessandra, Cenacchi, Giovanna, Casadio, Rita, Martelli, Pierluigi, and Matera, Ivana

Subjects
*MITOCHONDRIAL pathology, *MITOCHONDRIAL DNA, *MITOCHONDRIA, *DNA ligases, *GENETIC variation, *CYTOCHROME oxidase, *GASTROINTESTINAL motility, *RESEARCH, *GENETIC mutation, *RESEARCH methodology, *GASTROINTESTINAL diseases, *MEDICAL cooperation, *EVALUATION research, *MITOCHONDRIAL encephalomyopathies, *COMPARATIVE studies, *FISHES, *GENETIC techniques, *GENEALOGY
Abstract

Abnormal gut motility is a feature of several mitochondrial encephalomyopathies, and mutations in genes such as TYMP and POLG, have been linked to these rare diseases. The human genome encodes three DNA ligases, of which only one, ligase III (LIG3), has a mitochondrial splice variant and is crucial for mitochondrial health. We investigated the effect of reduced LIG3 activity and resulting mitochondrial dysfunction in seven patients from three independent families, who showed the common occurrence of gut dysmotility and neurological manifestations reminiscent of mitochondrial neurogastrointestinal encephalomyopathy. DNA from these patients was subjected to whole exome sequencing. In all patients, compound heterozygous variants in a new disease gene, LIG3, were identified. All variants were predicted to have a damaging effect on the protein. The LIG3 gene encodes the only mitochondrial DNA (mtDNA) ligase and therefore plays a pivotal role in mtDNA repair and replication. In vitro assays in patient-derived cells showed a decrease in LIG3 protein levels and ligase activity. We demonstrated that the LIG3 gene defects affect mtDNA maintenance, leading to mtDNA depletion without the accumulation of multiple deletions as observed in other mitochondrial disorders. This mitochondrial dysfunction is likely to cause the phenotypes observed in these patients. The most prominent and consistent clinical signs were severe gut dysmotility and neurological abnormalities, including leukoencephalopathy, epilepsy, migraine, stroke-like episodes, and neurogenic bladder. A decrease in the number of myenteric neurons, and increased fibrosis and elastin levels were the most prominent changes in the gut. Cytochrome c oxidase (COX) deficient fibres in skeletal muscle were also observed. Disruption of lig3 in zebrafish reproduced the brain alterations and impaired gut transit in vivo. In conclusion, we identified variants in the LIG3 gene that result in a mitochondrial disease characterized by predominant gut dysmotility, encephalopathy, and neuromuscular abnormalities. [ABSTRACT FROM AUTHOR]

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

Author

Sharma, Rohit, Reinstadler, Bryn, Engelstad, Kristin, Skinner, Owen S., Stackowitz, Erin, Haller, Ronald G., Clish, Clary B., Pierce, Kerry, Walker, Melissa A., Fryer, Robert, Oglesbee, Devin, Xiangling Mao, Shungu, Dikoma C., Khatri, Ashok, Michio Hirano, De Vivo, Darryl C., Mootha, Vamsi K., Mao, Xiangling, and Hirano, Michio

Subjects
*MELAS syndrome, *MITOCHONDRIAL DNA, *CYTOKINES, *RESEARCH, *GENETIC mutation, *CLINICAL trials, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *MITOCHONDRIAL encephalomyopathies, *ALANINE, *SEVERITY of illness index, *COMPARATIVE studies, *KARNOFSKY Performance Status, *RESEARCH funding, *LACTIC acid, *BUTYRIC acid, *HYDROXY acids
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. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Hyperglycemic Crisis in Patients With Mitochondrial Encephalopathy, Lactic Acidosis, and Stroke-like Episodes (MELAS).

