Three-dimensional experiments and individual based simulations show that cell proliferation drives melanoma nest formation in human skin tissue
Authored by Parvathi Haridas, Matthew J Simpson, Alexander P Browning, Jacqui A McGovern, D L Sean McElwain
Date Published: 2018
DOI: 10.1186/s12918-018-0559-9
Sponsors:
Australian Research Council (ARC)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Background: Melanoma can be diagnosed by identifying nests of cells on
the skin surface. Understanding the processes that drive nest formation
is important as these processes could be potential targets for new
cancer drugs. Cell proliferation and cell migration are two potential
mechanisms that could conceivably drive melanoma nest formation.
However, it is unclear which one of these two putative mechanisms plays
a dominant role in driving nest formation.
Results: We use a suite of three-dimensional (3D) experiments in human
skin tissue and a parallel series of 3D individual-based simulations to
explore whether cell migration or cell proliferation plays a dominant
role in nest formation. In the experiments we measure nest formation in
populations of irradiated (non-proliferative) and non-irradiated
(proliferative) melanoma cells, cultured together with primary
keratinocyte and fibroblast cells on a 3D experimental human skin model.
Results show that nest size depends on initial cell number and is driven
primarily by cell proliferation rather than cell migration.
Conclusions: Nest size depends on cell number, and is driven primarily
by cell proliferation rather than cell migration. All experimental
results are consistent with simulation data from a 3D individual based
model (IBM) of cell migration and cell proliferation.
Tags
Migration
cell migration
Cell proliferation
Model
invasion
Cluster
Populations
In-vitro
Colony
Nest
Quantification
Melanoma nest
Individual
based model
Melanoma cells
Mathematical simulation
3d human skin
model
Barrier assay
Melanocytic nevi
Coculture
Benign
Assays