Abstract
Caspase-8 is a key initiator of apoptotic cell death where it functions as the apical protease in death receptor-mediated apoptosis triggered via the death-inducing signalling complex (DISC). However, the observation that caspase-8 is upregulated in many common tumour types led to the discovery of alternative non-apoptotic, pro-survival functions, many of which are contingent on phosphorylation of a tyrosine residue (Y380) found in the linker region between the two catalytic domains of the enzyme. Furthermore, Src-mediated Y380 phosphorylation leads to increased resistance to CD95-induced apoptosis; however, the mechanism underlying this impaired response to extrinsic apoptotic stimuli has not been identified. Consequently, we have employed a number of model systems to further dissect this protective mechanism. First, using an in vitro DISC model together with recombinant procaspase-8 variants, we show that Y380 phosphorylation inhibits procaspase-8 activation at the CD95 DISC, thereby preventing downstream activation of the caspase cascade. Second, we validated this finding in a cellular context using transfected neuroblastoma cell lines deficient in caspase-8. Reconstitution of these lines with phosphomimetic-caspase-8 results in increased resistance to CD95-mediated apoptosis and enhanced cell migration. When the in vitro DISC is assembled in the presence of cell lysate, caspase-8 Y380 phosphorylation attenuates DISC activity by inhibiting procaspase-8 autoproteolytic activity but not recruitment or homodimerization of caspase-8 within the complex. Once incorporated into the DISC, phosphorylated caspase-8 is unable to be released from the complex; this inhibits further cycling and release of active catalytic subunits into the cytoplasm, thus resulting in increased apoptotic resistance. Taken together, our novel findings expand our understanding of the key mechanisms underlying the anti-apoptotic functions of caspase-8 which may act as a critical block to existing antitumour therapies. Importantly, reversal or inhibition of caspase-8 phosphorylation may prove a valuable avenue to explore for sensitization of resistant tumours to extrinsic apoptotic stimuli.
Highlights
Caspase-8 has been well characterized as an initiator of the extrinsic pathway of apoptosis
We evaluated the role of caspase-8 Y380 phosphorylation in modulating death-inducing signalling complex (DISC) activation and enzymatic activity by introducing the Casp-8b-Y380E and -Y380F mutants into the in vitro reconstituted CD95 DISC model
In the lysate-free system, and in the absence of potential binding partners, the Y380E mutant behaved to the wild-type variant and permitted cleavage of the effector procaspase-3 in an in vitro bioassay (Figure 6b ii, compare lanes 4 and 5). These findings suggest that an additional factor present in the cell lysate is required for Y380 phosphorylationmediated inhibition of procaspase-8 complete maturation and activation at the DISC
Summary
Caspase-8 has been well characterized as an initiator of the extrinsic pathway of apoptosis. More recent studies have revealed that it has alternate, non-apoptotic, functions.[1] As an initiator caspase, procaspase-8 is recruited to the cell-surface membrane via members of the tumour necrosis factor (TNF) receptor superfamily such as CD95 (Fas/Apo1) and TNF-related Apoptosis-Inducing Ligand Receptors 1 and 2 (TRAIL-R1 and TRAIL-R2).[2] These family members possess a conserved intracellular cysteine-rich Death Domain (DD), and ligand-induced receptor aggregation of these DDs results in the recruitment of the DD-containing adaptor molecule, Fas-Associated protein with Death Domain (FADD), through homophillic DD/DD interactions. FADD possesses an N-terminal death effector domain (DED) responsible for the recruitment of procaspase-8 to the nascent complex. A second proteolytic step is required to remove the linker region connecting the large and small catalytic subunits; this fully activated DISC is capable of cleaving a far greater range of substrates, including caspase-3 and Bid, and is capable of driving apoptotic cell death.[3,4]
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