Fluxomic evidence for impaired contribution of short-chain acyl-CoA dehydrogenase to mitochondrial palmitate β-oxidation in symptomatic patients with ACADS gene susceptibility variants
Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear...
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| Published in | Clinica chimica acta Vol. 471; pp. 101 - 106 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Netherlands
Elsevier B.V
01.08.2017
Elsevier |
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| Online Access | Get full text |
| ISSN | 0009-8981 1873-3492 1873-3492 |
| DOI | 10.1016/j.cca.2017.05.026 |
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| Abstract | Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear.
De novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16-2H3,15-2H2-palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted β-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a β-oxidation disorder.
Functional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G>A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G>A, 2 compound heterozygous for c.625G>A/c.511C>T).
Our present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal β-oxidation consistent with known altered kinetics of these variants.
•ACADS susceptibility variants (c.511C>T, c.625G>A) are considered to be non-pathogenic.•Fluxomic acylcarnitine profiling documents the site(s) for β-oxidation enzyme blockade.•It also detected symptomatic patients with ACADS susceptibility variants.•In these patients, SCAD contribution to mitochondrial palmitate oxidation was impaired.•This finding is consistent with known altered kinetics of encoded proteins. |
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| AbstractList | Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear.BACKGROUNDDespite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear.De novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16-2H3,15-2H2-palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted β-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a β-oxidation disorder.METHODSDe novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16-2H3,15-2H2-palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted β-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a β-oxidation disorder.Functional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G>A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G>A, 2 compound heterozygous for c.625G>A/c.511C>T).RESULTSFunctional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G>A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G>A, 2 compound heterozygous for c.625G>A/c.511C>T).Our present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal β-oxidation consistent with known altered kinetics of these variants.CONCLUSIONOur present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal β-oxidation consistent with known altered kinetics of these variants. Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear. De novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16- H ,15- H -palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted β-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a β-oxidation disorder. Functional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G>A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G>A, 2 compound heterozygous for c.625G>A/c.511C>T). Our present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal β-oxidation consistent with known altered kinetics of these variants. Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid β-oxidation still remains, however, unclear. De novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16-2H3,15-2H2-palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted β-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a β-oxidation disorder. Functional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G>A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G>A, 2 compound heterozygous for c.625G>A/c.511C>T). Our present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal β-oxidation consistent with known altered kinetics of these variants. •ACADS susceptibility variants (c.511C>T, c.625G>A) are considered to be non-pathogenic.•Fluxomic acylcarnitine profiling documents the site(s) for β-oxidation enzyme blockade.•It also detected symptomatic patients with ACADS susceptibility variants.•In these patients, SCAD contribution to mitochondrial palmitate oxidation was impaired.