[PDF][PDF] A new genetic disorder in mitochondrial fatty acid β-oxidation: ACAD9 deficiency

M He, SL Rutledge, DR Kelly, CA Palmer… - The American Journal of …, 2007 - cell.com
M He, SL Rutledge, DR Kelly, CA Palmer, G Murdoch, N Majumder, RD Nicholls, Z Pei…
The American Journal of Human Genetics, 2007cell.com
The acyl-CoA dehydrogenases are a family of multimeric flavoenzymes that catalyze the α, β-
dehydrogenation of acyl-CoA esters in fatty acid β-oxidation and amino acid catabolism.
Genetic defects have been identified in most of the acyl-CoA dehydrogenases in humans.
Acyl-CoA dehydrogenase 9 (ACAD9) is a recently identified acyl-CoA dehydrogenase that
demonstrates maximum activity with unsaturated long-chain acyl-CoAs. We now report three
cases of ACAD9 deficiency. Patient 1 was a 14-year-old, previously healthy boy who died of …
The acyl-CoA dehydrogenases are a family of multimeric flavoenzymes that catalyze the α,β-dehydrogenation of acyl-CoA esters in fatty acid β-oxidation and amino acid catabolism. Genetic defects have been identified in most of the acyl-CoA dehydrogenases in humans. Acyl-CoA dehydrogenase 9 (ACAD9) is a recently identified acyl-CoA dehydrogenase that demonstrates maximum activity with unsaturated long-chain acyl-CoAs. We now report three cases of ACAD9 deficiency. Patient 1 was a 14-year-old, previously healthy boy who died of a Reye-like episode and cerebellar stroke triggered by a mild viral illness and ingestion of aspirin. Patient 2 was a 10-year-old girl who first presented at age 4 mo with recurrent episodes of acute liver dysfunction and hypoglycemia, with otherwise minor illnesses. Patient 3 was a 4.5-year-old girl who died of cardiomyopathy and whose sibling also died of cardiomyopathy at age 21 mo. Mild chronic neurologic dysfunction was reported in all three patients. Defects in ACAD9 mRNA were identified in the first two patients, and all patients manifested marked defects in ACAD9 protein. Despite a significant overlap of substrate specificity, it appears that ACAD9 and very-long-chain acyl-CoA dehydrogenase are unable to compensate for each other in patients with either deficiency. Studies of the tissue distribution and gene regulation of ACAD9 and very-long-chain acyl-CoA dehydrogenase identify the presence of two independently regulated functional pathways for long-chain fat metabolism, indicating that these two enzymes are likely to be involved in different physiological functions.
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