Mitochondrial dynamics, mitophagy and biogenesis in neonatal hypoxic‐ischaemic brain injury

Mitochondrial dynamics, mitophagy and biogenesis in neonatal hypoxic‐ischaemic brain injury

Hypoxic‐ischaemic encephalopathy, resulting from asphyxia during birth, affects 2–3 in every 1000 term infants and depending on severity, brings about life‐changing neurological consequences or death. This hypoxic‐ischaemia (HI) results in a delayed neural energy failure during which the majority of...

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Veröffentlicht in:FEBS letters 2018-03, Vol.592 (5), p.812-830
Hauptverfasser: Thornton, Claire, Jones, Adam, Nair, Syam, Aabdien, Afra, Mallard, Carina, Hagberg, Henrik
Format: Artikel
Sprache:eng
Schlagworte:
Asphyxia Neonatorum - genetics
Asphyxia Neonatorum - metabolism
Asphyxia Neonatorum - pathology
biogenesis
brain injury
fission
fusion
Humans
Hypoxia-Ischemia, Brain - genetics
Hypoxia-Ischemia, Brain - metabolism
Hypoxia-Ischemia, Brain - pathology
Infant, Newborn
mitochondria
Mitochondria - genetics
Mitochondria - metabolism
Mitochondria - pathology
Mitochondrial Degradation
mitophagy
neonatal
Neurosciences
Neurovetenskaper
Organelle Biogenesis
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Zusammenfassung:Hypoxic‐ischaemic encephalopathy, resulting from asphyxia during birth, affects 2–3 in every 1000 term infants and depending on severity, brings about life‐changing neurological consequences or death. This hypoxic‐ischaemia (HI) results in a delayed neural energy failure during which the majority of brain injury occurs. Currently, there are limited treatment options and additional therapies are urgently required. Mitochondrial dysfunction acts as a focal point in injury development in the immature brain. Not only do mitochondria become permeabilised, but recent findings implicate perturbations in mitochondrial dynamics (fission, fusion), mitophagy and biogenesis. Mitoprotective therapies may therefore offer a new avenue of intervention for babies who suffer lifelong disabilities due to birth asphyxia.
ISSN:0014-5793
1873-3468
DOI:10.1002/1873-3468.12943