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Target Concepts:
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Query: EC:3.4.22.61 (
caspase-8
)
6,833
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fas (APO-1/CD95) is a
transmembrane receptor
protein which induces apoptosis upon activation. In apoptosis triggered by Fas, a subset of cysteine proteases designated caspases is activated, playing a central role as effector molecules. Among these caspases, human
caspase-8
(FLICE/
MACH
/
Mch5
) has been isolated and shown to be indispensable for Fas-mediated apoptotic signaling. In this study, we isolated the mouse homologue to human
caspase-8
from a BaF3 cell cDNA library. This molecule conserved the death effector domain (DED) and protease domain as detected in human
caspase-8
, and was capable of inducing apoptosis in KB and Rat-1 cells when overexpressed. Expression of
caspase-8
was detected in the various tissues of adult mouse and in embryos at 9.5 days and 17.5 days of development by Northern-blot analysis. Further, we isolated a chromosomal gene for
caspase-8
from a mouse genomic library and analyzed the genomic structure of the isolated gene. This gene consisted of eight exons and seven introns spanning about 26 kb in the coding region.
...
PMID:Molecular cloning and characterization of mouse caspase-8. 965 89
Apoptosis, or programmed cell death, is a genetically regulated mechanism with a central role in both metazoan development and homeostasis. Death receptors (Fas, TNFR-2, DR3, and TRAIL receptors) induce apoptosis upon ligation to cognate ligands or ectopic expression. The assembly of a death-inducing signalling complex occurs in a hierarchical manner upon receptor activation. The death domain of the receptor binds to the corresponding domain of the adapter molecule FADD, which in turn recruits the zymogen form of the death protease FLICE (
MACH
/
caspase-8
). Upon approximation, FLICE "zymogens" attain a sufficient concentration to self-activate and to trigger the apoptotic pathway. For the first time, a
transmembrane receptor
directly engaging a protease at the signalling complex and subsequently triggering a proteolytic signalling cascade is described.
...
PMID:Signalling by proteolysis: death receptors induce apoptosis. 980 24
EphB4 is a member of the largest family of
transmembrane receptor
tyrosine kinases and plays critical roles in axonal pathfinding and blood vessel maturation. We wanted to determine the biological role of EphB4 in ovarian cancer. We studied the expression of EphB4 in seven normal ovarian specimens and 85 invasive ovarian carcinomas by immunohistochemistry. EphB4 expression was largely absent in normal ovarian surface epithelium, but was expressed in 86% of ovarian cancers. EphB4 expression was significantly associated with advanced stage of disease and the presence of ascites. Overexpression of EphB4 predicted poor survival in both univariate and multivariate analyses. We also studied the biological significance of EphB4 expression in ovarian tumour cells lines in vitro and in vivo. All five malignant ovarian tumour cell lines tested expressed higher levels of EphB4 compared with the two benign cell lines. Treatment of malignant, but not benign, ovarian tumour cell lines with progesterone, but not oestrogen, led to a 90% reduction in EphB4 levels that was associated with 50% reduction in cell survival. Inhibition of EphB4 expression by specific siRNA or antisense oligonucleotides significantly inhibited tumour cell viability by inducing apoptosis via activation of
caspase-8
, and also inhibited tumour cell invasion and migration. Furthermore, EphB4 antisense significantly inhibited growth of ovarian tumour xenografts and tumour microvasculature in vivo. Inhibition of EphB4 may hence have prognostic and therapeutic utility in ovarian carcinoma.
...
PMID:The receptor tyrosine kinase EphB4 is overexpressed in ovarian cancer, provides survival signals and predicts poor outcome. 1735 27
Death domain complexes are key protein arrangements in the regulation of various cellular signaling events. One of the most prominent death domain complexes first described in the initiation of apoptosis is formed by the
transmembrane receptor
Fas, the cytosolic adaptor protein FADD, and
caspase-8
and is referred to as the Fas/FADD/
caspase-8
death inducing signaling complex (DISC). The recent structure of the Fas/FADD death domain complex reveals how formation of this signaling platform can be stringently regulated utilizing only Fas receptor clustering to form a death domain network. This work reveals that an opening mechanism of Fas is needed to expose binding sites for the FADD death domain and sets the stage for a conditional interaction, which is characterized by weak interactions adapted for a regulatory function. The overall crystal structure reveals a tetrameric arrangement of four primary Fas/FADD complexes. Intriguingly all contacts mediating the tetramer are solely provided through Fas/Fas interactions and are entirely dependent on the open form. These findings are instrumental in depicting a mechanism for DISC regulation where Fas receptor clustering leads to the stabilization of the open Fas death domains which are then capable of binding FADD in a weak interaction. At the same time this mechanism ensures that in the absence of a sufficient stimulus no interaction between Fas and FADD is possible. Therefore the conformation dependent, conditional Fas/FADD death domain interaction represents the regulatory element per se. This interaction contrasts the classic constitutive interactions of adaptor domains, which cannot provide regulatory function themselves. This model portrays how sole death domains are able to mediate signaling upon receptor clustering in the complete absence of enzyme activity.
...
PMID:Structure of the Fas/FADD complex: a conditional death domain complex mediating signaling by receptor clustering. 1965 45
Death receptors play a crucial role in immune surveillance and cellular homeostasis, two processes circumvented by tumor cells. CD95 (also termed Fas or APO1) is a
transmembrane receptor
, which belongs to the tumor necrosis factor receptor superfamily, and induces a potent apoptotic signal. Initial steps of the CD95 signal take place through protein/protein interactions that bring zymogens such as
caspase-8
and caspase-10 closer. Aggregation of these procaspases leads to their autoprocessing, to the release of activated caspases in the cytosol, which causes a caspase cascade, and to the transmission of the apoptotic signal. In parallel, CD95 engagement drives an increase in the intracellular calcium concentration (Ca(2+))i whose origin and functions remain controversial. Although Ca(2+) ions play a central role in apoptosis/necrosis induction, recent studies have highlighted a protective role of Ca(2+) in death receptor signaling. In the light of these findings, we discuss the role of Ca(2+) ions as modulators of CD95 signaling.
...
PMID:Does calcium contribute to the CD95 signaling pathway? 2131 66
