Mitochondrial fusion is regulated by Reaper to modulate Drosophila programmed cell death.


Autoria(s): Thomenius, M; Freel, CD; Horn, S; Krieser, R; Abdelwahid, E; Cannon, R; Balasundaram, S; White, K; Kornbluth, S
Data(s)

01/10/2011

Formato

1640 - 1650

Identificador

http://www.ncbi.nlm.nih.gov/pubmed/21475305

cdd201126

Cell Death Differ, 2011, 18 (10), pp. 1640 - 1650

http://hdl.handle.net/10161/8381

1476-5403

Relação

Cell Death Differ

10.1038/cdd.2011.26

Palavras-Chave #Animals #Apoptosis #Cell Line #Drosophila Proteins #Drosophila melanogaster #Gamma Rays #HeLa Cells #Humans #Membrane Proteins #Mitochondria #Neuropeptides #Protein Binding
Tipo

Journal Article

Cobertura

England

Resumo

In most multicellular organisms, the decision to undergo programmed cell death in response to cellular damage or developmental cues is typically transmitted through mitochondria. It has been suggested that an exception is the apoptotic pathway of Drosophila melanogaster, in which the role of mitochondria remains unclear. Although IAP antagonists in Drosophila such as Reaper, Hid and Grim may induce cell death without mitochondrial membrane permeabilization, it is surprising that all three localize to mitochondria. Moreover, induction of Reaper and Hid appears to result in mitochondrial fragmentation during Drosophila cell death. Most importantly, disruption of mitochondrial fission can inhibit Reaper and Hid-induced cell death, suggesting that alterations in mitochondrial dynamics can modulate cell death in fly cells. We report here that Drosophila Reaper can induce mitochondrial fragmentation by binding to and inhibiting the pro-fusion protein MFN2 and its Drosophila counterpart dMFN/Marf. Our in vitro and in vivo analyses reveal that dMFN overexpression can inhibit cell death induced by Reaper or γ-irradiation. In addition, knockdown of dMFN causes a striking loss of adult wing tissue and significant apoptosis in the developing wing discs. Our findings are consistent with a growing body of work describing a role for mitochondrial fission and fusion machinery in the decision of cells to die.

Idioma(s)

ENG