Asymptomatic methylmalonic acidemia in a homozygous MUT mutation (p.P86L)

Deficiency in methylmalonyl‐coenzyme A mutase (MCM) is associated with accumulation of methylmalonic acid (MMA) and clinical outcomes that include early death and neurological impairment. Reported here are two unrelated patients with a homozygous p.P86L mutation in the MUT gene, which encodes MCM, d...

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Veröffentlicht in:	Pediatrics international 2013-12, Vol.55 (6), p.e156-e158
Hauptverfasser:	Underhill, Hunter R, Hahn, Si Houn, Hale, Susan L, Merritt, J Lawrence
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Sprache:	eng
Schlagworte:	Amino Acid Metabolism, Inborn Errors - genetics asymptomatic Asymptomatic Diseases Child, Preschool cobalamin metabolism Female Genes Homozygote Humans Infant, Newborn Male Medical screening Metabolism methylmalonic acidemia Methylmalonyl-CoA Mutase - genetics Mutation Newborn babies newborn screening Pediatrics Vitamin B
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creator	Underhill, Hunter R Hahn, Si Houn Hale, Susan L Merritt, J Lawrence
description	Deficiency in methylmalonyl‐coenzyme A mutase (MCM) is associated with accumulation of methylmalonic acid (MMA) and clinical outcomes that include early death and neurological impairment. Reported here are two unrelated patients with a homozygous p.P86L mutation in the MUT gene, which encodes MCM, diagnosed following newborn screening. This is the first description of a homozygous mutation in the N‐terminal extended segment of the MCM apoenzyme. Both in vitro and in vivo testing did not find a response to supplemental hydroxocobalamin. After discontinuation of hydroxocobalamin in one patient, serum MMA level remained elevated but stable, while urine MMA increased. Both patients have remained asymptomatic with normal development. The observed homozygous p.P86L mutation in the N‐terminal extended segment may yield reduced MCM activity and is refractory to hydroxocobalamin supplementation, while not inducing a metabolically unstable phenotype. These genotype–phenotype associations further enhance the understanding of methylmalonic acidemia, which will continue to improve patient care.
doi_str_mv	10.1111/ped.12195
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Reported here are two unrelated patients with a homozygous p.P86L mutation in the MUT gene, which encodes MCM, diagnosed following newborn screening. This is the first description of a homozygous mutation in the N‐terminal extended segment of the MCM apoenzyme. Both in vitro and in vivo testing did not find a response to supplemental hydroxocobalamin. After discontinuation of hydroxocobalamin in one patient, serum MMA level remained elevated but stable, while urine MMA increased. Both patients have remained asymptomatic with normal development. The observed homozygous p.P86L mutation in the N‐terminal extended segment may yield reduced MCM activity and is refractory to hydroxocobalamin supplementation, while not inducing a metabolically unstable phenotype. 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Reported here are two unrelated patients with a homozygous p.P86L mutation in the MUT gene, which encodes MCM, diagnosed following newborn screening. This is the first description of a homozygous mutation in the N‐terminal extended segment of the MCM apoenzyme. Both in vitro and in vivo testing did not find a response to supplemental hydroxocobalamin. After discontinuation of hydroxocobalamin in one patient, serum MMA level remained elevated but stable, while urine MMA increased. Both patients have remained asymptomatic with normal development. The observed homozygous p.P86L mutation in the N‐terminal extended segment may yield reduced MCM activity and is refractory to hydroxocobalamin supplementation, while not inducing a metabolically unstable phenotype. 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Reported here are two unrelated patients with a homozygous p.P86L mutation in the MUT gene, which encodes MCM, diagnosed following newborn screening. This is the first description of a homozygous mutation in the N‐terminal extended segment of the MCM apoenzyme. Both in vitro and in vivo testing did not find a response to supplemental hydroxocobalamin. After discontinuation of hydroxocobalamin in one patient, serum MMA level remained elevated but stable, while urine MMA increased. Both patients have remained asymptomatic with normal development. The observed homozygous p.P86L mutation in the N‐terminal extended segment may yield reduced MCM activity and is refractory to hydroxocobalamin supplementation, while not inducing a metabolically unstable phenotype. These genotype–phenotype associations further enhance the understanding of methylmalonic acidemia, which will continue to improve patient care.</abstract><cop>Australia</cop><pub>Blackwell Publishing Ltd</pub><pmid>24330302</pmid><doi>10.1111/ped.12195</doi><tpages>3</tpages></addata></record>
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subjects	Amino Acid Metabolism, Inborn Errors - genetics asymptomatic Asymptomatic Diseases Child, Preschool cobalamin metabolism Female Genes Homozygote Humans Infant, Newborn Male Medical screening Metabolism methylmalonic acidemia Methylmalonyl-CoA Mutase - genetics Mutation Newborn babies newborn screening Pediatrics Vitamin B
title	Asymptomatic methylmalonic acidemia in a homozygous MUT mutation (p.P86L)
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