Lysosomal Re-acidification Prevents Lysosphingolipid-Induced Lysosomal Impairment and Cellular Toxicity
Autor: | Nicole Scott-Hewitt, Margot Mayer-Pröschel, Christoph Pröschel, Mark Noble, Christopher J. Folts |
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Jazyk: | angličtina |
Rok vydání: | 2016 |
Předmět: |
0301 basic medicine
Toxicology Pathology and Laboratory Medicine Biochemistry Mechanical Treatment of Specimens Infographics Mice Myelin Medicine and Health Sciences Cell Cycle and Cell Division Biology (General) Cell Disruption Stem Cells General Neuroscience Animal Models Lipids 3. Good health Cell biology medicine.anatomical_structure Specimen Disruption Cell Processes Protective Agents Toxicity Cellular Structures and Organelles Stem cell General Agricultural and Biological Sciences Graphs Research Article Computer and Information Sciences QH301-705.5 Toxic Agents Central nervous system Mouse Models Biology Research and Analysis Methods General Biochemistry Genetics and Molecular Biology 03 medical and health sciences Model Organisms medicine Animals Humans Sphingolipids General Immunology and Microbiology Data Visualization Colforsin Biology and Life Sciences Cell Biology medicine.disease Sphingolipid Oligodendrocyte Lysosomal Storage Diseases Disease Models Animal 030104 developmental biology Specimen Preparation and Treatment Krabbe disease Lysosomes Acids |
Zdroj: | PLoS Biology, Vol 14, Iss 12, p e1002583 (2016) PLoS Biology |
ISSN: | 1545-7885 1544-9173 |
Popis: | Neurodegenerative lysosomal storage disorders (LSDs) are severe and untreatable, and mechanisms underlying cellular dysfunction are poorly understood. We found that toxic lipids relevant to three different LSDs disrupt multiple lysosomal and other cellular functions. Unbiased drug discovery revealed several structurally distinct protective compounds, approved for other uses, that prevent lysosomal and cellular toxicities of these lipids. Toxic lipids and protective agents show unexpected convergence on control of lysosomal pH and re-acidification as a critical component of toxicity and protection. In twitcher mice (a model of Krabbe disease [KD]), a central nervous system (CNS)-penetrant protective agent rescued myelin and oligodendrocyte (OL) progenitors, improved motor behavior, and extended lifespan. Our studies reveal shared principles relevant to several LSDs, in which diverse cellular and biochemical disruptions appear to be secondary to disruption of lysosomal pH regulation by specific lipids. These studies also provide novel protective strategies that confer therapeutic benefits in a mouse model of a severe LSD. Different structurally related lipids from three genetically distinct lysosomal storage disorders are sufficient to cause multiple dysfunctions that converge on disruption of lysosomal pH as a core pathogenic mechanism. Author Summary Neurodegenerative lysosomal storage disorders (LSDs) are severe and untreatable recessive genetic disorders that cause devastating damage to the nervous system. These diseases exhibit severe disruption of lysosomes (a cellular organelle that breaks down lipids and proteins) and other aspects of cell function. However, the means by which mutations cause these dysfunctions are poorly understood. By studying different lipids that accumulate in three different LSDs, we found that lipids with specific shared structures are sufficient to cause multiple lysosomal and cellular dysfunctions, including an abnormal alkalization of the lysosomal pH. We prevented all of these dysfunctions by promoting lysosomal re-acidification and discovered several drugs—already approved for other purposes—with unexpected abilities to restore lysosomal pH and rescue cells. In a genetic mouse model of a severe LSD, one of these compounds decreased tissue damage, improved quality of life, and extended survival. In contrast with previous studies on individual disorders, our study provides novel shared principles relevant to several LSDs and uncovers relevant compounds able to provide multiple benefits in a disease-relevant model in vivo. |
Databáze: | OpenAIRE |
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