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: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: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) remains an aggressive and incurable cancer with existing therapies, presenting a significant unmet clinical need. We evaluated the therapeutic interest of targeting iron homeostasis with Ironomycin alone and combined with ibrutinib, a BTK inhibitor accepted for the treatment of MCL patients. Patients commonly develop resistance to ibrutinib treatment. We found that ironomycin synergizes with ibrutinib to kill MCL cells even in ibrutinib-resistant cell lines.
