mHGTD-P mediates hypoxic neuronal cell death via the release of apoptosis-inducing factor

HGTD-P is a pro-apoptotic target protein of hypoxia-inducible factor 1α (HIF-1α). It localizes to mitochondria and induces the mitochondrial permeability transition through its interaction with voltage dependent anion channels when overexpressed. However, the molecular mechanisms responsible for its...

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Bibliographic Details
Published in:Neuroscience letters 2007-04, Vol.416 (2), p.144-149
Main Authors: Cho, Young-Eun, Ko, Jeong-Hun, Kim, Yong-Jun, Yim, Ji-Hye, Kim, Su-Mi, Park, Jae-Hoon
Format: Article
Language:English
Subjects:
Animals
Apoptosis
Apoptosis Inducing Factor - metabolism
Apoptosis-inducing factor
Biological and medical sciences
Blotting, Western
Caspases - metabolism
Cell Death - physiology
Cell Hypoxia - physiology
Cells, Cultured
Female
Fundamental and applied biological sciences. Psychology
HGTD-P
Hypoxia
Membrane Proteins - metabolism
Mice
Mice, Inbred ICR
Mitochondrial Proteins - metabolism
Neuron
Neurons - metabolism
Neurons - pathology
Reverse Transcriptase Polymerase Chain Reaction
Transfection
Vertebrates: nervous system and sense organs
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Summary:HGTD-P is a pro-apoptotic target protein of hypoxia-inducible factor 1α (HIF-1α). It localizes to mitochondria and induces the mitochondrial permeability transition through its interaction with voltage dependent anion channels when overexpressed. However, the molecular mechanisms responsible for its induction and its downstream effector molecules required during cell death, especially in neuronal cell death by hypoxia, are largely unknown. We performed this work to elucidate the effects of the pro-apoptotic protein HGTD-P on neuronal cell death induced by hypoxia and to investigate the cell death mechanisms activated during this process. In this report, we show that mouse HGTD-P (mHGTD-P) is transcriptionally increased by hypoxia and that its overexpression triggers neuronal cell death with affected cells displaying shrunken cytoplasm and condensed pyknotic nuclei in a caspase-independent manner. In addition, suppression of endogenous mHGTD-P expression by siRNA rescues neuronal cells from hypoxic injury. Finally, we show that mHGTD-P induces the mitochondrial release of apoptosis-inducing factor into the cytoplasm. Taken together, our data suggest that mHGTD-P participates in caspase-independent hypoxic neuronal cell death. Future studies will be necessary in order to determine whether hypoxia-induced mHGTD-P expression has any relevance in an ischemic animal model or clinical hypoxia-induced disorders.
ISSN:0304-3940
1872-7972
DOI:10.1016/j.neulet.2007.01.073