Author

Toki, Taira, Shimizu-Motohashi, Yuko, Komaki, Hirofumi, Takeshita, Eri, Ishiyama, Akihiko, Saito, Takashi, Mori-Yoshimura, Madoka, Sumitomo, Noriko, Hirasawa-Inoue, Ayaka, Nakagawa, Eiji, Nishino, Ichizo, Goto, Yu-ichi, and Sasaki, Masayuki

Subjects
*MELAS syndrome, *LACTIC acidosis, *MITOCHONDRIA, *PATIENTS' attitudes, *GLYCOSYLATED hemoglobin, *GLUCOSE intolerance, *RESEARCH, *RESEARCH methodology, *DIABETES, *RETROSPECTIVE studies, *MEDICAL cooperation, *EVALUATION research, *MITOCHONDRIAL encephalomyopathies, *COMPARATIVE studies, *HYPOGLYCEMIA, *ACUTE diseases, *DISEASE complications
Abstract

Background: Diabetes mellitus is the most commonly encountered endocrinopathy in patients with mitochondrial encephalopathy, lactic acidosis, and stroke-like episodes (MELAS), which manifests as multisystemic organ failure. Whether the management of diabetes mellitus in MELAS requires special consideration is not fully clarified.Methods: In this single-center study, we retrospectively reviewed the medical records of patients with MELAS to elucidate the clinical characteristics of MELAS-associated diabetes mellitus.Results: Four patients among a total of 25 individuals with MELAS who were treated in the study institution developed diabetes mellitus. One patient had well-controlled diabetes mellitus, whereas the remaining three patients experienced hyperglycemic crisis as the first manifestation of diabetes mellitus. Two of the three patients were children aged four and six years. The hyperglycemic events occurred after surgery, infection, and status epilepticus, respectively. None of the three patients had diabetes mellitus previously based on randomly measured serum glucose levels that were within the normal range before the hyperglycemic crisis. Glycated hemoglobin levels measured during the hyperglycemic crisis indicated prediabetes in two patients and diabetes mellitus in one patient. Two patients recovered, whereas one patient died after developing multiorgan failure.Conclusions: Fulminant-onset diabetes mellitus occurring in patients with MELAS underscore the importance of routine measurement for glycated hemoglobin and more intense evaluation of glucose intolerance regardless of the patient age and lack of symptoms. Clinicians should be aware of the potential acute onset of hyperglycemic crisis in patients with MELAS, especially in individuals with aggravating factors. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Distinctive diffusion-weighted imaging features in late-onset genetic leukoencephalopathies.

Author

De Cocker, Laurens J. L. and Castillo, Mauricio

Subjects
*AGE factors in disease, *ATAXIA, *MAGNETIC resonance imaging, *GENETIC mutation, *TRANSFER RNA, *MITOCHONDRIAL RNA, *HEREDITARY central nervous system demyelinating diseases, *MITOCHONDRIAL encephalomyopathies, *ADULTS
Abstract

Genetic leukoencephalopathies are inherited disorders characterized by progressive white matter involvement. Although most are paediatric conditions, late-onset adult leukoencephalopathies are being increasingly recognized. Adult leukoencephalopathies may present as neurodegenerative diseases with cognitive decline and motor symptoms. Similar to their paediatric counterparts, different adult leukoencephalopathies often have distinctive MRI appearances. In particular, DWI has been recently shown to demonstrate specific patterns of persistent diffusion restriction in several adult-onset leukoencephalopathies. As such, DWI may provide important clues to the diagnosis of adult-onset leukoencephalopathy. The purpose of this review is to discuss characteristic DWI features in some late-onset leukoencephalopathies. [ABSTRACT FROM AUTHOR]

Published
2021
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35. MT-TN mutations lead to progressive mitochondrial encephalopathy and promotes mitophagy.

Author

Duan H, Pan C, Wu T, Peng J, and Yang L

Subjects
Humans, Mitochondria genetics, Mitochondria metabolism, Mutation, RNA, Transfer genetics, RNA, Mitochondrial metabolism, Mitophagy genetics, Brain Diseases genetics, Brain Diseases metabolism, Mitochondrial Encephalomyopathies
Abstract

