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Wu W , Wang W , Franzen CA , Guo H , Lee J , Li Y , Sukhanova M , Sheng D , Venkataraman G , Ming M , Lu P , Gao A , Xia C , Li J , Zhang LL , Jiang VC , Wang ML , Andrade J , Zhou X , Lynn Wang Y
Inhibition of B-cell receptor signaling disrupts cell adhesion in mantle cell lymphoma via RAC2
Blood Advances. 2021 Jan 12;5(1) :185-197
PMID: 33570628 PMCID: PMC7805322 URL: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099285454&doi=10.1182%2fbloodadvances.2020001665&partnerID=40&md5=bcb65cae19d6c24746e1864b8ccffd35
AbstractInhibition of the B-cell receptor (BCR) signaling pathway is highly effective in B-cell neoplasia through Bruton tyrosine kinase inhibition by ibrutinib. Ibrutinib also disrupts cell adhesion between a tumor and its microenvironment. However, it is largely unknown how BCR signaling is linked to cell adhesion. We observed that intrinsic sensitivities of mantle cell lymphoma (MCL) cell lines to ibrutinib correlated well with their cell adhesion phenotype. RNA-sequencing revealed that BCR and cell adhesion signatures were simultaneously downregulated by ibrutinib in the ibrutinib-sensitive, but not ibrutinib-resistant, cells. Among the differentially expressed genes, RAC2, part of the BCR signature and a known regulator of cell adhesion, was downregulated at both the RNA and protein levels by ibrutinib only in sensitive cells. RAC2 physically associated with B-cell linker protein (BLNK), a BCR adaptor molecule, uniquely in sensitive cells. RAC2 reduction using RNA interference and CRISPR impaired cell adhesion, whereas RAC2 overexpression reversed ibrutinib-induced cell adhesion impairment. In a xenograft mouse model, mice treated with ibrutinib exhibited slower tumor growth, with reduced RAC2 expression in tissue. Finally, RAC2 was expressed in approximately 65% of human primary MCL tumors, and RAC2 suppression by ibrutinib resulted in cell adhesion impairment. These findings, made with cell lines, a xenograft model, and human primary lymphoma tumors, uncover a novel link between BCR signaling and cell adhesion. This study highlights the importance of RAC2 and cell adhesion in MCL pathogenesis and drug development.
NotesExport Date: 3 February 2021