An inverse cell culture model for floating plastic particles

Abstract

Plastic waste has become a major environmental problem. An increasing number of studies investigate microplastic particles with regard to their uptake and effects in cell culture systems. Individual plastic materials vary in their molecular structure, composition, size distribution, material density, and may also differ with respect to their toxicological effects. Plastic particles with lower densities than the cell culture medium, for example polyethylene (PE), pose a particular problem for in vitro assays as they float up during the incubation and thus do not contact the cells located on the bottom of the culture dish. We thus developed a practical and easy-to-use in vitro inverse cell culture model for investigating cellular effects of floating plastic particles. Cytotoxicity tests with floating PE particles were performed to demonstrate the utility of the inverted cell model. PE particles incubated in overhead culture were cytotoxic to HepG2 cells, while under the same cultivation conditions, except for inversion, no cytotoxicity occurred. These positive results demonstrate that inverted cell culture was required to detect the effects of PE particles and underlines the necessity to adapt cell culture conditions to the physicochemical properties of particles in order to obtain a more accurate estimate of the effects of floating particles on cells.