•This finding is consistent with known altered kinetics of encoded proteins. Background: Despite ACADS (aryl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C \textgreater T and c.625G \textgreater A) are considered to be non-pathogenic, encoded proteins are known to exhibit altered kinetics. Whether or not, they might affect overall fatty acid beta-oxidation still remains, however, unclear. Methods: De novo biosynthesis of acylcarnitines by whole blood samples incubated with deuterated palmitate (16-H-2(3),15-H-2(2)-palmitate) is suitable as a fluxomic exploration to distinguish between normal and disrupted beta-oxidation, abnormal profiles and ratios of acylcarnitines with different chain-lengths being indicative of the site for enzymatic blockade. Determinations in 301 control subjects of ratios between deuterated butyrylcarnitine and sum of deuterated C2 to C14 acylcarnitines served here as reference values to state specifically functional SCAD impairment in patients addressed for clinical and/or biological suspicion of a beta-oxidation disorder. Results: Functional SCAD impairment was found in 39 patients. The 27 patients accepting subsequent gene studies were all positive for ACADS mutations. Twenty-six of 27 patients were positive for c.625G \textgreater A variant. Twenty-three of 27 patients harbored susceptibility variants as sole ACADS alterations (18 homozygous and 3 heterozygous for c.625G \textgreater A, 2 compound heterozygous for c.625G \textgreater A/c.511C \textgreater T). Conclusion: Our present fluxomic assessment of SCAD suggests a link between ACADS susceptibility variants and abnormal beta-oxidation consistent with known altered kinetics of these variants. |
| Author | Vamecq, Joseph Dessein, Anne-Frédérique Acquaviva, Cécile Lamireau, Delphine Gregersen, Niels Joncquel-Chevalier Curt, Marie Kuster, Alice Lacour, Arnaud de Lonlay, Pascale Fontaine, Monique Minot-Myhié, Marie-Christine Redonnet-Vernhet, Isabelle Douillard, Claire Barth, Magalie Dobbelaere, Dries Mention-Mulliez, Karine Briand, Gilbert Sechter, Claire Vianey-Saban, Christine |
| Author_xml | – sequence: 1 givenname: Anne-Frédérique surname: Dessein fullname: Dessein, Anne-Frédérique organization: Department of Biochemistry and Molecular Biology, Laboratory of Hormonology, Metabolism-Nutrition & Oncology (HMNO), Center of Biology and Pathology (CBP) Pierre-Marie Degand, CHRU Lille, France – sequence: 2 givenname: Monique surname: Fontaine fullname: Fontaine, Monique organization: Department of Biochemistry and Molecular Biology, Laboratory of Hormonology, Metabolism-Nutrition & Oncology (HMNO), Center of Biology and Pathology (CBP) Pierre-Marie Degand, CHRU Lille, France – sequence: 3 givenname: Marie surname: Joncquel-Chevalier Curt fullname: Joncquel-Chevalier Curt, Marie organization: Department of Biochemistry and Molecular Biology, Laboratory of Hormonology, Metabolism-Nutrition & Oncology (HMNO), Center of Biology and Pathology (CBP) Pierre-Marie Degand, CHRU Lille, France – sequence: 4 givenname: Gilbert surname: Briand fullname: Briand, Gilbert organization: Department of Biochemistry and Molecular Biology, Laboratory of Hormonology, Metabolism-Nutrition & Oncology (HMNO), Center of Biology and Pathology (CBP) Pierre-Marie Degand, CHRU Lille, France – sequence: 5 givenname: Claire surname: Sechter fullname: Sechter, Claire organization: Medical Reference Center for Inherited Metabolic Diseases, Jeanne de Flandre Hospital, CHRU Lille, France – sequence: 6 givenname: Karine surname: Mention-Mulliez fullname: Mention-Mulliez, Karine organization: Univ. Lille, EA 7364 — RADEME — Maladies RAres du Développement et du Métabolisme: du phénotype au génotype et à la Fonction, Lille, France – sequence: 7 givenname: Dries surname: Dobbelaere fullname: Dobbelaere, Dries organization: Univ. Lille, EA 7364 — RADEME — Maladies RAres du Développement et du Métabolisme: du phénotype au génotype et à la Fonction, Lille, France – sequence: 8 givenname: Claire surname: Douillard fullname: Douillard, Claire organization: Medical Reference Center for Inherited Metabolic Diseases, Jeanne de Flandre Hospital, CHRU Lille, France – sequence: 9 givenname: Arnaud surname: Lacour fullname: Lacour, Arnaud organization: Medical Reference Center for Adult Neuromuscular Diseases, Roger Salengro Hospital, CHRU Lille, France – sequence: 10 givenname: Isabelle surname: Redonnet-Vernhet fullname: Redonnet-Vernhet, Isabelle organization: Paediatric Intensive Care Unit (DL) and Department of Biochemistry, Laboratory of Inborn Errors of Metabolism and Neonatal Screening (IR-V), Hôpital Pellegrin, CHU Bordeaux, France – sequence: 11 givenname: