Binding of either ligand or agonistic antibodies to the death receptor CD95 (APO-1/Fas) induces the formation of the death-inducing signaling complex (DISC). We now show that signal initiation of CD95 in type I cells can be further separated into at least four distinct steps. (i) The first step is ligand-induced formation of CD95 microaggregates at the cell surface. (ii) The second step is recruitment of FADD to form a DISC. This step is dependent on actin filaments. (iii) The third step involves formation of large CD95 surface clusters. This event is positively regulated by DISC-generated caspase 8. (iv) The fourth step is internalization of activated CD95 through an endosomal pathway. The latter step is again dependent on the presence of actin filaments. The data indicate that the signal initiation by CD95 is a complex process actively regulated at various levels, providing a number of new drug targets to specifically modulate CD95 signaling.CD95 (APO-1/Fas) is the best-studied member of the death receptor family (26). We previously demonstrated that CD95 oligomerizes upon triggering, forming sodium dodecyl sulfate (SDS)-stable microaggregates on SDS-polyacrylamide gel electrophoresis (PAGE) (11). This activated receptor recruits the adapter molecule FADD and the initiator caspase 8 to form the death-inducing signaling complex (DISC) (11). Recently, Siegel et al. (37) refined this model by showing that unstimulated CD95 exists as preassociated complexes, and they and others (10, 24) confirmed the initial observation of the formation of SDS-stable aggregates by stimulated CD95 (11). In addition, CD95 has been reported to form clusters at the cell surface in a ligand-dependent fashion either late (43) or, in two other reports, very early (6, 9) after receptor triggering. The relationship between or the kinetic order of all these eventspreassociation, formation of SDS-stable microaggregates, formation of the DISC, and the appearance of higher-order receptor clusters, as seen by immunofluorescence microscopy-is unknown.We have previously described two different CD95 apoptosis pathways (32). In type I cells, caspase 8 is recruited to the DISC, resulting in release of active caspase 8 in quantities sufficient to directly activate caspase 3 (40). However, in type II cells, despite similar expression levels of surface CD95 and signaling molecules, formation of the DISC is so inefficient that only very small quantities of caspase 8 are generated at the cell surface. This amount of caspase 8 is insufficient to process caspase 3, but sufficient to cleave the BH3-only protein Bid (13,16,19), resulting in the apoptogenic activation of mitochondria. Therefore, the execution of apoptosis can be inhibited by overexpression of Bcl-2 or Bcl-x L only in type II cells (32). Recently, a number of transgenic and knockout studies have provided evidence for the existence of the two pathways in vivo (14,17,30,41,48,49). In all cases, CD95 apoptosis execution of thymocytes and peripheral T cells was independent of mitochondria, identi...
