Association between coenzyme Q10 and glucose transporter (GLUT1) deficiency

It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q10 deficie...

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Published inBMC pediatrics Vol. 14; no. 1; p. 284
Main Authors Yubero, Delia, O'Callaghan, Mar, Montero, Raquel, Ormazabal, Aida, Armstrong, Judith, Espinos, Carmina, Rodríguez, Maria A, Jou, Cristina, Castejon, Esperanza, Aracil, Maria A, Cascajo, Maria V, Gavilan, Angela, Briones, Paz, Jimenez-Mallebrera, Cecilia, Pineda, Mercedes, Navas, Plácido, Artuch, Rafael
Format Journal Article
LanguageEnglish
Published England BioMed Central Ltd 08.11.2014
BioMed Central
Subjects
Adolescent
Ataxia
Ataxia - diagnosis
Ataxia - diet therapy
Ataxia - etiology
Biopsy
Biosynthesis
Case Report
Case studies
Cation Transport Proteins
Children
Consent
Diet, Ketogenic
Dietary Supplements
Disease
Epilepsy
Female
Glucose
Glucose Transporter Type 1 - deficiency
Glucose Transporter Type 1 - genetics
Growth rate
Health aspects
Humans
Medical research
Medicine, Experimental
Metabolic disorders
Mitochondrial Diseases - diagnosis
Mitochondrial Diseases - diet therapy
Mitochondrial Diseases - etiology
Muscle Weakness - diagnosis
Muscle Weakness - diet therapy
Muscle Weakness - etiology
Mutation
Nutrition research
Pathogenesis
Patients
Physiological aspects
Rodents
Sodium-Hydrogen Exchanger 1
Sodium-Hydrogen Exchangers
Studies
Ubiquinone - analogs & derivatives
Ubiquinone - deficiency
Ubiquinone - therapeutic use
Vitamins - therapeutic use
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Abstract It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q10 deficiency in a pediatric patient. We report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q10 was deficient both in muscle and fibroblasts. Coenzyme Q10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q10 deficiency in GLUT1 mutant cells when compared with controls. Our results suggest that coenzyme Q10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
AbstractList BACKGROUNDIt has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q10 deficiency in a pediatric patient.CASE PRESENTATIONWe report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q10 was deficient both in muscle and fibroblasts. Coenzyme Q10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q10 deficiency in GLUT1 mutant cells when compared with controls.CONCLUSIONOur results suggest that coenzyme Q10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q10 deficiency in a pediatric patient. We report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q10 was deficient both in muscle and fibroblasts. Coenzyme Q10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q10 deficiency in GLUT1 mutant cells when compared with controls. Our results suggest that coenzyme Q10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q.sub.10 deficiency in a pediatric patient. Our results suggest that coenzyme Q.sub.10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
Background It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q.sub.10 deficiency in a pediatric patient. Case presentation We report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q.sub.10 was deficient both in muscle and fibroblasts. Coenzyme Q.sub.10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q.sub.10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q.sub.10 deficiency in GLUT1 mutant cells when compared with controls. Conclusion Our results suggest that coenzyme Q.sub.10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients. Keywords: Glucose transporter type I deficiency, SLC2A1 gene, Coenzyme Q10, Ataxia, Ketogenic diet
BACKGROUND: It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q10 deficiency in a pediatric patient. CASE PRESENTATION: We report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q10 was deficient both in muscle and fibroblasts. Coenzyme Q10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q10 deficiency in GLUT1 mutant cells when compared with controls. CONCLUSION: Our results suggest that coenzyme Q10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
Doc number: 284 Abstract Background: It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid biosynthesis could contribute to secondary CoQ deficiency. We report here, for the first time an association between GLUT1 and coenzyme Q 10 deficiency in a pediatric patient. Case presentation: We report a 15 year-old girl with truncal ataxia, nystagmus, dysarthria and myoclonic epilepsy as the main clinical features. Blood lactate and alanine values were increased, and coenzyme Q10 was deficient both in muscle and fibroblasts. Coenzyme Q10 supplementation was initiated, improving ataxia and nystagmus. Since dysarthria and myoclonic epilepsy persisted, a lumbar puncture was performed at 12 years of age disclosing diminished cerebrospinal glucose concentrations. Diagnosis of GLUT1 deficiency was confirmed by the presence of a de novo heterozygous variant (c.18+2T>G) in the SLC2A1 gene. No mutations were found in coenzyme Q10 biosynthesis related genes. A ketogenic diet was initiated with an excellent clinical outcome. Functional studies in fibroblasts supported the potential pathogenicity of coenzyme Q10 deficiency in GLUT1 mutant cells when compared with controls. Conclusion: Our results suggest that coenzyme Q10 deficiency might be a new factor in the pathogenesis of G1D, although this deficiency needs to be confirmed in a larger group of G1D patients as well as in animal models. Although ketogenic diet seems to correct the clinical consequences of CoQ deficiency, adjuvant treatment with CoQ could be trialled in this condition if our findings are confirmed in further G1D patients.
ArticleNumber 284
Audience Academic
Author Gavilan, Angela
O'Callaghan, Mar
Castejon, Esperanza
Jou, Cristina
Ormazabal, Aida
Yubero, Delia
Espinos, Carmina
Jimenez-Mallebrera, Cecilia
Armstrong, Judith
Montero, Raquel
Aracil, Maria A
Artuch, Rafael
Rodríguez, Maria A
Briones, Paz
Pineda, Mercedes
Navas, Plácido
Cascajo, Maria V
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Yubero et al.; licensee BioMed Central Ltd. 2014
Copyright_xml – notice: COPYRIGHT 2014 BioMed Central Ltd.
– notice: 2014 Yubero et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
– notice: Yubero et al.; licensee BioMed Central Ltd. 2014
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Snippet It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient lipid...
Background It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient...
Doc number: 284 Abstract Background: It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid...
BACKGROUNDIt has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient...
BACKGROUND: It has been demonstrated that glucose transporter (GLUT1) deficiency in a mouse model causes a diminished cerebral lipid synthesis. This deficient...
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SubjectTerms Adolescent
Ataxia
Ataxia - diagnosis
Ataxia - diet therapy
Ataxia - etiology
Biopsy
Biosynthesis
Case Report
Case studies
Cation Transport Proteins
Children
Consent
Diet, Ketogenic
Dietary Supplements
Disease
Epilepsy
Female
Glucose
Glucose Transporter Type 1 - deficiency
Glucose Transporter Type 1 - genetics
Growth rate
Health aspects
Humans
Medical research
Medicine, Experimental
Metabolic disorders
Mitochondrial Diseases - diagnosis
Mitochondrial Diseases - diet therapy
Mitochondrial Diseases - etiology
Muscle Weakness - diagnosis
Muscle Weakness - diet therapy
Muscle Weakness - etiology
Mutation
Nutrition research
Pathogenesis
Patients
Physiological aspects
Rodents
Sodium-Hydrogen Exchanger 1
Sodium-Hydrogen Exchangers
Studies
Ubiquinone - analogs & derivatives
Ubiquinone - deficiency
Ubiquinone - therapeutic use
Vitamins - therapeutic use
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Title Association between coenzyme Q10 and glucose transporter (GLUT1) deficiency
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