Mitochondrial Diseases Clinical Trial
Official title:
Can Metagenomic and Metadata be Combined Using Bioinformatics and Computational Biology Methods to Personalise Patient Treatment.
Gastrointestinal (GI) dysmotility in patients with mitochondrial disease are increasingly
recognized and often include dysphagia, abdominal pain, abdominal distention, bacterial
overgrowth, constipation, and in severe cases surgery. Although the proposed pathological
mechanisms underlying the development of GI dysmotility remain diverse, potential mechanisms
include mitochondrial dysfunction of smooth muscle within the GI tract and visceral myopathy.
Moreover, bacteria within the GI tract, termed 'gut microbiota' has also been identified as a
key contributor towards GI dysmotility.
Aim: The aim of this study is to assess the role that the gut microbiota has on clinical
disease expression in patients with mitochondrial disease.
Objectives: This is a feasibility study to assess:
1. How does clinical disease severity impact upon the gut microbiota in mitochondrial
patients compared to healthy controls.
2. How diagnostic and therapeutic approaches for mitochondrial disease be improved.
Methods: This is a pilot study and is part of the Newcastle Mitochondrial Research Biobank.
Stool samples will be collected from patients with a Mitochondrial Encephalomyopathy Lactic
Acidosis and Stroke-like episodes (MELAS) phenotype carrier of the m.3243 A>G mutation (N=20)
from the United Kingdom Medical Research Council (MRC) Centre for Mitochondrial Disease
Patient Cohort (RES/0211/7552, the largest cohort of mitochondrial patients in the world) and
the mitochondrial clinic and age and gender matched healthy controls (N=20). DNA will be
extracted from stool samples and the 16S rRNA gene (V4 region) will be sequenced. This data
will be analysed using bioinformatics pipelines and computational biology.
Long Term Goal: To generate novel information relating to how the gut microbiota impacts upon
clinical disease expression. This information could then be used to build a predictive model
designed to optimise diagnosis and therapeutic treatments. This method also holds potential
for use as a model for ageing and diseases associated with mitochondria not working properly,
such as diabetes, cancer and Parkinson's disease. This research has the potential to reduce
costs to the NHS and improve patient care and their quality of life.
Background Mitochondrial diseases are an important group of inherited neurometabolic
disorders that invariably exhibit multi-organ involvement, are relentlessly progressive, and
result in significant morbidity and mortality. They may manifest as discrete clinical
syndromes such as mitochondrial encephalomyopathy, lactic acidosis, and stroke like episodes
(MELAS), chronic and progressive external ophthalmoplegia (CPEO), and maternally inherited
deafness and diabetes (MIDD), or more commonly with a wide overlapping spectrum of clinical
features, including hypertrophic cardiomyopathy and gastrointestinal (GI) dysmotility.
Symptoms arising from gastrointestinal (GI) dysmotility in patients with mitochondrial
disease are increasingly recognized and often include dysphagia, abdominal pain, abdominal
distention, bacterial overgrowth, constipation, and in severe cases, intestinal pseudo
obstruction mimicking an acute surgical abdomen. The high incidence of this was recently
confirmed when we surveyed 86 mitochondrial patients about GI symptoms. Sixty five percent of
patients experienced GI dysmotility symptoms, including constipation, early satiety,
abdominal pain and abdominal distension (under preparation for publication). Although the
proposed pathological mechanisms underlying the development of GI dysmotility remain diverse,
potential mechanisms include mitochondrial dysfunction of smooth muscle within the GI tract
and visceral myopathy. Moreover, bacteria within the GI tract, termed 'gut microbiota' has
also been identified as a key contributor towards GI dysmotility.
Rationale To date, there are few effective treatments for patients with mitochondrial disease
and those available are predominantly supportive in nature with no proven treatment efficacy,
and poor understanding of the links between the gut microbiota, mitochondrial disease, GI
dysmotility and patient health and quality of life. Treatments include various antibiotics
and laxatives which are generic and not disease specific. Long term effects of drugs are
unknown and the impact these have on the GI tract and gut microbiota in mitochondrial
disorders are currently unknown. It is essential to optimise supportive therapeutic
strategies and design novel modalities to improve clinical management. Although advances in
technology now provide more biological information than ever before, the complexity and
volume of data generated exceeds the ability to analyse, interpret and translate this
information back into the clinical management, highlighting the need to increase clinical
analytical capabilities. The use of bioinformatics and computational biology to combine
metagenomics data relating to the gut microbiota and metadata (patient characteristics;
phenotype/genotype) is one approach to identify and predict what factors, such as drugs,
phenotype and genotype, induce gut microbiota dysbiosis.
Elucidating the complexity and workings of the gut microbiota in mitochondrial disease
provides a unique approach and deeper understanding of the biology in general, which is
currently lacking in primary mitochondrial disorders. This research will contribute to the
gut microbiome field and provide a novel insight into the complex microbe:microbe and
microbiota-host interactions. The new insights generated here will provide the foundation for
interventional studies aimed at manipulating the gut microbiome and relieving disease burden
in patients with mitochondrial disease and potentially diseases associated with mitochondrial
dysfunction, such as obesity, diabetes and neuro-degenerative disorders such as dementia and
Parkinson's disease.
Objectives
The working hypotheses is that patients with mitochondrial disease experience GI dysmotility,
and that the gut microbiota accentuates clinical disease severity. This study aims to provide
novel information relating to:
1. How does clinical disease severity impact upon the gut microbiota in mitochondrial
patients compared to healthy controls.
2. How diagnostic and therapeutic approaches for mitochondrial disease can be improved.
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