Mitochondrial encephalopathy is a neurological disorder caused by impaired mitochondrial function and energy production. One of the genetic causes of this condition is the mutation of MT-TN, a gene that encodes the mitochondrial transfer RNA (tRNA) for asparagine. MT-TN mutations affect the stability and structure of the tRNA, resulting in reduced protein synthesis and complex enzymatic deficiency of the mitochondrial respiratory chain. Our patient cohort manifests with epileptic encephalopathy, ataxia, hypotonia, and bilateral basal ganglia calcification, which differs from previously reported cases. MT-TN mutation deficiency leads to decreased basal and maximal oxygen consumption rates, disrupted spare respiratory capacity, declined mitochondrial membrane potential, and impaired ATP production. Moreover, MT-TN mutations promote mitophagy, a process of selective degradation of damaged mitochondria by autophagy. Excessive mitophagy further leads to mitochondrial biogensis as a compensatory mechanism. In this study, we provided evidence of pathogenicity for two MT-TN mutations, m.5688 T > C and m.G5691A, explored the molecular mechanisms, and summarized the clinical manifestations of MT-TN mutations. Our study expanded the genotype and phenotypic spectrum and provided new insight into mt-tRNA (Asn)-associated mitochondrial encephalopathy., Competing Interests: Declaration of competing interest No financial or non-financial benefits have been received or will be received from any party related directly or indirectly to the subject of this article., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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36. Heteroplasmic pathogenic m.12315G>A variant in MT-TL2 presenting with MELAS syndrome and depletion of nitric oxide donors.

Author

Snyder MT, Manor J, Gijavanekar C, Mizerik E, Kralik SF, Elsea SH, Machol K, Emrick L, and Scaglia F

Subjects
Child, Preschool, Female, Humans, Arginine genetics, Citrulline, Glutathione metabolism, Nitric Oxide Donors metabolism, Acidosis, Lactic, MELAS Syndrome diagnosis, MELAS Syndrome genetics, MELAS Syndrome complications, Mitochondrial Encephalomyopathies, Stroke complications, Stroke drug therapy
Abstract

The MT-TL2 m.12315G>A pathogenic variant has previously been reported in five individuals with mild clinical phenotypes. Herein we report the case of a 5-year-old child with heteroplasmy for this variant who developed neurological regression and stroke-like episodes similar to those observed in mitochondrial encephalopathy, lactic acidosis, and stroke-like episodes (MELAS). Biochemical evaluation revealed depletion of arginine on plasma amino acid analysis and low z-scores for citrulline on untargeted plasma metabolomics analysis. These findings suggested that decreased availability of nitric oxide may have contributed to the stroke-like episodes. The use of intravenous arginine during stroke-like episodes and daily enteral L-citrulline supplementation normalized her biochemical values of arginine and citrulline. Untargeted plasma metabolomics showed the absence of nicotinamide and 1-methylnicotinamide, and plasma total glutathione levels were low; thus, nicotinamide riboside and N-acetylcysteine therapies were initiated. This report expands the phenotype associated with the rare mitochondrial variant MT-TL2 m.12315G>A to include neurological regression and a MELAS-like phenotype. Individuals with this variant should undergo in-depth biochemical analysis to include untargeted plasma metabolomics, plasma amino acids, and glutathione levels to help guide a targeted approach to treatment., (© 2023 Wiley Periodicals LLC.)

Published
2024
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37. Understanding the nomenclature of mitochondrial DNA mutations through examples of two specific disease entities: Mitochondrial encephalopathy with lactic acidosis and stroke-like episodes and Leber hereditary optic neuropathy.

Author

Heuer, Beth DNP, CP, CPNP-PC, PMHS, Seibert, Diane C. AP, FA FAAN, Wysocki, Kenneth FNP, FAANP, and Seibert, Diane AP, FAANP

Subjects
*GENETIC mutation, *STROKE, *MITOCHONDRIAL pathology, *MITOCHONDRIAL DNA, *LEBER'S congenital amaurosis, *LACTIC acidosis, *MITOCHONDRIAL encephalomyopathies, *GENES, *GENOMICS, *SYMPTOMS
Abstract

Mitochondrial diseases are genetic disorders that can arise either from maternally inherited mitochondrial DNA (mtDNA) or from mutations in nuclear DNA. This article is the second in a series of papers reviewing mitochondrial genetics and several of the disorders associated with mitochondrial gene variants. With a prevalence of 1:~4,300 persons, mitochondrial disorders are diagnostic entities with which nurse practitioners should be familiar. In describing genetic mutations, numbering nucleotides (nuclear or mtDNA) is critical for communicating exactly where a variation has occurred in a stretch of nucleotides. This article discusses the nomenclature associated with mtDNA mutations, using the examples of mutations causing mitochondrial encephalopathy with lactic acidosis and stroke-like episodes and Leber hereditary optic neuropathy. Pathophysiology, symptoms, and treatment options for these disease entities are discussed. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Purifying Selection against Pathogenic Mitochondrial DNA in Human T Cells.

