Abstract
Grim encodes a protein required for programmed cell death in Drosophila, whose proapoptotic activity is conserved in mammalian cells. Two proapoptotic domains are relevant for Grim killing function; the N-terminal region, which induces apoptosis by disrupting inhibitor of apoptosis protein (IAP) blockage of caspase activity, and the internal GH3 domain, which triggers a mitochondrial pathway. We explored the role of these two domains in heterologous killing of mammalian cells by Grim. The GH3 domain is essential for Grim proapoptotic activity in mouse cells, whereas the N-terminal domain is dispensable. The GH3 domain is required and sufficient for Grim targeting to mitochondria and for cytochrome c release in a caspase- and N-terminal-independent, IAP-insensitive manner. These Grim GH3 activities do not require Bax or Bak function, revealing GH3 activity as the first proapoptotic stimulus able to trigger the mitochondrial death pathway in mammalian cells in the absence of multidomain proapoptotic Bcl-2 proteins.
Highlights
Multicellular organisms eliminate unwanted or damaged cells by cell death, a process essential in shaping embryonic structures, maintaining adult tissue homeostasis, and eliminating damaged cells
Our results show that GH3 activity is conserved in evolution, triggering a mitochondrial-cytochrome c death pathway in mammalian cells, whereas the N-terminal domain appears irrelevant for Grim killing activity in this context
The GH3 Domain Is Essential for Grim Proapoptotic Function in Mammalian Cells—We recently described the GH3 domain as essential for Grim proapoptotic activity in flies [19]; we tested whether GH3 integrity was a requisite for its conserved activity in mouse 3T3 cells
Summary
Multicellular organisms eliminate unwanted or damaged cells by cell death, a process essential in shaping embryonic structures, maintaining adult tissue homeostasis, and eliminating damaged cells. Our results show that GH3 activity is conserved in evolution, triggering a mitochondrial-cytochrome c death pathway in mammalian cells, whereas the N-terminal domain appears irrelevant for Grim killing activity in this context.
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