Leader cell activity and collective invasion by an autocrine nucleotide loop through connexin-43 hemichannels and ADORA1

Abstract

Progression of epithelial cancers predominantly proceeds by collective invasion of cell groups with coordinated cell-cell junctions and multicellular cytoskeletal activity. Collectively invading breast cancer cells co-express adherens junctions and connexin-43 (Cx43) gap junctions in vitro and in patient samples, yet whether gap junctions contribute to collective invasion remains unclear. We here show that Cx43 is required for chemical coupling between collectively invading breast cancer cells and, by its hemichannel function, adenosine nucleotide release into the extracellular space. Using molecular interference and rescue strategies in vitro and in orthotopic mammary tumors in vivo, Cx43-dependent adenosine nucleotide release was identified as essential mediator engaging the nucleoside receptor ADORA1, to induce leader cell activity and collective migration. In clinical samples joint-upregulation of Cx43 and ADORA1 predicts decreased relapse-free survival. This identifies autocrine nucleotide signaling, through a Cx43/ADORA1 axis, as critical pathway in leader cell function and collective cancer cell invasion. Graphical abstract