Author

Walker, Melissa A., Lareau, Caleb A., Ludwig, Leif S., Karaa, Amel, Sankaran, Vijay G., Regev, Aviv, and Mootha, Vamsi K.

Subjects
*COMPARATIVE studies, *DNA, *GENETIC polymorphisms, *GENOMES, *RESEARCH methodology, *MEDICAL cooperation, *GENETIC mutation, *RESEARCH, *T cells, *EVALUATION research, *MITOCHONDRIAL encephalomyopathies, *MONONUCLEAR leukocytes
Abstract

Many mitochondrial diseases are caused by mutations in mitochondrial DNA (mtDNA). Patients' cells contain a mixture of mutant and nonmutant mtDNA (a phenomenon called heteroplasmy). The proportion of mutant mtDNA varies across patients and among tissues within a patient. We simultaneously assayed single-cell heteroplasmy and cell state in thousands of blood cells obtained from three unrelated patients who had A3243G-associated mitochondrial encephalomyopathy, lactic acidosis, and strokelike episodes. We observed a broad range of heteroplasmy across all cell types but also found markedly reduced heteroplasmy in T cells, a finding consistent with purifying selection within this lineage. We observed this pattern in six additional patients who had heteroplasmic A3243G without strokelike episodes. (Funded by the Marriott Foundation and others.). [ABSTRACT FROM AUTHOR]

Published
2020
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39. Management von Patienten mit MELAS-Syndrom : Ein Fallbericht und allgemeine Besonderheiten aus anästhesiologischer Sicht.

Author

Roth, Sebastian, Nienhaus, Johannes, Nickel, Frank, Kindgen-Milles, Detlef, Kienbaum, Peter, and Huhn, Ragnar

Subjects
*GENERAL anesthesia, *ANESTHESIOLOGY, *ANESTHESIA, *INTRAOPERATIVE care, *SYSTEMATIC reviews, *MITOCHONDRIAL encephalomyopathies
Abstract

Background: Mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (MELAS) syndrome is a rare progressive disease with acute neurological episodes caused by a mitochondriopathy. Due to a defect of oxidative phosphorylation in the respiratory chain, there is impaired mitochondrial energy production with subsequent lactic acidosis, especially in situations with increased stress. Due to the high risk of metabolic derailment MELAS syndrome is a great challenge with respect to the perioperative management of anesthesia.Objective: This article gives a general overview of the special features of anesthesia management in patients with MELAS syndrome. A case report is presented in order to demonstrate how intraoperative parenteral nutrition can possibly be used to counteract the formation of lactic acidosis.Material and Methods: A systematic review of the literature was performed. As only very few reports on MELAS syndrome are available, a case report was also integrated into this overview article for illustration purposes.Results and Conclusion: Patients with MELAS syndrome represent a challenging cohort with respect to management of anesthesia and an intensive monitoring of the metabolic status is crucial. In cases of increasing lactate values, the administration of intraoperative parenteral nutrition seems to be a suitable approach to avoid lactic acidosis and to improve the perioperative treatment of patients with MELAS syndrome in the future. [ABSTRACT FROM AUTHOR]

Published
2020
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40. Late-onset MELAS syndrome with mtDNA 14453G→A mutation masquerading as an acute encephalitis: a case report.

