Abstract
Localization of RNAs at protrusive regions of cells is important for single-cell migration on two-dimensional surfaces. Protrusion-enriched RNAs encode factors linked to cancer progression, such as the RAB13 GTPase and the NET1 guanine nucleotide exchange factor, and are regulated by the tumor-suppressor protein APC. However, tumor cells in vivo often do not move as single cells but rather utilize collective modes of invasion and dissemination. Here, we developed an inducible system of three-dimensional (3D) collective invasion to study the behavior and importance of protrusion-enriched RNAs. We find that, strikingly, both the RAB13 and NET1 RNAs are enriched specifically at the invasive front of leader cells in invasive cell strands. This localization requires microtubules and coincides with sites of high laminin concentration. Indeed, laminin association and integrin engagement are required for RNA accumulation at the invasive front. Importantly, perturbing RNA accumulation reduces collective 3D invasion. Examination of in vivo tumors reveals a similar localization of the RAB13 and NET1 RNAs at potential invasive sites, suggesting that this mechanism could provide a targeting opportunity for interfering with collective cancer cell invasion.
Highlights
Localization of RNAs at protrusive regions of cells is important for single-cell migration on two-dimensional surfaces
We investigated here the localization of the RAB13 and NET1 RNAs during 3D collective invasion
We developed a multicellular spheroid model of collective cancer cell invasion and found that both RNAs exhibit a unique localization pattern consisting of a striking accumulation at the front of leader cells in invading strands
Summary
Localization of RNAs at protrusive regions of cells is important for single-cell migration on two-dimensional surfaces. We developed an inducible system of three-dimensional (3D) collective invasion to study the behavior and importance of protrusion-enriched RNAs. We find that, strikingly, both the RAB13 and NET1 RNAs are enriched at the invasive front of leader cells in invasive cell strands. Examination of in vivo tumors reveals a similar localization of the RAB13 and NET1 RNAs at potential invasive sites, suggesting that this mechanism could provide a targeting opportunity for interfering with collective cancer cell invasion. The ability of cells to migrate in vivo has a central role in cancer metastasis In this context, emerging evidence suggests that the majority of solid tumors employ a collective mode of migration during invasion and metastasis [18,19,20]. We set out to understand the behavior and functional contributions of protrusion-localized RNAs during 3D collective invasion
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