Biochemical Alterations Associated with ALS

Overview

Journal Amyotroph Lateral Scler

Publisher Informa Healthcare

Specialty Neurology

Date 2011 Nov 26

PMID 22117131

Citations 47

Authors

Kay A Lawton

Merit E Cudkowicz

Meredith V Brown

Danny Alexander

Rebecca Caffrey

Jacob E Wulff

Robert Bowser

Robert Lawson

Matt Jaffa

Michael V Milburn

John A Ryals

James D Berry

Affiliations

Soon will be listed here.

Abstract

Our objective was to identify metabolic pathways affected by ALS using non-targeted metabolomics in plasma, comparing samples from healthy volunteers to those from ALS patients. This discovery could become the basis for the identification of therapeutic targets and diagnostic biomarkers of ALS. Two distinct cross-sectional studies were conducted. Plasma was collected from 62 (Study 1) and 99 (Study 2) participants meeting El Escorial criteria for possible, probable, or definite ALS; 69 (Study 1) and 48 (Study 2) healthy controls samples were collected. Global metabolic profiling was used to detect and evaluate biochemical signatures of ALS. Twenty-three metabolites were significantly altered in plasma from ALS patients in both studies. These metabolites include biochemicals in pathways associated with neuronal change, hypermetabolism, oxidative damage, and mitochondrial dysfunction, all of which are proposed disease mechanisms in ALS. The data also suggest possible hepatic dysfunction associated with ALS. In conclusion, the data presented here provide insight into the pathophysiology of ALS while suggesting promising areas of focus for future studies. The metabolomics approach can generate novel hypotheses regarding ALS disease mechanisms with the potential to identify therapeutic targets and novel diagnostic biomarkers.

Citing Articles

Disturbances in Muscle Energy Metabolism in Patients with Amyotrophic Lateral Sclerosis.

Parvanovova P, Hnilicova P, Kolisek M, Tatarkova Z, Halasova E, Kurca E Metabolites. 2024; 14(7).

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Mitochondria: A Promising Convergent Target for the Treatment of Amyotrophic Lateral Sclerosis.

Cunha-Oliveira T, Montezinho L, Simoes R, Carvalho M, Ferreiro E, Silva F Cells. 2024; 13(3.

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Proteomics and mathematical modeling of longitudinal CSF differentiates fast versus slow ALS progression.

Vu L, Garcia-Mansfield K, Pompeiano A, An J, David-Dirgo V, Sharma R Ann Clin Transl Neurol. 2023; 10(11):2025-2042.

PMID: 37646115 PMC: 10647001. DOI: 10.1002/acn3.51890.

A Y374X TDP43 truncation leads to an altered metabolic profile in amyotrophic lateral sclerosis fibroblasts driven by pyruvate and TCA cycle intermediate alterations.

Allen S, Al Sultan A, Kabucho Kibirige E, Tonkiss E, Hamer K, Castelli L Front Aging Neurosci. 2023; 15:1151848.

PMID: 37251807 PMC: 10213779. DOI: 10.3389/fnagi.2023.1151848.

Fatty acids derived from the probiotic Lacticaseibacillus rhamnosus HA-114 suppress age-dependent neurodegeneration.

Labarre A, Guitard E, Tossing G, Forest A, Bareke E, Labrecque M Commun Biol. 2022; 5(1):1340.

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