Author

Yokota, Yuki, Hara, Makoto, Akimoto, Takayoshi, Mizoguchi, Tomotaka, Goto, Yu-ichi, Nishino, Ichizo, Kamei, Satoshi, and Nakajima, Hideto

Subjects
*MELAS syndrome, *ANTI-NMDA receptor encephalitis, *ENCEPHALITIS, *MITOCHONDRIAL DNA, *NUCLEAR magnetic resonance spectroscopy, *GENETIC mutation, *ENCEPHALITIS diagnosis, *DIFFERENTIAL diagnosis, *PROTEINS, *MITOCHONDRIAL encephalomyopathies
Abstract

Background: A unique patient with MELAS syndrome, who initially masqueraded as having acute encephalitis and was eventually diagnosed with MELAS syndrome harboring a mtDNA 14453G → A mutation, is described.Case Presentation: A 74-year-old Japanese man was admitted to another hospital due to acute onset of cognitive impairment and psychosis. After 7 days he was transferred to our hospital with seizures and deteriorating psychosis. The results of primary ancillary tests that included EEG, CSF findings, and brain MRI supported the diagnosis of an acute encephalitis. HSV-DNA and antibodies against neuronal surface antigens in the CSF were all negative. With the assistance of the lactate peak on the brain lesions in the magnetic resonance spectroscopy image and genetic analysis of the biopsied muscle, he was eventually diagnosed with MELAS syndrome harboring mtDNA 14453G → A mutation in the ND6 gene.Conclusions: This case provides a caveat that MELAS syndrome can manifest in the symptoms and ancillary tests masquerading as an acute encephalitis caused by infection or autoimmunity. This is the first adult patient seen to harbor the mtDNA14453G → A with a unique onset, which broadens the phenotypic spectrum of MELAS syndrome associated with ND6 gene mutation. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Mitochondrial diseases in adults.

Author

La Morgia, C., Maresca, A., Caporali, L., Valentino, M. L., and Carelli, V.

Subjects
*MENDEL'S law, *MITOCHONDRIAL proteins, *MITOCHONDRIAL pathology, *GENETIC disorders, *OXIDATIVE phosphorylation, *MITOCHONDRIAL DNA, *RESEARCH, *DNA, *GENETIC mutation, *RESEARCH methodology, *EVALUATION research, *MEDICAL cooperation, *MITOCHONDRIA, *MITOCHONDRIAL encephalomyopathies, *COMPARATIVE studies, *GENOMES, *RESEARCH funding
Abstract

Mitochondrial medicine is a field that expanded exponentially in the last 30 years. Individually rare, mitochondrial diseases as a whole are probably the most frequent genetic disorder in adults. The complexity of their genotype-phenotype correlation, in terms of penetrance and clinical expressivity, natural history and diagnostic algorithm derives from the dual genetic determination. In fact, in addition to the about 1.500 genes encoding mitochondrial proteins that reside in the nuclear genome (nDNA), we have the 13 proteins encoded by the mitochondrial genome (mtDNA), for which 22 specific tRNAs and 2 rRNAs are also needed. Thus, besides Mendelian genetics, we need to consider all peculiarities of how mtDNA is inherited, maintained and expressed to fully understand the pathogenic mechanisms of these disorders. Yet, from the initial restriction to the narrow field of oxidative phosphorylation dysfunction, the landscape of mitochondrial functions impinging on cellular homeostasis, driving life and death, is impressively enlarged. Finally, from the clinical standpoint, starting from the neuromuscular field, where brain and skeletal muscle were the primary targets of mitochondrial dysfunction as energy-dependent tissues, after three decades virtually any subspecialty of medicine is now involved. We will summarize the key clinical pictures and pathogenic mechanisms of mitochondrial diseases in adults. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Bioinformatics analysis of mitochondrial encephalomyopathy with lactic acidemia and stroke-like episodes geneome microarray based on GEO database.

