Affiliation:
1. Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) Heidelberg University Im Neuenheimer Feld 225 D-69120 Heidelberg Germany
2. Max Planck School Matter to Life Jahnstraße 29 69120 Heidelberg Germany
Abstract
Polyethylene glycol (PEG) is used in many applications, and in the clinical field, it is one of the main components of the latest Covid vaccines. Its wide use is justified by a relatively safe profile and few known side effects. However, little is known about the biophysical effects of PEG on cells such as, cell stiffness, dry mass, and total mass. Herein, exploiting a digital holographic microscope, an inertial picobalance, and a nanoindenter, these properties are characterized in rat embryonic fibroblast exposed to different molecular weights of PEG. Immediately after the first minutes of PEG exposure to the cells, a reduction in cell dry mass can be observed as well as a rapid fluctuation in total cell weight. Cell stiffness decreases significantly after 48 h, while no important morphological changes are observed. Here, it is revealed how dry mass and total mass are rapidly and finely regulated, highlighting how the maintenance of cell density is of primary importance in cellular activities.
Funder
H2020 European Research Council
Deutsche Forschungsgemeinschaft
Volkswagen Foundation