Journal article
Self-Assembled Peptide Habitats to Model Tumor Metastasis
N Al Balushi, M Boyd-Moss, RM Samarasinghe, A Rifai, SJ Franks, K Firipis, BM Long, IA Darby, DR Nisbet, D Pouniotis, RJ Williams
Gels | MDPI | Published : 2022
DOI: 10.3390/gels8060332
Abstract
Metastatic tumours are complex ecosystems; a community of multiple cell types, including cancerous cells, fibroblasts, and immune cells that exist within a supportive and specific microenvironment. The interplay of these cells, together with tissue specific chemical, structural and temporal signals within a three-dimensional (3D) habitat, direct tumour cell behavior, a subtlety that can be easily lost in 2D tissue culture. Here, we investigate a significantly improved tool, consisting of a novel matrix of functionally programmed peptide sequences, self-assembled into a scaffold to enable the growth and the migration of multicellular lung tumour spheroids, as proof-of-concept. This 3D functio..
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Awarded by Australian Nuclear Science and Technology Organisation
Funding Acknowledgements
This study was supported by funding from the Deakin School of Medicine Faculty HAtCH Grant, an ARC discovery project (DP130103131) and the NHMRC project (GNT1144996). This research was undertaken on the SAXS/WAXS beamline at the Australian Synchrotron, a part of ANSTO. DRN was supported by a NHMRC Dementia Research Leadership Fellowship (GNT1135687).