Author

XU Qian, GAO Yang, LI Lei, YAN Jun, WANG Li-ling, and REN Tao-jie

Subjects
CELL lines, CELLULAR signal transduction, GENES, GENOMES, STROKE, BIOINFORMATICS, LACTIC acidosis, MICROARRAY technology, MITOCHONDRIAL encephalomyopathies
Abstract

Objective To investigate the possible pathogenesis and clinical feature of mitochondrial encephalomyopathy with lactic acidemia and stroke-like episodes (MELAS) on the molecular level by bioinformatics analysis of differential expression genes. Methods The microarray information of the wild-type cell lines and the mutant cell line with high expression of mtDNA A3243G locus was downloaded from the GEO database, and the differential expression genes were obtained by the R platform. Then Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis were performed, and paired comparison of gene microarray analysis to screen out the same differently expressed genes, and the protein-protein interaction (PPI) network was used to find the relation of key genes between MELAS and clinical symptoms. Results A total of 563 differential expression genes were obtained, of which 250 genes were up-regulated and 313 genes were down-regulated. GO enrichment analysis showed that the differential expression genes were mainly involved in the extracellular matrix (ECM) binding biological process, and KEGG pathway involved in phosphatidylinositol 3-kinase (PI3K)-serine/threonine kinase (AKT) signaling pathway, tranforming growth factor-β (TGF-β) signaling pathway, ECM receptor interaction pathway. Using the STRING platform, 9 hubs genes including GNG2, SDC2, ANXA1, FN1, TNC, CYR61, IGFBP3, LTBP1, SERPIND1 had been found. PAMR1, GLRX5, SNCA and other common differential genes were obtained by paired comparison of 3 groups of gene microarrays. Conclusions According to the above results, the PI3K-AKT signaling pathway, TGF-β signaling pathway, ECM receptor interaction pathway and the biological processes of ECM binding were involved in the process of the mitochondrial energy metabolism, which might be related to the pathogenesis of MELAS. GNG2, TNC, LTBP1, PAMR1, GLRX5, SNCA and other hubs genes might be related to the clinical manifestations of MELAS. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Tumors masquerading as neurological diseases: A caution for clinicians in planning diagnosis and treatment.

Author

Vidhya Annapoorni, C, Retnaswami, Chandra, Mailankody, Pooja, Katragadda, Pavan, Pillai, Sivakumar, Rangarajan, Anush, Padmanabha, Hansashree, Pendharkar, Hima, Vidhya Annapoorni, C S, Retnaswami, Chandra Sadanandavalli, and Pillai, Sivakumar Krishna

Subjects
*LYMPHOMA diagnosis, *DIAGNOSIS of neurological disorders, *TUMOR diagnosis, *CANCER diagnosis, *DIAGNOSIS of epilepsy, *DIAGNOSIS of dementia, *PANCREATIC tumors, *STOMACH tumors, *PARANEOPLASTIC syndromes, *OVARIAN tumors, *NEUROBLASTOMA, *POLYMYOSITIS, *THYMUS tumors, *DIFFERENTIAL diagnosis, *PLASMACYTOMA, *ADENOMA, *POEMS syndrome, *MITOCHONDRIAL encephalomyopathies, *TERATOMA, *PARATHYROID gland tumors, *DIAGNOSTIC errors, *PARKINSONIAN disorders, *METALS in the body, *OPSOCLONUS-Myoclonus syndrome, *ATAXIA, *NEURODEGENERATION, *LIPOMA, INBORN errors of metabolism diagnosis, EPITHELIAL cell tumors
Abstract

Introduction: Neurological diseases can be due to direct diseases of the central nervous system (CNS) or peripheral nervous system (PNS) or be a bystander syndrome of systemic diseases. Treatment options depend on the cause. Toxic, metabolic and nutritional, and immune-mediated consequences of clinically occult neoplasms produce a spectrum of neurological diseases, recognition of which has therapeutic and prognostic importance.Patients and Methods: Children, as well as adults who presented to the authors in the last 5 years with neurological diseases and later their diseases could be diagnosed or attributed to neoplasms which were occult, were included for the study.Observation: 28 patients were seen by the authors in the last 5 years with neurological manifestation and hidden tumor. Maximum incidence was in the age of above 60 years followed by the age group of 21-40 years. The commonest neurological presentation was muscle and nerve in adults and seizure in children.Discussion: Short duration, rapid progression, severe weight loss, and poor response to treatment given for nontumor associated neurological syndrome are the red flags which point to the diagnosis.Conclusion: Seizures and psychosis formed the commonest features in children, muscle and nerve in adults. Short duration, rapid progression, and resistance to treatment are the markers for possible underlying neoplasm. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Clinical features of the late-onset mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes.

