bims-curels Biomed News
on Leigh syndrome
Issue of 2025–03–02
thirteen papers selected by
Cure Mito Foundation
  1. Therapeutic Approach to Epilepsy in Patients with Mitochondrial Diseases.
  2. Mitochondrial RNA metabolism, a potential therapeutic target for mitochondria-related diseases.
  3. Protein Nitration in Patients with Mitochondrial Diseases.
  4. Patient partner research has a compensation crisis.
  5. Genetic analysis and multimodal imaging confirm m.12148 T > C mitochondrial variant pathogenicity leading to multisystem dysfunction.
  6. Overcoming barriers to implementation of patient engagement in clinical trials: feasibility testing of an embedded study.
  7. The rAAV2-ND1 gene therapy for Leber hereditary optic neuropathy.
  8. Patient leadership and partnerships accelerate therapies for SCN8A and other developmental and epileptic encephalopathies.
  9. Mitochondrial Transplantation in Animal Models of Psychiatric Disorders: A Novel Approach to Psychiatric Treatment.
  10. A proposal to involve people living with rare and complex conditions in the development of clinical practice guidelines.
  11. To what extent should doctors communicate diagnostic uncertainty with their patients? An empirical ethics vignette study.
  12. Mitochondria Make You Think: An [18F]BCPP-EF Positron Emission Tomography Study of Mitochondrial Complex I Levels and Brain Activation during Task Switching.
  13. The POLG Variant c.678G>C; p.(Gln226His) Is Associated with Mitochondrial Abnormalities in Fibroblasts Derived from a Patient Compared to a First-Degree Relative.
  1. Yonsei Med J. 2025 Mar;66(3): 131-140
    Therapeutic Approach to Epilepsy in Patients with Mitochondrial Diseases.
    Ji-Hoon Na, Young-Mock Lee.
      Mitochondrial diseases (MDs) are genetic disorders with diverse phenotypes that affect high-energy-demand organs, notably the central nervous system and muscles. Epilepsy is a common comorbidity, affecting 40%-60% of patients with MDs and significantly reducing their quality of life. This review discusses the different treatment modalities for epilepsy in patients with MDs. Advances in genetic sequencing have identified specific mutations in mitochondrial and nuclear DNA, enabling more precise diagnoses and tailored therapeutic strategies. Anti-seizure medications and dietary interventions, such as ketogenic diets and their variants, have been effective in reducing seizures and improving mitochondrial function. Emerging treatments include gene therapy, mitochondrial transplantation, and antioxidants such as EPI-743, which protect mitochondrial integrity and improve neurological function. Additionally, therapies that promote mitochondrial biogenesis, such as bezafibrate and epicatechin, are being explored for their potential to enhance mitochondrial proliferation and energy production. Gene therapy aims to correct genetic defects underlying MDs. Techniques like mitochondrial gene replacement and using viral vectors to deliver functional genes have shown promise in preclinical studies. Mitochondrial transplantation, an emerging experimental technique, involves transferring healthy mitochondria into cells with dysfunctional mitochondria. This technique has been demonstrated to restore mitochondrial function and energy metabolism in preclinical models. Patient-derived induced pluripotent stem cells can model specific mitochondrial dysfunctions in vitro, allowing for the testing of various treatments tailored to individual genetic and biochemical profiles. The future of mitochondrial medicine is promising, with the development of more targeted and personalized therapeutic strategies offering hope for improved management and prognosis of mitochondrial epilepsy.
    Keywords:  Mitochondrial diseases; antioxidants; epilepsy; gene therapy; ketogenic diet
    DOI:  https://doi.org/10.3349/ymj.2024.0325
  2. Chin Med J (Engl). 2025 Feb 26.
    Mitochondrial RNA metabolism, a potential therapeutic target for mitochondria-related diseases.
    Tongyue Duan, Liya Sun, Kaiyue Ding, Qing Zhao, Lujun Xu, Chongbin Liu, Lin Sun.
       ABSTRACT: In recent years, the roles of mitochondrial RNA and its associated human diseases have been reported to increase significantly. Treatments based on mtRNA metabolic processes and nuclear gene mutations are thus discussed. The mitochondrial oxidative phosphorylation process is affected by mtRNA metabolism, including mtRNA production, maturation, stabilization, and degradation, which leads to a variety of inherited human mitochondrial diseases. Moreover, mitochondrial diseases are caused by mitochondrial messenger RNA, mitochondrial transfer RNA, and mitochondrial ribosomal RNA gene mutations. This review presents the molecular mechanisms of human mtRNA metabolism and pathological mutations in mtRNA metabolism-related nuclear-encoded/nonencoded genes and mitochondrial DNA mutations to highlight the importance of mitochondrial RNA-related diseases and treatments.
