The Natural History of Mitochondrial Diseases

Primary Mitochondrial Disease (MITO) is a serious and debilitating condition, often multi-systemic and requiring life-long monitoring and treatment of symptoms to reduce the risk of life-threatening episodes, metabolic crises, or acute illness. Although rare, MITO is the most common group of inherited metabolic diseases and is associated with abnormalities of the mitochondrial respiratory chain, which carries out oxidative phosphorylation to produce ATP (Gorman et al. 2016).

In adults, MITO is often a progressive multisystem disorder, with frequent, long-term monitoring and symptom management required to reduce the risk of an acute illness, and/or other life-threatening episodes and metabolic crises

Given that mtDNA mutations are typically transmitted through the maternal line, paternally related family members are not at risk and will represent asymptomatic controls. In sporadic cases such as chronic progressive external ophthalmoplegia (CPEO) that are typically caused by sporadic mtDNA deletions, family members are not at risk of carrying the disorder, and thus can act as family member controls. Similarly, those family members of participants with a nuclear DNA mutation such as autosomal dominant mitochondrial disease (e.g., OPA1 gene), and who do not carry the affected gene are also suitable asymptomatic controls.

This study will establish the AMDC Clinical Registry at NeuRA. Patients with confirmed MITO (the presence of pathogenic nuclear or mitochondrial DNA variants/deletion) and control participants that can include: biological relatives of MITO participants with no clinical disease and no genetic risk; participants with a clinically confirmed non-MITO neurologic disorder or age and gender-matched healthy controls followed over at least 120 months (10) years.

Study data will include detailed medical and social history, summary of clinical presentation and clinical social history collected through diaries or on clinical review; neurological examination findings; results of investigations performed as standard of care, including laboratory findings through blood tests, imaging studies, cardiac investigations, gastrointestinal transit studies, neurophysiological studies, and analysis of archived muscle and/or skin biopsies.

Individuals of any age with confirmed MITO that requires the presence of pathogenic nuclear or mitochondrial DNA variants/deletion. Control participants (100) may fall into one of three categories: asymptomatic relatives of confirmed MITO patients (those with no genetic risk); patients with clinically confirmed non-MITO neurological disorders; or age and gender-matched healthy controls.

If genetic mutations are not demonstrated, MITO can be diagnosed using clinical diagnostic criteria, including the Walker Criteria, or the Nijmegen criteria (consensus mitochondrial disease criteria scoring system).

All patients must agree to participate in the Australian Mitochondrial Disease Centre (AMDC) Clinical Registry and donate, at a minimum a blood sample, for the prospective biobank for the collection and storage of biological samples for future use.

Overall, individual disease courses in MITO range from slow to more rapid progressive decline, to stepwise deterioration often attributable to metabolic events, eventuating as a potentially fatal disease. To further complicate these already immense diagnostic and prognostic challenges, external or environmental factors such as toxins, inflammation, nutrition, the microbiome, and the natural aging process, are now being postulated to additionally influence the onset, organ involvement, severity, and progression of disease, although this is poorly understood.

MITO is a vastly heterogeneous disease, and a genetic diagnosis does not necessarily nor comprehensively inform the clinician how the disease will manifest clinically in an individual. A deeper understanding of MITO's natural history and its associated biomarkers will instead provide the clinician with the necessary tools and a greater understanding that optimises patient care. Additionally, it will allow for more accurate:

• screening of patients and when to apply mitochondrial genomic testing,
• prediction of disease severity and prognosis,
• matching of clinical presentations to genotypes,
• monitoring for symptomatic and metabolic changes to minimise/prevent potential crises,
• utilisation of appropriate management plans their effectiveness assessment,
• application of available targeted treatments (and clinical trials), and
• application of preventative strategies such as mitochondrial donation techniques.

By collecting the clinically relevant data of each genetically diagnosed patient, the study will map and identify factors that influence disease, to assist not only current NeuRA clinicians but future clinicians in the management of MITO patients. Biospecimens will be collected to form the Australian Mitochondrial Disease Centre (AMCD) biobank that will facilitate separate and future biomarker discovery research, important for the assessment of organ involvement, disease severity, and responses to therapies. With the benefits of earlier diagnoses, improved patient care and health outcomes, and aiding drug/treatment discovery.

In this longitudinal study, we aim to further define existing and identify the different MITO phenotypes; examine possible associations between specific events in the medical history of the patient; identify correlations between the signs and symptoms of MITO presentations and disease severity, prognostic indicators, and survival; and create an informative biobank. One that can be accessed for future use in ethically approved protocols, and where biospecimens can be reassessed to identify precise mitochondrial biomarkers that aid a timelier MITO diagnosis or prediction of disease progression. Clinical symptoms will also be correlated with environmental factors such as medications, and physical exercise to provide an improved understanding of how treatments, lifestyle, and dietary interventions impact the clinical course of MITO.

Overall Aim: To perform a longitudinal study of MITO over 10 years and create a clinical database to examine possible associations between clinical features, disease phenotypes and disease progression in MITO participants and relevant controls. Various biospecimens will be collected to form a 'biobank' that will facilitate MITO biomarker research and that can be accessed using ethics-approved protocols for future research

Project outcomes This study will establish the AMDC Clinical 'Biobank' repository. Patients with MITO and their asymptomatic relatives (with no genetic risk) will be followed for at least 10 years with biospecimen collection to form a Biobank that will facilitate MITO biomarker research. The data generated may identify triggers of clinical symptoms and associations between clinical and environmental parameters. Future research studies using ethics-approved protocols to access biospecimens in the biobank will facilitate MITO biomarker research that would allow earlier diagnosis of MITO, identify organ involvement, track disease progression to help with prognostication and improve disease management.