Your search keyword '"Juan Miguel Godoy Corchuelo"' showing total 3 results

1. A Transcriptomic Meta-Analysis Shows Lipid Metabolism Dysregulation as an Early Pathological Mechanism in the Spinal Cord of SOD1 Mice

Author

Maria Losa-Fontangordo, Debbie Williams, Juan Miguel Godoy-Corchuelo, Luis C. Fernández-Beltrán, Silvia Corrochano, and Jorge Matías-Guiu

Subjects

Medicina, Degenerative Disorder, QH301-705.5, SOD1, Disease, Bioinformatics, Article, Catalysis, Inorganic Chemistry, Mice, lipid metabolism, Animals, Medicine, Sistema musculoesquelético, Physical and Theoretical Chemistry, Amyotrophic lateral sclerosis, Biology (General), Molecular Biology, Pathological, QD1-999, Psiquiatría, Spectroscopy, business.industry, Amyotrophic Lateral Sclerosis, Organic Chemistry, cholesterol, Lipid metabolism, General Medicine, Motor neuron, Spinal cord, medicine.disease, Computer Science Applications, meta-analysis, Disease Models, Animal, Chemistry, medicine.anatomical_structure, Spinal Cord, Steroid Hydroxylases, Female, ALS, RNA-seq, Transcriptome, business

Abstract

Amyotrophic lateral sclerosis (ALS) is a multifactorial and complex fatal degenerative disorder. A number of pathological mechanisms that lead to motor neuron death have been identified, although there are many unknowns in the disease aetiology of ALS. Alterations in lipid metabolism are well documented in the progression of ALS, both at the systemic level and in the spinal cord of mouse models and ALS patients. The origin of these lipid alterations remains unclear. This study aims to identify early lipid metabolic pathways altered before systemic metabolic symptoms in the spinal cord of mouse models of ALS. To do this, we performed a transcriptomic analysis of the spinal cord of SOD1G93A mice at an early disease stage, followed by a robust transcriptomic meta-analysis using publicly available RNA-seq data from the spinal cord of SOD1 mice at early and late symptomatic disease stages. The meta-analyses identified few lipid metabolic pathways dysregulated early that were exacerbated at symptomatic stages, mainly cholesterol biosynthesis, ceramide catabolism, and eicosanoid synthesis pathways. We present an insight into the pathological mechanisms in ALS, confirming that lipid metabolic alterations are transcriptionally dysregulated and are central to ALS aetiology, opening new options for the treatment of these devastating conditions.

Published

2021

2. Lipid Metabolic Alterations in the ALS–FTD Spectrum of Disorders

Author

Juan Miguel Godoy-Corchuelo, Luis C. Fernández-Beltrán, Zeinab Ali, María J. Gil-Moreno, Juan I. López-Carbonero, Antonio Guerrero-Sola, Angélica Larrad-Sainz, Jorge Matias-Guiu, Jordi A. Matias-Guiu, Thomas J. Cunningham, and Silvia Corrochano

Subjects

lipid metabolism, ALS, FTD, lipidomics, cholesterol, Biology (General), QH301-705.5

Abstract

There is an increasing interest in the study of the relation between alterations in systemic lipid metabolism and neurodegenerative disorders, in particular in Amyotrophic Lateral Sclerosis (ALS) and Frontotemporal Dementia (FTD). In ALS these alterations are well described and evident not only with the progression of the disease but also years before diagnosis. Still, there are some discrepancies in findings relating to the causal nature of lipid metabolic alterations, partly due to the great clinical heterogeneity in ALS. ALS presentation is within a disorder spectrum with Frontotemporal Dementia (FTD), and many patients present mixed forms of ALS and FTD, thus increasing the variability. Lipid metabolic and other systemic metabolic alterations have not been well studied in FTD, or in ALS–FTD mixed forms, as has been in pure ALS. With the recent development in lipidomics and the integration with other -omics platforms, there is now emerging data that not only facilitates the identification of biomarkers but also enables understanding of the underlying pathological mechanisms. Here, we reviewed the recent literature to compile lipid metabolic alterations in ALS, FTD, and intermediate mixed forms, with a view to appraising key commonalities or differences within the spectrum.

Published

2022

3. A Transcriptomic Meta-Analysis Shows Lipid Metabolism Dysregulation as an Early Pathological Mechanism in the Spinal Cord of SOD1 Mice

Author

Luis C. Fernández-Beltrán, Juan Miguel Godoy-Corchuelo, Maria Losa-Fontangordo, Debbie Williams, Jorge Matias-Guiu, and Silvia Corrochano

Subjects

ALS, SOD1, RNA-seq, lipid metabolism, meta-analysis, cholesterol, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Amyotrophic lateral sclerosis (ALS) is a multifactorial and complex fatal degenerative disorder. A number of pathological mechanisms that lead to motor neuron death have been identified, although there are many unknowns in the disease aetiology of ALS. Alterations in lipid metabolism are well documented in the progression of ALS, both at the systemic level and in the spinal cord of mouse models and ALS patients. The origin of these lipid alterations remains unclear. This study aims to identify early lipid metabolic pathways altered before systemic metabolic symptoms in the spinal cord of mouse models of ALS. To do this, we performed a transcriptomic analysis of the spinal cord of SOD1G93A mice at an early disease stage, followed by a robust transcriptomic meta-analysis using publicly available RNA-seq data from the spinal cord of SOD1 mice at early and late symptomatic disease stages. The meta-analyses identified few lipid metabolic pathways dysregulated early that were exacerbated at symptomatic stages; mainly cholesterol biosynthesis, ceramide catabolism, and eicosanoid synthesis pathways. We present an insight into the pathological mechanisms in ALS, confirming that lipid metabolic alterations are transcriptionally dysregulated and are central to ALS aetiology, opening new options for the treatment of these devastating conditions.

Published

2021