    DOI:  https://doi.org/10.1097/CM9.0000000000003516
  3. Antioxidants (Basel). 2025 Feb 12. pii: 211. [Epub ahead of print]14(2):
    Protein Nitration in Patients with Mitochondrial Diseases.
    Jomênica B Livramento, Gabriela S Rodrigues, Jean Faber, Luis A de Souza Filho, Felipo V Moura, Camila D S Barros, Wladimir B V R Pinto, Beny Schmidt, Acary S B Oliveira, Beatriz H Kiyomoto, Célia H Tengan.
      Mitochondrial diseases are complex disorders caused by nuclear or mitochondrial DNA mutations, leading to oxidative phosphorylation deficiency and excessive production of reactive oxygen species (ROS). While ROS have been well established in the pathogenesis of these diseases, the role of reactive nitrogen species (RNS) remains unclear. In this study, we performed a quantitative analysis of muscle fibers to investigate the relationship between protein nitration and mitochondrial abnormalities (mitochondrial proliferation and cytochrome-c oxidase (COX) deficiency) and factors like genotype, muscle damage, and age. A total of 1961 muscle fibers (303 from 4 controls and 1658 from 29 patients with mitochondrial diseases) were analyzed by immunostaining for nitro-tyrosine. Contrary to previous findings, which identified nitro-tyrosine only in small muscle vessels, we observed a broader distribution affecting the sarcolemma and sarcoplasm. Using multivariate techniques, we identified a significant correlation between protein nitration and mitochondrial proliferation but found no associations with COX deficiency, age, muscle damage, or genotype. These findings suggest that nitrative stress may contribute to mitochondrial dysfunction or play a role in signaling processes that induce mitochondrial biogenesis. Our results provide new insights into the molecular mechanisms of mitochondrial diseases and highlight the potential relevance of protein nitration.
    Keywords:  mitochondrial DNA (mtDNA); mitochondrial diseases; nitrative stress; nitric oxide; oxidative stress; protein nitration; reactive nitrogen species (RNS); reactive oxygen species (ROS)
    DOI:  https://doi.org/10.3390/antiox14020211
  4. BMJ. 2025 Feb 27. 388 r381
    Patient partner research has a compensation crisis.
    Amy Price, Dawn P Richards.
      
    DOI:  https://doi.org/10.1136/bmj.r381
  5. Mol Genet Metab. 2025 Feb 07. pii: S1096-7192(25)00040-X. [Epub ahead of print]144(3): 109049
    Genetic analysis and multimodal imaging confirm m.12148 T > C mitochondrial variant pathogenicity leading to multisystem dysfunction.
    Kinsley Belle, Alexander Kreymerman, Jill L Young, Nirmal Vadgama, Marco H Ji, Sandeep Randhawa, Juan Caicedo, Megan Wong, Stephanie P Muscat, Casey A Gifford, Richard T Lee, Jamal Nasir, Gregory M Enns, Ioannis Karakikes, Andrew M Schaefer, Robert W Taylor, Mark Mercola, Dwight Koeberl, Edward H Wood.
      
    Keywords:  Heteroplasmy; Patient specific; Rare mitochondrial variant; Single cell arms-qPCR; iPSC variant modelling
    DOI:  https://doi.org/10.1016/j.ymgme.2025.109049
  6. Res Involv Engagem. 2025 Feb 26. 11(1): 15
    Overcoming barriers to implementation of patient engagement in clinical trials: feasibility testing of an embedded study.
    Geneviève Castonguay, Sylvain Bédard, Anick Dubois, Émilie Lessard, Léna Rivard, Ghislaine Rouly, Antoine Boivin.
       BACKGROUND: Patient engagement is attracting considerable interest as a potential strategy to improve the conduct of clinical trials, with evidence of significant improvement in research participant recruitment. However, impact on the retention and adherence of clinical trial participants requires further studies. Embedded studies are specific research designs where a secondary study is "embedded" into a larger host study. We aimed to investigate the feasibility of embedding a study of patient partnership in research, within an ongoing multi-center clinical trial on drug treatment.