Delphine surname: Lamireau fullname: Lamireau, Delphine organization: Paediatric Intensive Care Unit (DL) and Department of Biochemistry, Laboratory of Inborn Errors of Metabolism and Neonatal Screening (IR-V), Hôpital Pellegrin, CHU Bordeaux, France – sequence: 12 givenname: Magalie surname: Barth fullname: Barth, Magalie organization: Metabolic Diseases and Genetics, CHU Angers, France – sequence: 13 givenname: Marie-Christine surname: Minot-Myhié fullname: Minot-Myhié, Marie-Christine organization: Cabinet de neurologie & CHU Rennes, France – sequence: 14 givenname: Alice surname: Kuster fullname: Kuster, Alice organization: Inborn Errors of Metabolism, Pediatric Intensive Care Unit, University Hospital of Nantes, France – sequence: 15 givenname: Pascale surname: de Lonlay fullname: de Lonlay, Pascale organization: Reference Center for Inherited Metabolic Diseases, Hôpital Necker, Institut Imagine, Faculté Paris Descartes & Hôpital Necker-Enfants Malades, Paris, France – sequence: 16 givenname: Niels surname: Gregersen fullname: Gregersen, Niels organization: Research Unit for Molecular Medicine, Institute of Clinical Medicine, Aarhus University, Denmark – sequence: 17 givenname: Cécile surname: Acquaviva fullname: Acquaviva, Cécile organization: Department of Inborn Errors of Metabolism and Neonatal Screening, Center of Biology and Pathology, CHU Lyon, Bron, France – sequence: 18 givenname: Christine surname: Vianey-Saban fullname: Vianey-Saban, Christine organization: Department of Inborn Errors of Metabolism and Neonatal Screening, Center of Biology and Pathology, CHU Lyon, Bron, France – sequence: 19 givenname: Joseph surname: Vamecq fullname: Vamecq, Joseph email: joseph.vamecq@inserm.fr organization: Department of Biochemistry and Molecular Biology, Laboratory of Hormonology, Metabolism-Nutrition & Oncology (HMNO), Center of Biology and Pathology (CBP) Pierre-Marie Degand, CHRU Lille, France |
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| Cites_doi | 10.1001/jama.296.8.943 10.1007/s10545-010-9080-z 10.1016/j.cca.2009.04.026 10.1007/s10545-005-0557-0 10.1021/bi026030r 10.1016/S1096-7192(03)00034-9 10.1186/1750-1172-5-26 10.1007/8904_2011_94 10.1203/00006450-200101000-00008 10.1007/s00439-008-0521-9 10.1093/hmg/7.4.619 10.1007/s10545-014-9684-9 10.1007/s003359900612 10.1007/s10545-008-0990-y |
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| Copyright | 2017 Elsevier B.V. Copyright © 2017 Elsevier B.V. All rights reserved. Distributed under a Creative Commons Attribution 4.0 International License |
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| Keywords | SCAD deficiency ACADS susceptibility variants (c.511C>T and c.625G>A) SCAD functional impairment In situ fluxomic assessment of protein function ACADS Short-chain acyl-CoA dehydrogenase [SCAD] ACADS pathogenic mutation POPULATION SCAD GENE of protein function ACADS susceptibility variants (c.511C \textgreater T SCAD functional DEFICIENCY impairment and c.625G \textgreater A FREQUENCY ACADS Short-chain acyl-CoA dehydrogenase [SCAD] COMMON In situ fluxomic assessment NEWBORN BLOOD SPOTS |
| Language | English |
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| Snippet | Despite ACADS (acyl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C>T and c.625G>A) are considered to be non-pathogenic, encoded proteins... Background: Despite ACADS (aryl-CoA dehydrogenase, short-chain) gene susceptibility variants (c.511C \textgreater T and c.625G \textgreater A) are considered... |
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| SubjectTerms | ACADS ACADS pathogenic mutation ACADS susceptibility variants (c.511C > T and c.625G > A) Acyl-CoA Dehydrogenase - deficiency Acyl-CoA Dehydrogenase - genetics Child, Preschool Female Genetic Predisposition to Disease - genetics Genotype Humans In situ fluxomic assessment of protein function Infant Infant, Newborn Life Sciences Male Metabolic Flux Analysis Mitochondria - metabolism Oxidation-Reduction Palmitic Acid - metabolism Phenotype Polymorphism, Single Nucleotide SCAD deficiency SCAD functional impairment Short-chain acyl-CoA dehydrogenase [SCAD] |
| Title | Fluxomic evidence for impaired contribution of short-chain acyl-CoA dehydrogenase to mitochondrial palmitate β-oxidation in symptomatic patients with ACADS gene susceptibility variants |
| URI | https://dx.doi.org/10.1016/j.cca.2017.05.026 https://www.ncbi.nlm.nih.gov/pubmed/28532786 https://www.proquest.com/docview/1901752679 https://hal.science/hal-01848152 |
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