Additional file 5 of Titanium dioxide and carbon black nanoparticles disrupt neuronal homeostasis via excessive activation of cellular prion protein signaling

Additional file 5: Fig. S4. Corruption of PrPC-coupled signaling pathways by TiO2- and CB-NPs in neuronal cells: toward a pro-Alzheimer effect of some TiO2 and CB nanoparticles. Cellular prion protein PrPC is a plasma membrane receptor recognized by TiO2- and CB-NPs in neuronal cells. The interaction between full-length PrPC and NPs mobilizes PrPC-coupled signaling pathways, leading to (i) the activation of NADPH oxidase and the production of ROS, and (ii) the activation of PDK1 that promotes the internalization of TACE α-secretase and thereby down-regulates TACE shedding activity at the root of plasma membrane TNFR1 accumulation and rise in Aβ40/42 production. Such NP interferences with the PrPC signaling network triggers molecular signs of Alzheimer’s disease: modification of cell redox equilibrium, neuronal priming to TNFα inflammatory stress, and accumulation of neurotoxic Aβ40/42 peptides (Image drawn using Servier medical art).