Abstract
Cutaneous melanoma is a highly aggressive cancer with a propensity for distant metastasis to various organs. In contrast, melanoma arising in pigmented uveal layers of the eye metastasizes mostly in the liver. The mechanisms of these metastases, which are ultimately resistant to therapy, are still unclear. Metastasis via intravascular dissemination of tumour cells is widely accepted as a central paradigm. However, we have previously described an alternative mode of tumour dissemination, extravascular migratory metastasis, based on clinical and experimental data. This mechanism is characterised by the interaction of cancer cells with the abluminal vascular surface, which defines angiotropism. Here, we employed our 3D co-culture approach to monitor cutaneous and uveal human melanoma cells dynamics in presence of vascular tubules. Using time-lapse microscopy, we evaluated angiotropism, the migration of tumour cells along vascular tubules and the morphological changes occurring during these processes. Cutaneous and uveal melanoma cells were injected in zebrafish embryos in order to develop xenografts. Employing in vivo imaging coupled with 3D reconstruction, we monitored the interactions between cancer cells and the external surface of zebrafish vessels. Overall, our results indicate that cutaneous and uveal melanoma cells spread similarly along the abluminal vascular surfaces, in vitro and in vivo.
Highlights
Metastasis is described as the spread of cancer cells from the original tumour to a different site
We investigated whether angiotropism could be detected in 2-dpf zebrafish embryos injected with uveal melanoma cells
Malignant cells use a variety of motility and invasion mechanisms, hematogenous spread, angiotropism and extravascular migratory metastasis (EVMM)
Summary
Metastasis is described as the spread of cancer cells from the original (primary) tumour to a different (secondary) site. In our previous work, we have described an alternative mode of tumour dissemination without intravasation, namely extravascular migratory metastasis (EVMM), based on clinical[1,2] and experimental[3,4] data in cutaneous melanoma and on clinical data in uveal melanoma[5] This mechanism is characterised by the interaction of tumour cells with the external vascular surface, which defines angiotropism. The current study corroborates the involvement of processes such as angiotropism and pericytic mimicry in cutaneous and uveal melanoma progression and metastasis Both cutaneous and uveal melanomas are derived from melanocytes, which originate from the neural crest. In this study, employing our 3D co-culture approach[7] and time-lapse microscopy, we evaluated angiotropism and migration of cutaneous and uveal melanoma cells along the vascular tubules and the morphological changes occurring during these processes
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