Project description:MCL-1 plays a central role in B-cell lymphoma progression and drug resistance. Pharmacologically targeting MCL-1, therefore, represents an attractive strategy to combat these lymphomas. S63845, a MCL1 inhibitor, was shown to have high response rates in mantle cell lymphoma (MCL) and burkitt lymphoma.
Project description:Mantle Cell lymphoma (MCL) were treated with the BTK inhibitor 1mM CC-292 for 48h We used microarrays to uncover the mechanisms underlying CC-292 activity in Mantle Cell lymphoma (MCL)
Project description:Ibrutinib,a novel Bruton'styrosine kinase inhibitor, demonstrated high response rates in B-cell lymphomas but a growing number of ibrutinib treated patients relapse with resistance, fulminant progression and accelerated mortality. Using chemical proteomics and a high-throughput ex vivo assay in a reconstructed tumor microenvironment (TME), we determined the molecular basis for ibrutinib activity and mechanism of acquired ibrutinib resistance. Reciprocal activation of PI3K-AKT-mTOR and integrin β1 signaling were identified as a signaling hub of kinome for ibrutinib resistance, resulting in enforced TME-lymphoma interactions, promoting mantle cell lymphoma (MCL) growth and drug resistance. Combinatorial disruption of BCR signaling and ibrutinib resistance associated pathways led to release of MCL cells from TME, reversal of drugresistance and enhanced anti-MCL activity in murine and patient-derived xenograft models. This study integrated TME-mediated de-novo and acquired drug resistance mechanisms and provides the rationale for novel combination therapeutic strategy against MCL and other B cell malignancies.
Project description:In this study we compared the expression of 30215 genes in mantle cell lymphoma-initiating cells (MCL-ICs) with mantle cell lymphoma-non-initiating cells (MCL-non-ICs) and B-cells from healthy donor
Project description:In this study we compared the expression of 30215 genes in mantle cell lymphoma-initiating cells (MCL-ICs) with mantle cell lymphoma-non-initiating cells (MCL-non-ICs) and B-cells from healthy donor Three samples each of MCL-ICs and MCL-non-ICs were isolated from aphresis of 3 mantle cell lymphoma primary patient samples and 2 samples of CD19+ Bcells isolated from buffy coats of healthy donor Microarray include both coding and non-coding transcripts but only mRNA coding transcript were included in this study.
Project description:The microenvironment strongly influences mantle cell lymphoma (MCL) survival, proliferation and chemoresistance. However, little is known regarding the molecular characterization of lymphoma niches. We focused on the interplay between MCL cells and associated monocytes/macrophages.