    METHODS: We developed and embedded a patient engagement intervention (embedded study) into a phase 3 randomized clinical drug trial (host study). The patient engagement intervention consisted of discussions between host study participants and a patient partner, to improve research participants' experience and retention in the clinical trial. We carried out individual semi-structured interviews with patient partners and other research team members involved in the development and implementation of the embedded study, as well as an analysis of project documents. Data were analyzed using qualitative thematic analysis.
    RESULTS: Factors impacting feasibility and lessons learned for future embedded studies on engagement science were identified. Barriers that curtailed the implementation of patient engagement into an ongoing clinical trial included: the late integration of the embedded study into the host clinical trial, different visions of patient partnership and its potential benefits, differences in communication style and preferences, a lack of fit between the specific needs of the host study and the proposed engagement model, and an overall sense of burden. Integrating patient partners into the host clinical trial was seen as potentially beneficial in improving the experience of participants in the host clinical trial through experience sharing, providing support for the consent process, and improving knowledge transfer.
    CONCLUSIONS: This feasibility study offers insights into how contextual factors and decisions made during the design phase can impact the implementation of patient engagement studies embedded in a clinical trial. Findings suggest that knowledge of the clinical trial context (e.g., organizational, administrative, regulatory, ethics) and early collaboration among embedded study and host study teams before initiation of both studies are key conditions for success.
    Keywords:  Barriers; Clinical trial; Embedded study; Feasibility; Implementation; Patient Engagement; Patient involvement
    DOI:  https://doi.org/10.1186/s40900-025-00689-0
  7. Graefes Arch Clin Exp Ophthalmol. 2025 Feb 24.
    The rAAV2-ND1 gene therapy for Leber hereditary optic neuropathy.
    Xin Li, Jun Yuan, Jia Qi, Kunwei Ruan, Bin Li, Yanping Dan, Yong Zhang.
       PURPOSE: No effective treatment for leber hereditary optic neuropathy (LHON) caused by ND1 mutation is available.This study evaluated the safety and efficacy of a single unilateral intravitreal injection rAAV2-ND1 in various doses for the treatment of LHON.
    METHODS: Twelve patients with LHON (ND1 mutation) in two groups with six participants each.The low-dose group received injection of rAAV2-ND1 in a dose of 1.5 × 108 vg/eye while the high-dose group received 1.5 × 109 vg/eye.The safety endpoint was the incidence of adverse events (AEs).The primary efficacy endpoint was changes of best corrected visual acuity (BCVA).The secondary efficacy endpoints were improvement in visual field (VF), visual field index (VFI), and mean deviation (MD) and change in retinal nerve fiber layer (RNFL) thickness.
    RESULTS: In total,11 mild eye-related AEs occurred in the participants in both groups, and short-term drug treatment returned to normal.The difference was statistically significant in BCVA of the injected eyes in the low-dose group between 12 months after treatment and at baseline.The differences in BCVA of the uninjected eyes in the high-dose group between baseline and 3 months or 6 months after treatment were statistically significant.At 12 months after treatment, the rate of improvement in BCVA for the injected eyes in the low-dose groups was 66.7% (4/6),while BCVA for the uninjected eyes in the high-dose groups was 50.0% (3/6),and patients in both groups had binocular VF (VFI, MD) and RNFL thicknesses that did not significantly differ from baseline.
    CONCLUSION: Preliminary clinical evidence shows that rAAV2-ND1 ophthalmic injection is a safe and effective treatment for LHON due to ND1 mutation.
    TRIAL REGISTRATION: Trial registration number: ChiCTR2000041574, Date:12/29/2020.
    Keywords:  Gene therapy; Leber hereditary optic neuropathy; Mitochondrial disease; RAAV2-ND1
    DOI:  https://doi.org/10.1007/s00417-025-06776-y
  8. Ther Adv Rare Dis. 2025 Jan-Dec;6:6 26330040241252449
    Patient leadership and partnerships accelerate therapies for SCN8A and other developmental and epileptic encephalopathies.
    Gabrielle Conecker, JayEtta Hecker, Michael F Hammer.
