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Unsupervised machine learning identifies distinct ALS molecular subtypes in post-mortem motor cortex and blood expression data
by
Khleifat, Ahmad Al
, Pfaff, Abigail L
, Marriott, Heather
, Dobson, Richard J
, Kabiljo, Renata
, Hunt, Guy P
, Quinn, John P
, Al-Chalabi, Ammar
, Koks, Sulev
, Iacoangeli, Alfredo
, Jones, Ashley
, Schwab, Patrick
, Troakes, Claire
in
Algorithms
/ Amyotrophic lateral sclerosis
/ Amyotrophic Lateral Sclerosis - pathology
/ Analysis
/ Apoptosis
/ Autopsy
/ Biomarkers
/ Biomedical and Life Sciences
/ Biomedicine
/ Brain
/ Brain - pathology
/ Datasets
/ Development and progression
/ Discriminant analysis
/ Disease
/ Gene expression
/ Genes
/ Genotype & phenotype
/ Humans
/ Machine learning
/ Motor Cortex - metabolism
/ Neurology
/ Neurosciences
/ Pathogenesis
/ Pathology
/ Patient stratification
/ Precision medicine
/ Transcriptomics
/ Unsupervised and supervised machine learning
/ Unsupervised Machine Learning
2023
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Unsupervised machine learning identifies distinct ALS molecular subtypes in post-mortem motor cortex and blood expression data
by
Khleifat, Ahmad Al
, Pfaff, Abigail L
, Marriott, Heather
, Dobson, Richard J
, Kabiljo, Renata
, Hunt, Guy P
, Quinn, John P
, Al-Chalabi, Ammar
, Koks, Sulev
, Iacoangeli, Alfredo
, Jones, Ashley
, Schwab, Patrick
, Troakes, Claire
in
Algorithms
/ Amyotrophic lateral sclerosis
/ Amyotrophic Lateral Sclerosis - pathology
/ Analysis
/ Apoptosis
/ Autopsy
/ Biomarkers
/ Biomedical and Life Sciences
/ Biomedicine
/ Brain
/ Brain - pathology
/ Datasets
/ Development and progression
/ Discriminant analysis
/ Disease
/ Gene expression
/ Genes
/ Genotype & phenotype
/ Humans
/ Machine learning
/ Motor Cortex - metabolism
/ Neurology
/ Neurosciences
/ Pathogenesis
/ Pathology
/ Patient stratification
/ Precision medicine
/ Transcriptomics
/ Unsupervised and supervised machine learning
/ Unsupervised Machine Learning
2023
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Unsupervised machine learning identifies distinct ALS molecular subtypes in post-mortem motor cortex and blood expression data
by
Khleifat, Ahmad Al
, Pfaff, Abigail L
, Marriott, Heather
, Dobson, Richard J
, Kabiljo, Renata
, Hunt, Guy P
, Quinn, John P
, Al-Chalabi, Ammar
, Koks, Sulev
, Iacoangeli, Alfredo
, Jones, Ashley
, Schwab, Patrick
, Troakes, Claire
in
Algorithms
/ Amyotrophic lateral sclerosis
/ Amyotrophic Lateral Sclerosis - pathology
/ Analysis
/ Apoptosis
/ Autopsy
/ Biomarkers
/ Biomedical and Life Sciences
/ Biomedicine
/ Brain
/ Brain - pathology
/ Datasets
/ Development and progression
/ Discriminant analysis
/ Disease
/ Gene expression
/ Genes
/ Genotype & phenotype
/ Humans
/ Machine learning
/ Motor Cortex - metabolism
/ Neurology
/ Neurosciences
/ Pathogenesis
/ Pathology
/ Patient stratification
/ Precision medicine
/ Transcriptomics
/ Unsupervised and supervised machine learning
/ Unsupervised Machine Learning
2023
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Unsupervised machine learning identifies distinct ALS molecular subtypes in post-mortem motor cortex and blood expression data
Journal Article
Unsupervised machine learning identifies distinct ALS molecular subtypes in post-mortem motor cortex and blood expression data
2023
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Overview
Amyotrophic lateral sclerosis (ALS) displays considerable clinical and genetic heterogeneity. Machine learning approaches have previously been utilised for patient stratification in ALS as they can disentangle complex disease landscapes. However, lack of independent validation in different populations and tissue samples have greatly limited their use in clinical and research settings. We overcame these issues by performing hierarchical clustering on the 5000 most variably expressed autosomal genes from motor cortex expression data of people with sporadic ALS from the KCL BrainBank (N = 112). Three molecular phenotypes linked to ALS pathogenesis were identified: synaptic and neuropeptide signalling, oxidative stress and apoptosis, and neuroinflammation. Cluster validation was achieved by applying linear discriminant analysis models to cases from TargetALS US motor cortex (N = 93), as well as Italian (N = 15) and Dutch (N = 397) blood expression datasets, for which there was a high assignment probability (80–90%) for each molecular subtype. The ALS and motor cortex specificity of the expression signatures were tested by mapping KCL BrainBank controls (N = 59), and occipital cortex (N = 45) and cerebellum (N = 123) samples from TargetALS to each cluster, before constructing case-control and motor cortex-region logistic regression classifiers. We found that the signatures were not only able to distinguish people with ALS from controls (AUC 0.88 ± 0.10), but also reflect the motor cortex-based disease process, as there was perfect discrimination between motor cortex and the other brain regions. Cell types known to be involved in the biological processes of each molecular phenotype were found in higher proportions, reinforcing their biological interpretation. Phenotype analysis revealed distinct cluster-related outcomes in both motor cortex datasets, relating to disease onset and progression-related measures. Our results support the hypothesis that different mechanisms underpin ALS pathogenesis in subgroups of patients and demonstrate potential for the development of personalised treatment approaches. Our method is available for the scientific and clinical community at
https://alsgeclustering.er.kcl.ac.uk
.
Publisher
BioMed Central,BioMed Central Ltd,Nature Publishing Group,BMC
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