Project information
Signaling propensity in the microenvironment of B cell chronic lymphocytic leukemia
(LeukemiaEnviron)
- Project Identification
- 802644
- Project Period
- 6/2019 - 5/2024
- Investor / Pogramme / Project type
-
European Union
- Horizon 2020
- ERC (Excellent Science)
- MU Faculty or unit
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Central European Institute of Technology
- prof. MUDr. Mgr. Marek Mráz, Ph.D.
- Mgr. Miroslav Boudný, Ph.D.
- Ivona Buchmaierová
- Rosangela Digilio
- Pedro Faria Zeni
- Mgr. Daniel Filip
- Mgr. Eva Hoferková, Ph.D.
- Mgr. Lenka Humpolíková Adámková, Ph.D.
- Mgr. Lenka Košťálová
- Mgr. Tomáš Loja, Ph.D.
- Ludmila Marková
- Mgr. Michaela Medková
- Androniki Michaelou
- Mgr. Bc. Laura Ondrišová
- Mgr. Veronika Palušová, Ph.D.
- Mgr. Václav Šeda, Ph.D.
- RNDr. Josef Večeřa, Ph.D.
The biology “mature“ B cells malignancies such as chronic lymphocytic leukemia (CLL) is largely driven by the (de)regulation of microenvironment interactions (reviewed in Seda and Mraz, EJH, 2014)1. This is best illustrated by the fact that primary CLL cells of this most frequent adult leukemia when cultured in vitro are rapidly dying, and do not proliferate despite behaving aggressively in vivo. CLL has an extremely variable clinical course with some cases never requiring therapy and others having aggressive disease with a median survival of 2-3 years (similar to acute leukemias). However, in vitro apoptosis is known to be present in all subtypes of the disease irrespectively of genetic aberrations, including those with the most adverse outcomes such as p53 deletions/mutations, making the microenvironment a universal dependency and likely a driver of the disease aggressiveness. Several recurrent genomic aberrations and gene mutations have been identified in CLL, but there is no unifying genomic aberration in CLL that would explain its pathogenesis 2-4, and it is likely that non-genetic mechanisms deregulating microenvironmental interactions and B cell receptor signalling are involved in the development of this malignancy. It is tempting to speculate that aberrant activation of pathways in microenvironment might be at the driving force of CLL. Recently, it has been shown that so called “BCR signalling inhibitors” lead to a high degree of clinical response in most CLL patients by targeting BCR-associated kinase BTK and PI3K 1,5,6. However, the mechanism of action of these drugs is more complex, and likely does not depend only on BCR signalling, but also impairment of multiple microenvironmental interactions such as adhesion and migration. Ibrutinib or other BTK inhibitors will likely be a backbone of the therapy of CLL (including first line therapy) due to their low toxicity and good initial clinical response. However, ibrutinib (or PI3K inhibitors) are not able to cure CLL patients. Additionally, BTK/PI3K-inhibitors are a very expensive treatment modality (> € 80 000/year), and are given to patients continuously until disease relapse or adverse effects.
Publications
Total number of publications: 38
2021
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Ibrutinib Blocks CD40 Signalling in CLL in Vivo by Reducing TRAF4 Levels.
Year: 2021, type: Conference abstract
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IL4-STAT6 signaling induces CD20 in chronic lymphocytic leukemia and this axis is repressed by PI3K delta inhibitor idelalisib
haematologica, year: 2021, volume: 106, edition: 11, DOI
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IL4-STAT6 Signaling Induces CD20 in Chronic Lymphocytic Leukemia and This Axis Is Repressed by PI3Kδ Inhibitor Idelalisib.
Year: 2021, type: Conference abstract
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Microenvironmental interactions in B cell leukemias and lymphomas: Implications for targeted therapy.
Year: 2021, type: Conference abstract
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MicroRNAs in the regulation of microenvironmental interactions of malignant B cells.
Year: 2021, type: Conference abstract
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miR-29 influences CD40 signaling in chronic lymphocytic leukemia (CLL): and axis affected by BCR inhibitors.
Year: 2021, type: Conference abstract
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miR-29 Modulates CD40 Signaling in Chronic Lymphocytic Leukemia by Targeting TRAF4: an Axis Affected by BCR inhibitors
Blood, year: 2021, volume: 137, edition: 18, DOI
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miR-29 Modulates CD40 Signaling in Chronic Lymphocytic Leukemia by Targeting TRAF4: an Axis Affected by BCR.
Year: 2021, type: Conference abstract
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miR-29-TRAF4 axis is a novel regulator of CD40 signaling in malignant B cells.
Year: 2021, type: Conference abstract
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Patient-derived Xenograft Model of Chronic Lymphocytic Leukaemia Based on Mimicking Its Microenvironment.
Year: 2021, type: Conference abstract