Upregulation of FLIPs upon CD40 Stimulation - A Novel Inhibititory Mechanism of CD95-Induced Apoptosis in Precursor B-ALL Blasts in Children.

The influence of the microenvironment on the activation status and behaviour of ALL blasts is critical for interactions with the immune system in vivo. The capacity of B cells to respond to CD40-ligand (CD40L) stimulation is critical for their sensitisation to immunological control mechanisms and susceptibility to apoptotic signals. Primary precursor B-ALL blasts (BCP-ALL; n=32) lack CD95-expression (mean±SE; 4.2±0.6% positive cells) and are resistant to apoptosis while significant up-regulation of CD95 is apparent upon CD40-stimulation in BCP-ALL blasts that reaches a plateau after 72 h. Yet, in spite of equivalent CD95-upregulation in ALL blasts (58.3±6.5%; n=17) and normal B cells (59.3±13.1%) specific apoptosis is markedly lower in ALL compared to mature B cells (19.1±3% vs 36.7±5.5%). Resistance to apoptosis in ALL blasts and its reversibility after cycloheximid treatment suggest that anti-apoptotic mechanisms prevent induction of cell death via CD95 ligation in CD40 activated blasts. In accordance, in CD40-activated ALL blasts caspase 8 and 3 activity is not enhanced upon CD95 ligation in contrast to an 1.8±0.3 and 1.7±0.3 fold increase in caspase activity in stimulated normal B cells (n=7), suggesting a block of the apoptotic cascade in BCP-ALLrelatively close to the receptor level. CD40L-activated ALL blasts and normal B cells were submitted to western blot analysis with respect to the molecules associated to the death-inducing signalling complex (DISC). FADD and the zymogen form of caspase-8 are constitutively expressed in both malignant and non malignant B cells with no modulation following CD40 ligation. In contrast, the anti-apoptotic short isoform of the c-FLICE inhibitory protein FLIP_S is weakly expressed in naïve blasts and B cells, but strongly up-regulated upon 72h CD40-ligation in ALL with only barely detectable levels in CD40-activated normal B cells. We therefore propose, that prolonged induction of the FLIP_S expression inhibits the onset of apoptosis despite high CD95 surface expression levels in BCP-ALL blasts. As an additional anti-apoptotic mechanism inhibiting the downstream effector caspases we demonstrated significant upregulation of the inhibitor of apoptosis protein (IAP) survivin in CD40-activated BCP-ALL (n=6) compared to the unstimulated control (632pg/ml±200pg/ml vs 180pg/ml±52pg/ml). Thus, we identified FLIP_S as a CD40-regulated upstream anti-apoptotic element and concomitant downstream upregulation of survivin protein expression as critical mechanisms contributing to blast cell resistance to apoptosis.