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Neurological damage in MSUD: the role of oxidative stress.

Cellular and molecular neurobiology
March 1, 2014
Angela Sitta et al. (6 authors)
Journal ArticleReviewHuman StudyMolecular Study
Extracted Claims (7)
InterventionDirectionEndpointPopulationDosageImpactClaim #
protein-restricted diet and supplementation with a specific formula containing essential amino acids (except BCAA) and micronutrients
decrease
neurological symptoms
patients with MSUD
-
avoid the appearance of
#1
metabolites accumulated in the disease
increase
morphological alterations
C6 glioma cells
-
induce
#2
metabolites accumulated in the disease
increase
nitrogen reactive species
C6 glioma cells
-
generation
#3
protein-restricted diets
decrease
levels of important antioxidants
animal models and MSUD patients
-
decrease
#4
high production of free radicals
increase
markers of lipid, protein, and DNA oxidative damage
MSUD
-
reported
#5
oxidative stress
increase
brain damage
MSUD
-
contributes to
#6
appropriate antioxidants
decrease
neurological damage
MSUD patients
-
prevention of
#7
Abstract

Maple syrup urine disease (MSUD) is a metabolic disease caused by a deficiency in the branched-chain α-keto acid dehydrogenase complex, leading to the accumulation of branched-chain keto acids and their corresponding branched-chain amino acids (BCAA) in patients. Treatment involves protein-restricted diet and the supplementation with a specific formula containing essential amino acids (except BCAA) and micronutrients, in order to avoid the appearance of neurological symptoms. Although the accumulation of toxic metabolites is associated to appearance of symptoms, the mechanisms underlying the brain damage in MSUD remain unclear, and new evidence has emerged indicating that oxidative stress contributes to this damage. In this context, this review addresses some of the recent findings obtained from cells lines, animal studies, and from patients indicating that oxidative stress is an important determinant of the pathophysiology of MSUD. Recent works have shown that the metabolites accumulated in the disease induce morphological alterations in C6 glioma cells through nitrogen reactive species generation. In addition, several works demonstrated that the levels of important antioxidants decrease in animal models and also in MSUD patients (what have been attributed to protein-restricted diets). Also, markers of lipid, protein, and DNA oxidative damage have been reported in MSUD, probably secondary to the high production of free radicals. Considering these findings, it is well-established that oxidative stress contributes to brain damage in MSUD, and this review offers new perspectives for the prevention of the neurological damage in MSUD, which may include the use of appropriate antioxidants as a novel adjuvant therapy for patients.

Medical Subject Headings (MeSH)
AnimalsAntioxidantsDisease Models, AnimalFree RadicalsHumansMaple Syrup Urine DiseaseNervous SystemOxidative Stress
Study Links
Citation Metrics
Total Citations47
Citations/Year4.3
Relative Citation Ratio1.95
NIH Percentile73.8%
Research Impact Scores
APT Score0.75
Related Supplements
Neurological damage in MSUD: the role of oxidative stress. | Panacea Index