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Valrubicin-loaded immunoliposomes for specific vesicle-mediated cell death in the treatment of hematological cancers

Aleksandra Georgievski, Pierre‐Simon Bellaye, Benjamin Tournier, Hélène Choubley, Jean-Paul Paı̈s de Barros, Michaële Herbst, Arnaud Béduneau, Patrick Callier, Bertrand Collin, Frédérique Végran, Paola Ballerini, Carmen Garrido, Ronan Quéré

2024Cell Death and Disease10 citationsDOIOpen Access PDF

Abstract

Abstract We created valrubicin-loaded immunoliposomes (Val-ILs) using the antitumor prodrug valrubicin, a hydrophobic analog of daunorubicin. Being lipophilic, valrubicin readily incorporated Val-lLs that were loaded with specific antibodies. Val-ILs injected intravenously rapidly reached the bone marrow and spleen, indicating their potential to effectively target cancer cells in these areas. Following the transplantation of human pediatric B-cell acute lymphoblastic leukemia (B-ALL), T-cell acute lymphoblastic leukemia (T-ALL), or acute myeloid leukemia (AML) in immunodeficient NSG mice, we generated patient-derived xenograft (PDX) models, which were treated with Val-ILs loaded with antibodies to target CD19, CD7 or CD33. Only a small amount of valrubicin incorporated into Val-ILs was needed to induce leukemia cell death in vivo, suggesting that this approach could be used to efficiently treat acute leukemia cells. We also demonstrated that Val-ILs could reduce the risk of contamination of CD34 + hematopoietic stem cells by acute leukemia cells during autologous peripheral blood stem cell transplantation, which is a significant advantage for clinical applications. Using EL4 lymphoma cells on immunocompetent C57BL/6 mice, we also highlighted the potential of Val-ILs to target immunosuppressive cell populations in the spleen, which could be valuable in impairing cancer cell expansion, particularly in lymphoma cases. The most efficient Val-ILs were found to be those loaded with CD11b or CD223 antibodies, which, respectively, target the myeloid-derived suppressor cells (MDSC) or the lymphocyte-activation gene 3 (LAG-3 or CD223) on T4 lymphocytes. This study provides a promising preclinical demonstration of the effectiveness and ease of preparation of Val-ILs as a novel nanoparticle technology. In the context of hematological cancers, Val-ILs have the potential to be used as a precise and effective therapy based on targeted vesicle-mediated cell death.

Topics & Concepts

LeukemiaCancer researchMyeloid leukemiaCD33TransplantationHaematopoiesisBone marrowAcute lymphocytic leukemiaLymphomaImmunologyStem cellMedicineCD34BiologyInternal medicineCell biologyLymphoblastic LeukemiaImmune Cell Function and InteractionCAR-T cell therapy researchAcute Myeloid Leukemia Research
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