      Families are a driving force in accelerating the understanding and science of SCN8A. The urgency felt by families facing the absence of treatments for their children makes them uniquely positioned to advance therapies through advocacy, data sharing, and partnerships. The International SCN8A Alliance (Alliance) brings families together to collaborate on advancing the science of SCN8A. The Alliance hosts SCN8A scientific meetings - facilitating coordination and collaboration among clinicians, researchers, industry, and the SCN8A community; funds early investigators to support research - building a new generation of investigators; builds and maintains a robust and dedicated International SCN8A Registry (Registry) providing longitudinal data on the natural history of the disorder and leading to over two dozen publications; cultivates partnerships with key stakeholders to accelerate innovation and progress including a Research Consortium, Global Clinicians Network, and the first global Consensus on the Diagnosis and Treatment of SCN8A; coordinates global community engagement by hosting families in virtual meetings in multiple languages and uniting advocates from across all epilepsies to call for more strategic and expanded investment in the epilepsies; builds and hosts the Global SCN8A Leaders Alliance (Leaders Alliance) promoting coordination and collaboration among leaders of SCN8A organizations worldwide; and advances a Global SCN8A Research Roadmap (Research Roadmap) - convening leading stakeholders in the SCN8A community to identify research priorities and accelerate progress toward better care, treatments, and outcomes. The outsized impact of small family advocacy organizations demonstrates that patient advocates can be effective agents in accelerating new therapeutics through maximizing their power to convene diverse stakeholders around a shared vision grounded in patient/caregiver priorities, maintaining a core focus on improving outcomes that are most important to families, and recognizing the importance of being bold, thinking big, and collaborating across disease areas.
    Keywords:  Developmental and Epileptic Encephalopathy; collaboration; diagnostic odyssey; genetic epilepsies; modified Delphi; patient registry
    DOI:  https://doi.org/10.1177/26330040241252449
  9. Biomolecules. 2025 Jan 27. pii: 184. [Epub ahead of print]15(2):
    Mitochondrial Transplantation in Animal Models of Psychiatric Disorders: A Novel Approach to Psychiatric Treatment.
    Keiko Iwata, Masafumi Noguchi, Norihito Shintani.
      Mitochondria are essential for brain function, and accumulating evidence from postmortem brain studies, neuroimaging, and basic research indicates mitochondrial impairments in patients with psychiatric disorders. Restoring mitochondrial function therefore represents a promising therapeutic strategy for these conditions. Mitochondrial transplantation, an innovative approach that uses functional mitochondria to repair damaged cells, has demonstrated efficacy through various delivery methods in cell, animal, and animal disease models. This review explores the critical link between mitochondria and psychiatric disorders and provides an overview of mitochondrial transplantation as a therapeutic intervention. It highlights recent advances in mitochondrial transplantation in animal models of psychiatric disorders, focusing on delivery methods, the timing of administration, and the integration of exogenous mitochondria into brain cells. The potential therapeutic effects and the mechanisms that underlie these effects are discussed. Additionally, this review evaluates the clinical relevance, challenges, and future strategies for the application of mitochondrial transplantation in the treatment of psychiatric disorders.
    Keywords:  brain functions; experimental disease models; mitochondrial transplantation; psychiatric disorders; therapeutic strategies
    DOI:  https://doi.org/10.3390/biom15020184
  10. Patient Educ Couns. 2025 Feb 19. pii: S0738-3991(25)00075-8. [Epub ahead of print]135 108708
    A proposal to involve people living with rare and complex conditions in the development of clinical practice guidelines.
    Anabel Granja-Dominguez, Carmen Martin-Gomez, Juan Darío Ortigoza-Escobar, Rocío Rodriguez-Lopez, Lourdes Gonzalez-Bermudez, Stefania Dantone, Stefano Pavanello, Juan Antonio Blasco-Amaro.
       OBJECTIVE: Develop a proposal to involve people living with rare and complex conditions in the development of clinical practice guidelines (CPGs) based on a systematic review of qualitative literature.
    METHODS: A systematic review was conducted using medical subject heading-term and text-word search strategies to identify qualitative literature on patient living with rare diseases (PLWRD) involvement during CPG development and in research studies. Databases were searched for literature in English or Spanish, published until April 2024.
    RESULTS: 64 publications were included in this review, underscoring the critical importance of PLWRD involvement in the CPGs development. The studies reported different strategies to facilitate the involvement of patients and collect relevant information from the patient community. The Guideline Development Group and the Core Writing Group should include representatives of the patient community, closely communicating with a patient advisory group to facilitate a broader patient perspective. Patient representatives should be engaged throughout all stages of CPG development, from defining the scope to implementation.
