Abstract
Abstract 3263
Despite the recent advances in chemotherapy for acute lymphoblastic leukemia (ALL), the development of drug resistance and long-term side effects of current treatments warrant new treatment modalities. Survivin/BIRC5, an inhibitor of apoptosis protein, is critical for the survival and proliferation of cancerous cells, is expressed in AML and ALL cells, and has been implicated in leukemia relapse. In the present study, we test the hypothesis that survivin is critical to the pathway of self-renewal of drug-resistant ALL cells.
For gain of function studies, primary ALL cells were transduced with lentiviral survivin IRES GFP reporter (Survivin GFP) or empty GFP as a control. For loss of function studies, an inducible lentiviral shRNA vector expressing tRFP upon induction with doxycyclin was used. For in vitro evaluation of Survivin, CFU assays were used to monitor self-renewal capability, MTT assays and Trypan blue counts for viability determination were used for drug testing. For in vivo experiments, we used a NOD/SCID IL2Rγ−/- xenograft model with patient-derived ALL cells.
Survivin overexpression in primary ALL cells led in vitro to 4-fold more colonies than control in primary and secondary CFU assays and to increased resistance against Vincristine, Dexamethasone and L-Asparaginase (VDL) compared to controls (p<0.05). In vivo, animals injected with ALL cells overexpressing survivin died earlier of leukemia with a median survival time (MST) of 43 days (n=4) compared to control animals (MST=51.5 days) (n=4) (p<0.05). Therefore, overexpression of survivin increases self-renewal of patient-derived ALL cells in vitro and accelerates leukemia development in vivo. Conversely, in vitro inhibition of Survivin using shRNA decreased CFU compared to controls (p<0.0001). In vivo, when animals were injected with Survivin shRNA or non-silencing control shRNA and treated for 4 weeks with VDL, the combined VDL + Survivin shRNA treated group not only lived significantly longer (MST=213 days, n=3) compared to the control group (MST=117 days; n=3) (p<0.05) but remained disease-free until the end of follow-up (Day 213). Immunohistology and flow cytometry staining for huCD45+ cells in various organs showed the absence of leukemia cells in the VDL + shRNA treated group compared to the control, indicating that adjuvant knockdown of Survivin in combination with chemotherapy eradicates drug resistant primary leukemia. To further evaluate loss of function of Survivin in ALL, we used a survivin knockout mouse model. Survivinflox/flox bone marrow cells were retrovirally transformed with BCR-ABL1 p210 or MLL-ENL. Subsequent to leukemic outgrowth, cells were transduced with either GFP control or inducibly deleted using a Cre-GFP vector and GFP signal was quantitated by flow cytometry. Interestingly, Survivin deleted Cre-GFP positive oncogene transformed cells showed reduced proliferation compared to GFP controls (p<0.05), indicating that knockout of Survivin in murine leukemia is required for survival of leukemic cells. Finally, we determined the effect of pharmacological downregulation of Survivin using EZN-3042, a novel locked nucleic acid antisense oligonucleotide (LNA-AsODN) against Survivin. Single agent treatment of 6 primary ALL cases, with 20 mM of a scrambled LNA control (EZN-3088) or EZN-3042, were respectively assayed. Mean viability for EZN-3088 treatments was 78.6% ± 12.0% versus 44.1% ± 10.9% for EZN-3042 (p<0.001). EZN-3042 knockdown of Survivin was confirmed by Western blot. LNA treatment in combination with chemotherapy of a primary Philadelphia chromosome positive (Ph+) ALL resulted in a mean viability of 73.4% ± 1.8% for EZN-3088/Nilotinib versus 3.6% ± 0.5% for EZN-3042/Nilotinib (p<0.001). Primary Ph− ALL cells treated with EZN-3088/VDL resulted in a mean viability of 36.5% ± 0.5% versus 8.3% ± 4.3% for EZN-3042/Nilotinib (p<0.01).
Taken together, we show that Survivin is a key component in primary drug resistant ALL cells and adjuvant specific targeting of Survivin using shRNA or EZN3042 has the potential to eradicate relapse of leukemia.
Yang:Amgen Inc: Employment, Equity Ownership.
Author notes
Asterisk with author names denotes non-ASH members.