Acute myeloid leukemia (AML) is a malignancy of aging endowed with poor prognosis. The combination of the hypomethylating agent azacitidine (AZA) with the BCL-2 inhibitor venetoclax (VEN) is the first-line treatment of older AML patients but is endowed with substantial resistance. The project leverages functional precision oncology, single-cell studies and mouse experiments to dissect the mechanisms of primary and adaptive resistance to AZA/VEN. The primary objective is to prospectively validate an ex vivo drug sensitivity testing (DST) assay as predictor of primary resistance to first-line AZA/VEN in 100 unfit AML patients. The study will also explore whether newer DST assays with enhanced niche mimicry can improve on the standard assay. By serially interrogating the short-term fate of both leukemic and immune cells upon AZA/VEN exposure in patients primed towards refractoriness, transient or prolonged remission, the aim is to dissect the cell-intrinsic and immune-mediated mechanisms of primary versus adaptive resistance. A parallel flow cytometry study will interrogate the role of senescence in AZA/VEN activity. These translational studies will be mirrored by experiments in a transplantable AML model derived from syngeneic mice harboring the age-related Tet2-/- leukemia-predisposing genotype. Lineage tracing single-cell experiments will backtrack AZA/VEN resistance to determine whether it is driven by selection or adaptation. The actionable stress sensor Pml will be invalidated in the same model to determine whether Pml-driven senescence contributes to AZA/VEN anti-leukemic activity in vivo. The project will pave the way to the clinical implementation of functional precision oncology in a high-risk malignancy. By simultaneously interrogating cell-intrinsic and immune-mediated drug resistance in vivo in a prospective patient cohort mirrored by controlled mice experiments, the project will provide a framework for the integrative analysis of drug resistance in cancers.
Study Type
OBSERVATIONAL
Enrollment
120
Additional volume of 30mL (EDTA) At Screening, pre-Cycle 1 Day 1,Day 1 H8, Day 2, Day of post-cycle 1 and post-cycle 6 evaluation.
Additional volume of 2mL (EDTA) * at screening for correlative studies,at Day 7 for smears and for correlative studies. * Post-cycle 1 and post-cycle 6 evaluations for correlative studies. Optionnal : Trephine biopsy at screening and at post-cycle 1 and 6 evaluations (performed at the same time as aspiration)
Hôpital Saint Louis
Paris, France
RECRUITINGOverall Response (CR+CRh+Cri)
Overall Response (CR+CRh+Cri) per European LeukemiaNet 2022 criteria (Döhner et al., Blood 2022), according to DST on the NEXT platform on the population treated per protocol (AZA/VEN).
Time frame: Up to 6 months
Number of MRD-negative response (including CRMRD-, CRhMRD- and CRiMRD-)
Time frame: Up to 6 months
Best response after any number of AZA/VEN cycles
It is ranked as follow : CR \> CRh \> Cri
Time frame: Up to 6 months
MRD-negative response after any number of AZA/VEN cycles
including CRMRD-, CRhMRD- and CriMRD-
Time frame: Up to 6 months
Response duration
Defined as the interval between first response among CR, CRh and Cri
Time frame: Up to 6 months
Treatment failure per ELN22 criteria
Time frame: Up to 6 months
Overall survival
Time frame: Up to 6 months
Event-free survival
Time frame: Up to 6 months
Relapse-free survival
Time frame: Up to 6 months
Cumulative Incidence of Relapse (CIR) according to DST on the NEXT platform
Time frame: Up to 6 months
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