USF-LVHN SELECT
Amphiphilic suramin dissolves Matrigel, causing an 'inhibition' artefact within in vitro angiogenesis assays.
Publication/Presentation Date
12-1-2013
Abstract
The field of study concerning promotion and/or inhibition of angiogenesis has gathered much attention in the scientific community. A great deal of work has been invested towards defining reproducible assays to gauge for promotion or inhibition of angiogenesis in response to drug treatments or growth conditions. Two common components of these assays were noted by our group to have an unexpected and previously unreported interaction. Suramin is a commercially available compound, commonly used as a positive control for in vitro angiogenic inhibition assays. Matrigel is a popular extracellular substrate that supports angiogenic network formation when endothelial cells are cultured on its surface. However, our group demonstrated that suramin alone (without the presence of cells) will actively dissolve Matrigel, causing the extracellular matrix to transition from the gel-like physical state to a more liquid state. This causes cells on the Matrigel to congregate and sink to the bottom of the well. Therefore, previous observations of inhibition of endothelial cell angiogenesis through the incubation with suramin (including previous observations made by our group) are, largely, an artefact caused by suramin and matrix interaction rather than suramin and cells interaction, as previously reported. Our results suggest that the presence of sulphate groups and amphiphilic properties of suramin are likely responsible for the disruption of the matrix layer. We believe that this information is of prime importance to anyone using similar in vitro models, or employing suramin in any therapy or drug development assays.
Volume
94
Issue
6
First Page
412
Last Page
417
ISSN
1365-2613
Published In/Presented At
Prigozhina, N. L., Heisel, A. J., Seldeen, J. R., Cosford, N. D., & Price, J. H. (2013). Amphiphilic suramin dissolves Matrigel, causing an 'inhibition' artefact within in vitro angiogenesis assays. International journal of experimental pathology, 94(6), 412–417. https://doi.org/10.1111/iep.12043
Disciplines
Medical Education | Medicine and Health Sciences
PubMedID
23998420
Department(s)
USF-LVHN SELECT Program, USF-LVHN SELECT Program Students
Document Type
Article