Author

ZHAO Dan-hua, ZHAO Xu-tong, XING Hai-ying, ZHANG Xiao, ZHANG Zhe, LIU Xian-zeng, YUAN Yun, and WANG Zhao-xia

Subjects
AGE factors in disease, BIOPSY, DNA, GENETIC polymorphisms, GENETICS, MAGNETIC resonance imaging, GENETIC mutation, POLYMERASE chain reaction, STROKE, PHENOTYPES, SYMPTOMS, RETROSPECTIVE studies, LACTIC acidosis, MITOCHONDRIAL encephalomyopathies, SEQUENCE analysis, DELAYED onset of disease
Abstract

Objective To summarize the clinical, pathological and genetic features of 10 patients with late-onset mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (MELAS). Methods and Results The clinical data of 10 patients with late-onset MELAS were retrospectively analyzed from January 2007 to December 2018. Muscle biopsy was performed in 8 cases. Polymerase chain reaction-fragment length polymorphism (PCR-RFLP) analysis and whole sequencing of mitochondrial DNA (mtDNA) were used to screen mtDNA mutations, and the mutation load of m.3243A > G in blood was detected by pyrophosphate sequencing. The onset age of the first stroke-like episodes were 40-67 years old in all patients. The main manifestations included epilepsy, aphasia, headache, dementia, mental disorder, limb paralysis and visual impairment. Past history revealed 5 cases with diabetes mellitus, 6 with deafness, 3 with hypertension and 2 with stroke. Six patients had a family history of maternally inherited diabetic mellitus, and 2 had a family history of MELAS. Laboratory examination revealed 6 cases with hyperlipidemia, 6 with carotid atherosclerosis, 1 with stenosis of right internal carotid artery and middle cerebral artery. Brain MRI showed cortex lesions involving one or more lobes in all patients, and 4 cases also had multiple infarctions in brainstem and basal ganglia. Muscle biopsy demonstrated ragged red fiber (RRF) and strongly succinate dehydrogenase-stained vessels (SSVs) in all of 8 patients except one. Genetic analysis identified 9 cases with m.3243A > G, and 1 with m.10191T > C mutation. The blood mutation load of m.3243A > G was 9%-33% in 7 cases. Conclusions The clinical phenotype of patients with late-onset MELAS was not significantly different from that of typical patients. However, the age of onset in late-onset MELAS was late, and it could be complicated with a variety of cerebrovascular risk factors and atherosclerosis. The hotspot mutation of this group of late-onset MELAS patients was m.3243A > G, but the mutation rate in blood was low. [ABSTRACT FROM AUTHOR]

Published
2020
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48. A novel thymidine phosphorylase mutation in a family with Mitochondrial Neurogastrointestinal Encephalomyopathy (MNGIE): Molecular docking, dynamic simulation and computational investigations

Author

Marwa Ammar, Wajdi Safi, Abdelaziz Tlili, Olfa Alila‐Fersi, Fakher Frikha, Jihen Chouchen, Fatma Mnif, Marwa Kharrat, Marwa Maalej, Rahma Felhi, Mohamed Abid, Mouna Mnif‐Feki, Faten Hadj Kacem, Faiza Fakhfakh, and Emna Mkaouar‐Rebai

Subjects
Molecular Docking Simulation, Male, Thymidine Phosphorylase, Developmental Neuroscience, Mitochondrial Encephalomyopathies, Mutation, Humans, Female, DNA, Mitochondrial, Thymidine, Pedigree, Developmental Biology
Abstract

Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE; OMIM 603041) is a rare inherited metabolic disorder mostly caused by mutations in TYMP gene encoding thymidine phosphorylase (TP) protein that affects the mitochondrial nucleotide metabolism. TP, functionally active as a homodimer, is involved in the salvage pathway of pyrimidine nucleosides. MNGIE-like syndrome having an overlapping phenotype of MNGIE was also described and has been associated with mutations in POLG and RRM2B genes. In the present study, we report the molecular investigation of a consanguineous family including two patients with clinical features suggestive of MNGIE syndrome. Bioinformatics analyses were carried out in addition to mtDNA deletion screening and copy number quantification in the blood of the two patients. Whole exome sequencing and Sanger sequencing analyses revealed the segregation in the affected family a novel mutation c.1205TA (p.L402Q) within the exon 9 of the TYMP gene. In addition, mtDNA analysis revealed the absence of mtDNA deletions and a decrease of the copy number in the blood of the two patients of the studied family. The p.Leu402Gln mutation was located in a conserved amino acid within the α/β domain of the TP protein and several software supported its pathogenicity. In addition, and based on docking and molecular dynamic simulation analyses, results revealed that L402Q caused a conformational change in TP mutated structure and could therefore alter its flexibility and stability. These changes prevent also the formation of stable homodimer leading to non-functional protein with partial or complete loss of its catalytic activity.

Published
2022

49. A Novel TTC19 Mutation in a Patient With Neurological, Psychological, and Gastrointestinal Impairment

Author

Parham Habibzadeh, Soroor Inaloo, Mohammad Silawi, Hassan Dastsooz, Mohammad Ali Farazi Fard, Forough Sadeghipour, Zahra Faghihi, Mohaddeseh Rezaeian, Majid Yavarian, Johann Böhm, and Mohammad Ali Faghihi

Subjects
mitochondrial diseases, mitochondrial encephalomyopathies, TTC19, mitochondrial complex III deficiency, neurodegenerative diseases, Neurology. Diseases of the nervous system, RC346-429
Abstract

Mitochondrial complex III deficiency nuclear type 2 is an autosomal-recessive disorder caused by mutations in TTC19 gene. TTC19 is involved in the preservation of mitochondrial complex III, which is responsible for transfer of electrons from reduced coenzyme Q to cytochrome C and thus, contributes to the formation of electrochemical potential and subsequent ATP generation. Mutations in TTC19 have been found to be associated with a wide range of neurological and psychological manifestations. Herein, we report on a 15-year-old boy born from first-degree cousin parents, who initially presented with psychiatric symptoms. He subsequently developed progressive ataxia, spastic paraparesis with involvement of caudate bodies and lentiform nuclei with cerebellar atrophy. Eventually, the patient developed gastrointestinal involvement. Using whole-exome sequencing (WES), we identified a novel homozygous frameshift mutation in the TTC19 gene in the patient (NM_017775.3, c.581delG: p.Arg194Asnfs*16). Advanced genetic sequencing technologies developed in recent years have not only facilitated identification of novel disease genes, but also allowed revelations about novel phenotypes associated with mutations in the genes already linked with other clinical features. Our findings expanded the clinical features of TTC19 mutation to potentially include gastrointestinal involvement. Further functional studies are needed to elucidate the underlying pathophysiological mechanisms.

Published
2019
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50. Late-onset mitochondrial encephalopathy with lactic acidosis and stroke-like episodes and the role of serial imaging.

Author

Ambrogetti R, Kavanagh E, and ElTayeb K

Subjects
Female, Humans, Acidosis, Lactic, MELAS Syndrome diagnosis, MELAS Syndrome diagnostic imaging, Stroke etiology, Stroke complications, Mitochondrial Diseases complications, Mitochondrial Encephalomyopathies
Abstract

Mitochondria are essential for human metabolic function. Over 350 genetic mutations are associated with mitochondrial diseases, which are inherited in a matrilineal fashion. In mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (MELAS), defective mitochondrial function and resultant impaired cellular energy production compromise vascular perfusion in affected tissues. Early diagnostic criteria suggested the diagnosis should be considered in those under 40. However, a broader range of phenotypes are now recognised, including those that present for the first time later in life. The primary presenting feature in MELAS is a stroke-like episode invariably resulting in patients undergoing neuroradiological imaging. We present a case of a woman with a first presentation of a stroke-like episode and seizures in her 40s who was eventually diagnosed with MELAS. We detail her clinical presentation, treatment and diagnosis, emphasising the role of serial imaging in her diagnosis., Competing Interests: Competing interests: None declared., (© BMJ Publishing Group Limited 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2024
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