MultiOmic characteriZation of Acute Myeloid Leukemia Evolving From myelopRoliferative Neoplasm to Identify New Targeted Therapeutic Strategies

Summary

Myeloproliferative neoplasms (MPN) are chronic myeloid malignancies characterized by a risk of evolution to acute myeloid leukemia (AML). This unpredictable complication is associated with a grim outcome with median overall survival ranging between 2 to 10 months. To date, even allogeneic transplantation fails to significantly improve the prognosis. Biological and molecular mechanisms driving leukemic transformation are complex, ill-defined, and heterogeneous between patients. The investigator hypothesize that deciphering the molecular heterogeneity of post-MPN AML may lead identifying efficient drugs targeting of the most relevant leukemogenic pathways.

Our main objective is to identify new targeted therapeutic approaches in post-MPN AML through in-depth characterization of the dysregulated pathways. The investigator will first characterize in an already annotated cohort of 120 post-MPN AML homogeneous patients subgroups using comprehensive multiomic analyses. Dysregulated pathways will be identified in each subgroup using the omics data and single-cell RNA-sequencing will be performed in a subset of patients in each subgroup. A customised drug-panel will be derived from the dysregulated pathway for an ex vivo drug screening, which will use a flow-cytometry read-out enabling to identity drug effect on cells survival, differentiation, and stemness. The 3 most promising drugs will be validated in a preclinical in vivo model of patient's derived xenograft (PDX) and their impact on clonal architecture will be studied in primary cell cultures using single-cell DNA-sequencing.

Overall, this proposal may provide a better understanding of MPN leukemic transformation mechanisms and provide a path for personalized therapies. Our findings may therefore pave the way to drugs development in post-MPN AML that would provide a rationale for implementation of early clinical trials in these dreadful diseases.

Conditions

• Myeloproliferative Neoplasm
• Secondary Leukemia

Interventions

OTHER

Multiomic characterization

Multiomics analysis include targeted-NGS with a 400-genes panel, RNA-seq and methylome. All the genomic libraries will be constructed at the genomic facility of Angers University Hospital and the sequencing will be performed on a NovaSeq6000 in the GenoBIRD Platform in Nantes. Bioinformatic analysis will be performed and will derive for each sample: SNV/Indel and CNV from DNA sequencing, expression of mRNA and lncRNA, genes fusion and splicing events from RNA-seq, and methylation beta-values from methylome.

OTHER

In vitro drug screening

The drug screening will be performed on the 'NEXT-AML' platform at St-Louis Hospital, Paris. This platform uses a multiparametric screening strategy based on flow cytometry measurements of cell viability, cell differentiation and stem cell compartment. Primary patient cells will be cultured in a specific niche-like medium with amino-acids, cytokines and stromal cells (Dal Bello et al. 2022). Twenty-five drugs at 6 concentrations covering a 1000-fold concentration range will be studied for each sample.

Sponsors & Collaborators

• University Hospital, Brest

  collaborator OTHER

• Institut Paoli-Calmettes

  collaborator OTHER

• Saint-Louis Hospital, Paris, France

  collaborator OTHER

• Gustave Roussy, Cancer Campus, Grand Paris

  collaborator OTHER

• University Hospital, Angers

  lead OTHER_GOV

Principal Investigators

• Damien LUQUE PAZ, PharmD. PhD. · University Hospital of Angers

Study Design

Allocation

NA

Purpose

BASIC_SCIENCE

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2023-10-15

Primary Completion

2027-12-31

Completion

2028-12-31