DRP1 Regulation as a Potential Target in Hypoxia-Induced Cerebral Pathology

DRP1 Regulation as a Potential Target in Hypoxia-Induced Cerebral Pathology

The following review considers current concepts concerning the characteristics of DRP1-related mitochondrial division in brain cells during hypoxic-ischemic pathology. The functional role of DRP1 in neurons and astroglia in cerebral ischemia conditions was analyzed. We discuss the potential for regu...

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Veröffentlicht in:Journal of Molecular Pathology 2023-12, Vol.4 (4), p.333-348
Hauptverfasser: Fedorova, Evgenia N., Egorova, Anna V., Voronkov, Dmitry N., Mudzhiri, Natalia M., Baranich, Tatiana I., Glinkina, Valeria V., Krapivkin, Alexey I., Mamedov, Ilgar S., Sukhorukov, Vladimir S.
Format: Artikel
Sprache:eng
Schlagworte:
Apoptosis
Astrocytes
Biosynthesis
brain
DRP1
Hypoxia
Ischemia
Kinases
mdivi-1
Microglia
Mitochondria
mitochondrial fission
Molecular modelling
neuroprotection
Pathology
Phosphorylation
Polymerization
Proteins
Therapeutic targets
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Zusammenfassung:The following review considers current concepts concerning the characteristics of DRP1-related mitochondrial division in brain cells during hypoxic-ischemic pathology. The functional role of DRP1 in neurons and astroglia in cerebral ischemia conditions was analyzed. We discuss the potential for regulating DRP1 activity through the selective inhibitor of mitochondrial fission, mdivi-1. The article also presents data on DRP1 involvement in astro- and microglia-mediated intercellular mitochondrial transport. Understanding of the molecular mechanisms responsible for mitochondrial fission during hypoxic-ischemic exposure will allow us to consider DRP1 as an effective therapeutic target for treating conditions with a hypoxic component.
ISSN:2673-5261
2673-5261
DOI:10.3390/jmp4040027