The VLA-4 integrin is constitutively active in circulating chronic lymphocytic leukemia cells via BCR autonomous signaling: a novel anchor-independent mechanism exploiting soluble blood-borne ligands.
Erika TissinoAnnalisa GaglioAntonella NicolòFederico PozzoTamara BittoloFrancesca Maria RossiRiccardo BombenPaola NanniIlaria CattarossiEva ZainaAnna Maria ZimboGiulia IannaGuido CapassoGabriela ForestieriRiccardo MoiaMoumita DattaAndrea HärzschelJacopo OlivieriGiovanni D'ArenaLuca LaurentiFrancesco ZajaAnnalisa ChiarenzaGiuseppe Alberto Maria PalumboEnrica Antonia MartinoMassimo GentileDavide RossiGianluca GaidanoGiovanni Del PoetaRoberta LaureanaMaria Ilaria Del PrincipePalash C MaityHassan JumaaTanja Nicole HartmannAntonella ZucchettoValter GatteiPublished in: Leukemia (2024)
In chronic lymphocytic leukemia (CLL), survival of neoplastic cells depends on microenvironmental signals at lymphoid sites where the crosstalk between the integrin VLA-4 (CD49d/CD29), expressed in ~40% of CLL, and the B-cell receptor (BCR) occurs. Here, BCR engagement inside-out activates VLA-4, thus enhancing VLA-4-mediated adhesion of CLL cells, which in turn obtain pro-survival signals from the surrounding microenvironment. We report that the BCR is also able to effectively inside-out activate the VLA-4 integrin in circulating CD49d-expressing CLL cells through an autonomous antigen-independent BCR signaling. As a consequence, circulating CLL cells exhibiting activated VLA-4 express markers of BCR pathway activation (phospho-BTK and phospho-PLC-γ2) along with higher levels of phospho-ERK and phospho-AKT indicating parallel activation of downstream pathways. Moreover, circulating CLL cells expressing activated VLA-4 bind soluble blood-borne VCAM-1 leading to increased VLA-4-dependent actin polymerization/re-organization and ERK phosphorylation. Finally, evidence is provided that ibrutinib treatment, by affecting autonomous BCR signaling, impairs the constitutive VLA-4 activation eventually decreasing soluble VCAM-1 binding and reducing downstream ERK phosphorylation by circulating CLL cells. This study describes a novel anchor-independent mechanism occurring in circulating CLL cells involving the BCR and the VLA-4 integrin, which help to unravel the peculiar biological and clinical features of CD49d+ CLL.