    CONCLUSION: This proposal offers a framework for actively involve PLWRD throughout the CPGs development process, aiming to produce more inclusive and practical recommendations that better reflect real-world patient needs.
    Keywords:  Clinical practice guideline; Guideline development; Patient advisory group; Patient involvement; Patient-centric; Rare disease
    DOI:  https://doi.org/10.1016/j.pec.2025.108708
  11. J Med Ethics. 2025 Feb 26. pii: jme-2024-109932. [Epub ahead of print]
    To what extent should doctors communicate diagnostic uncertainty with their patients? An empirical ethics vignette study.
    Caitríona Cox, Thea Hatfield, Matthew Parry, Zoë Fritz.
       BACKGROUND/AIMS: Although diagnostic uncertainty is common, patient-focused research examining its communication is lacking. We aimed to determine patient preferences for the communication of diagnostic uncertainty, and examine the effects of such communication on patients.
    METHODS: We applied an empirical ethics approach, integrating the data collected with ethical analysis to form normative recommendations about diagnostic uncertainty communication. In this randomised crossover study, n=111 members of the public sequentially watched two video vignettes depicting either high or low communicated diagnostic uncertainty, in one of two clinical scenarios. After watching videos, participants completed online questionnaires. Primary outcome was preferred video (high vs low communicated uncertainty); secondary outcomes included satisfaction, trust, worry and understanding. Quantitative data were analysed using logistic regression and a linear mixed effects model; qualitative data were analysed thematically.
    RESULTS: Quantitative analysis demonstrated that participants preferred greater diagnostic uncertainty communication, even though these vignettes were more worrying. Qualitative data revealed heterogeneous participant views justifying their communication preferences. These data raise issues relating to how doctors might balance harms versus benefits in diagnostic uncertainty communication and how doctors might communicate in the face of heterogeneous patient information preferences.
    CONCLUSIONS: We argue that doctors should err on the side of greater diagnostic uncertainty communication: to not do so (eg, based on benign paternalistic ideas about avoiding patient worry) or to do so variably (eg, based on unevidenced assumptions about patient information preferences) risks depriving patients of information they may value and may create or exacerbate inequalities.
    Keywords:  Decision Making; Ethics; Ethics- Medical
    DOI:  https://doi.org/10.1136/jme-2024-109932
  12. Biol Psychiatry Cogn Neurosci Neuroimaging. 2025 Feb 24. pii: S2451-9022(25)00064-3. [Epub ahead of print]
    Mitochondria Make You Think: An [18F]BCPP-EF Positron Emission Tomography Study of Mitochondrial Complex I Levels and Brain Activation during Task Switching.
    Ekaterina Shatalina, Thomas Whitehurst, Ellis Chika Onwordi, Alexander Whittington, Ayla Mansur, Atheeshaan Arumuham, Tiago Reis Marques, Roger N Gunn, Sridhar Natesan, Matthew M Nour, Eugenii A Rabiner, Matthew B Wall, Oliver D Howes.
       BACKGROUND: Mitochondrial complex I is the largest enzyme complex in the respiratory chain and can be non-invasively measured using [18F]BCPP-EF positron emission tomography (PET). Neurological conditions associated with mitochondria complex I pathology are also associated with altered blood oxygen level-dependent (BOLD) response and impairments in cognition. This study aims to investigate the relationship between mitochondrial complex I levels, cognitive function, and associated neural activity during task switching in healthy humans.
    METHODS: Cognitively healthy adults (n=23) underwent [18F]BCPP-EF PET scans and functional magnetic resonance imaging (fMRI) while performing a task-switching exercise. Task performance metrics included switch cost and switching accuracy. Data were analysed using linear mixed-effects models and partial least squares regression (PLS-R).
    RESULTS: We found significant positive associations between [18F]BCPP-EF VT and the task-switching fMRI response (β=3.351, SE=1.01, z=3.249, p=0.001). Positive Pearson's correlations between [18F]BCPP-EF VT and the fMRI response were observed in the dorsolateral prefrontal cortex (r=0.61, p=0.0019), insula (r=0.46, p=0.0264) parietal-precuneus (r=0.51, p=0.0139) and anterior cingulate cortex (r=0.45, p=0.0293). [18F]BCPP-EF VT across task-relevant regions was associated with task switching accuracy (PLS-R, R2=0.48, RMSE=0.154, p=0.011) and with switch cost (PLS-R, R2=0.38, RMSE=0.07, p=0.048).
