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Protein Network Analysis Reveals a Functional Connectivity of Dysregulated Processes in ALS and SMA
Author(s) -
Sabrina Kubinski,
Peter Claus
Publication year - 2022
Publication title -
neuroscience insights
Language(s) - English
Resource type - Journals
ISSN - 2633-1055
DOI - 10.1177/26331055221087740
Subject(s) - amyotrophic lateral sclerosis , sma* , biology , in silico , phenotype , spinal muscular atrophy , neuroscience , actin cytoskeleton , actin , cytoskeleton , disease , microbiology and biotechnology , computational biology , gene , genetics , medicine , pathology , mathematics , combinatorics , cell
Spinal Muscular Atrophy (SMA) and Amyotrophic Lateral Sclerosis (ALS) are neurodegenerative diseases which are characterized by the loss of motoneurons within the central nervous system. SMA is a monogenic disease caused by reduced levels of the Survival of motoneuron protein, whereas ALS is a multi-genic disease with over 50 identified disease-causing genes and involvement of environmental risk factors. Although these diseases have different causes, they partially share identical phenotypes and pathomechanisms. To analyze and identify functional connections and to get a global overview of altered pathways in both diseases, protein network analyses are commonly used. Here, we used an in silico tool to test for functional associations between proteins that are involved in actin cytoskeleton dynamics, fatty acid metabolism, skeletal muscle metabolism, stress granule dynamics as well as SMA or ALS risk factors, respectively. In network biology, interactions are represented by edges which connect proteins (nodes). Our approach showed that only a few edges are necessary to present a complex protein network of different biological processes. Moreover, Superoxide dismutase 1, which is mutated in ALS, and the actin-binding protein profilin1 play a central role in the connectivity of the aforementioned pathways. Our network indicates functional links between altered processes that are described in either ALS or SMA. These links may not have been considered in the past but represent putative targets to restore altered processes and reveal overlapping pathomechanisms in both diseases.

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