Abstract
Abstract Recently, we have shown that primary brain tumors form highly organized, small-world scale-free networks, reminiscent of early networks in neurodevelopment and highly resistant to therapy. Such putative cancer-cell intrinsic neural mechanisms are becoming an increasing focus in the field of Cancer Neuroscience, but it has not yet been shown whether tumors of non-CNS origin also have the ability to form multicellular networks which sustain proliferative signaling and increase resistance to therapy. We observed synchronized calcium activity using longitudinal microscopy both in vivo and in vitro that were reminiscent of gap junction coupled networks. Indeed, dye transfer experiments verified functional coupling of brain metastases cells in vitro. Similarly, inhibition of gap junctions with different pharmacological agents significantly reduced calcium oscillations and tumour proliferation in vitro. Furthermore, gap junctions are significantly upregulated in brain-tropic sublines compared to parental cells. To understand the functional relevance of these gap-junction coupled tumor cell networks, we performed bulk RNA-Sequencing of two melanoma metastasis models in monoculture under gap junction inhibition and control: We observed reduced calcium communication and a concordant downregulation of neurodevelopmental and synaptic pathways within the tumor cells upon network disconnection, highlighting a potential recapitulation of neural-like features in metastases to the brain. To investigate the therapeutic potential of targeting these networks, we treated mice with brain metastases with two brain-penetrant gap junction blockers and observed significantly reduced tumor burden. Finally, we investigated the presence of heterotypic networks between brain metastases cells and the brain microenvironment with our SR101 dye transfer pipeline. Contrary to our findings in primary brain tumors, no gap junction connections to cells of the brain microenvironment in those models with reduced tumor growth upon network inhibition could be detected, supporting a cancer cell intrinsic gap junction mediated network and highlighting a selectivity of these homogenous tumor networks and potential therapeutic vulnerability.
Published Version
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