    CONCLUSIONS: Higher mitochondrial complex I levels may underlie an individual's ability to exhibit a stronger BOLD response during task switching and are associated with better task-switching performance. This provides the first evidence linking the BOLD response with mitochondrial complex I and suggests a possible biological mechanism for aberrant BOLD response in conditions associated with mitochondrial complex I dysfunction that should be tested in future studies.
    DOI:  https://doi.org/10.1016/j.bpsc.2025.02.007
  13. Genes (Basel). 2025 Feb 05. pii: 198. [Epub ahead of print]16(2):
    The POLG Variant c.678G>C; p.(Gln226His) Is Associated with Mitochondrial Abnormalities in Fibroblasts Derived from a Patient Compared to a First-Degree Relative.
    Imra Mantey, Felix Langerscheidt, Çağla Çakmak Durmaz, Naomi Baba, Katharina Burghardt, Mert Karakaya, Hans Zempel.
       BACKGROUND: The nuclear-encoded enzyme polymerase gamma (Pol-γ) is crucial in the replication of the mitochondrial genome (mtDNA), which in turn is vital for mitochondria and hence numerous metabolic processes and energy production in eukaryotic cells. Variants in the POLG gene, which encodes the catalytic subunit of Pol-γ, can significantly impair Pol-γ enzyme function. Pol-γ-associated disorders are referred to as POLG-spectrum disorders (POLG-SDs) and are mainly autosomal-recessively inherited. Clinical manifestations include muscle weakness and fatigue, and severe forms of the disease can lead to premature death in infancy, childhood, and early adulthood, often associated with seizures, liver failure, or intractable epilepsy. Here, we analyzed fibroblasts from a compound heterozygous patient with the established pathogenic variant c.2419C>T; p.(Arg807Cys) and a previously undescribed variant c.678G>C; p.(Gln226His) with a clinical manifestation compatible with POLG-SDs, sensory ataxic neuropathy, and infantile muscular atrophy. We conducted a battery of functional studies for Pol-γ and mitochondrial dysfunction on the patient's fibroblasts, to test whether the novel variant c.678G>C; p.(Gln226His) may be causative in human disease.
    AIMS/METHODS: We analyzed skin-derived fibroblasts in comparison to a first-degree relative (the mother of the patient), an asymptomatic carrier harboring only the established c.2419C>T; p.(Arg807Cys) mutation. Assessments of mitochondrial function included measurements of mtDNA content, mRNA levels of mitochondrial genes, mitochondrial mass, and mitochondrial morphology.
    CASE PRESENTATION AND RESULTS: A 13-year-old male presented with symptoms starting at three years of age, including muscle weakness and atrophy in the lower extremities and facial muscles, which later extended to the upper limbs, voice, and back muscles, without further progression. The patient also reported fatigue and muscle pain after physical activity, with no sensory deficits. Extensive diagnostic tests such as electromyography, nerve conduction studies, muscle biopsy, and MRI were unremarkable. Exome sequencing revealed that he carried the compound heterozygous variants in POLG c.678G>C; p.(Gln226His) and c.2419C>T; p.(Arg807Cys), but no other potential genetic pathogenic causes. In comparison to a first-degree relative (his mother) who only carried the c.2419C>T; p.(Arg807Cys) pathogenic mutation, in vitro analyses revealed a significant reduction in mtDNA content (~50%) and mRNA levels of mtDNA-encoded proteins. Mitochondrial mass was reduced by approximately 20%, and mitochondrial interconnectivity within cells was impaired, as determined by fluorescence microscopy and mitochondrial staining.
    CONCLUSIONS: Our findings suggest that the c.678G>C; p.(Gln226His) variant, in conjunction with the c.2419C>T; p.(Arg807Cys) mutation, may compromise mtDNA replication and mitochondrial function and could result in clinically significant mitochondriopathy. As this study is based on one patient compared to a first-degree relative (but with an identical mitochondrial genome), the pathogenicity of c.678G>C; p.(Gln226His) of POLG should be confirmed in future studies, in particular, in conjunction with other POLG-variants.
    Keywords:  Alpers-Huttenlocher syndrome; mitochondriopathy; mtDNA copy number; mtDNA depletion; polymerase-gamma; rare disease; spinal muscular atrophy
    DOI:  https://doi.org/10.3390/genes16020198
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