Qualitative evaluation of the symptoms and quality of life impacts of long-chain fatty acid oxidation disorders

Background: Long-chain fatty acid oxidation disorders (LC-FAOD) are a group of rare autosomal-recessive genetic disorders characterized by metabolic deficiencies in which the body is unable to convert long-chain fatty acids into energy. To date, however, there is limited understanding of the patient experience of LC-FAOD. Methods: The symptoms, observable signs, and quality of life (QoL) impacts associated with LC-FAOD were explored via a focus group ( n = 8) and semi-structured interviews ( n = 6) with patients and caregivers of patients with LC-FAOD, and interviews ( n = 4) with expert clinicians. Data were analyzed via thematic analysis and summarized in a conceptual model. Results: Participants reported a wide range of signs and symptoms associated with LC-FAOD, broadly categorized as musculoskeletal, endocrine/nutritional/metabolic, neurological, gastrointestinal/digestive, sensory, cardiovascular, respiratory, urological, and constitutional. LC-FAOD were reported to have a significant impact on various aspects of patients’ lives including physical functioning, participation in daily activities, emotional/psychological wellbeing, and social functioning. Lifestyle modifications (such as diet and exercise restrictions) were necessary because of the condition. Symptoms were typically episodic in presentation often arising or exacerbated during catabolic conditions such as prolonged exercise, fasting, physiological stress, and illness/infection. Symptoms were also commonly reported to lead to emergency room visits, hospitalization, and clinical complications. Conclusion: LC-FAOD have a considerable impact on patients’ lives. There is a high degree of concordance in the signs, symptoms, and impacts of LC-FAOD reported by patients, caregivers, and clinicians; however, there were many symptoms and impacts that were only reported by patients and caregivers, thus demonstrating that insights from patient/caregiver experience data are integral for informing medical product development and facilitating patient-centered care.

Lipidomic and Proteomic Alterations Induced by Even and Odd Medium-Chain Fatty Acids on Fibroblasts of Long-Chain Fatty Acid Oxidation Disorders

Medium-chain fatty acids (mc-FAs) are currently applied in the treatment of long-chain fatty acid oxidation disorders (lc-FAOD) characterized by impaired β-oxidation. Here, we performed lipidomic and proteomic analysis in fibroblasts from patients with very long-chain acyl-CoA dehydrogenase (VLCADD) and long-chain 3-hydroxyacyl-CoA dehydrogenase (LCHADD) deficiencies after incubation with heptanoate (C7) and octanoate (C8). Defects of β-oxidation induced striking proteomic alterations, whereas the effect of treatment with mc-FAs was minor. However, mc-FAs induced a remodeling of complex lipids. Especially C7 appeared to act protectively by restoring sphingolipid biosynthesis flux and improving the observed dysregulation of protein homeostasis in LCHADD under control conditions.

Identification of c.199-10T>G mutation in SLC25A20 gene related to fatty acid oxidation disorders on a Vietnamese patient

Fatty acid oxidation disorders (FAODS) consist of rare diseases which affect the energy production of the mitochrondria by disrupting the β-oxidation of fatty acid, resulting in energy deficiency and toxic acumulation in the patient’s body. Typical clinical symtoms of FAODS include rhabdomyolysis, myoglobinuria, cardiomyopathy, hypoketotic hypoglycemia and liver dysfunction on the newborns and could lead to mortality in most of the cases. Mutations occur in different genes in the enzymatic pathway of the mitochrondria may cause diffirent types of FAODS.The objective of this study was to screen and identify genetic mutations associated with fatty acid oxidation disorders in Vietnamese patients through whole exome sequencing analysis. The result revealed a reported homozygous c.199-10T>G mutation in the position of 10 nucleotides before the exon 3 of the SLC25A20 gene. The SLC25A20 gene encodes the carnitine acylcarnitine translocase (CACT), which plays an important role in transporting acylcarnitine and carnitine in the mitochondria. Genetic mutations in this gene often lead to carnitine-acylcarnitine translocase deficiency (CACTD) - a rare form of FAODs. By in silico analysis, the c.199-10T>G mutation was predicted as a splite site mutation that could lead to exon skipping during the creation of mature mRNA. Genetic analysis of the patient’s family showed that both parents had the mutation c.199-10T>G in heterozygous form. This result suggests that every mutant allele in the patient is inherited from parents. Our finding not only improved our understanding of the c.199-10T>G mutation in SLC25A20 gene of our patient but also provides important information for future research, diagnosis and genetic counseling of FAOS in Vietnamese patients.

Different Lipid Signature in Fibroblasts of Long-Chain Fatty Acid Oxidation Disorders

Long-chain fatty acid oxidation disorders (lc-FAOD) are a group of diseases affecting the degradation of long-chain fatty acids. In order to investigate the disease specific alterations of the cellular lipidome, we performed undirected lipidomics in fibroblasts from patients with carnitine palmitoyltransferase II, very long-chain acyl-CoA dehydrogenase, and long-chain 3-hydroxyacyl-CoA dehydrogenase. We demonstrate a deep remodeling of mitochondrial cardiolipins. The aberrant phosphatidylcholine/phosphatidylethanolamine ratio and the increased content of plasmalogens and of lysophospholipids support the theory of an inflammatory phenotype in lc-FAOD. Moreover, we describe increased ratios of sphingomyelin/ceramide and sphingomyelin/hexosylceramide in LCHAD deficiency which may contribute to the neuropathic phenotype of LCHADD/mitochondrial trifunctional protein deficiency.