Sleep deprivation regulates availability of PrPC and Aß peptides which can impair interaction between PrPC and laminin and neuronal plasticity.

PrPC is a glycoprotein capable to interact with several molecules and mediates diverse signaling pathways. Among numerous ligands, laminin (LN) is known to promote neurite outgrowth and memory consolidation, while amyloid-beta oligomers (Aßo) trigger synaptic dysfunction. In both pathways, mGluR1 is recruited as co-receptor. The involvement of PrPC /mGluR1 in these opposite functions suggests that this complex is a key element in the regulation of synaptic activity. Considering that sleep-wake cycle is important for synaptic homeostasis, we aimed to investigate how sleep deprivation affects the expression of PrPC and its ligands, laminin, Aßo, and mGluR1, a multicomplex that can interfere with neuronal plasticity. To address this question, hippocampi of control (CT) and sleep deprived (SD) C57BL/6 mice were collected at two time points of circadian period (13 hr and 21 hr). We observed that sleep deprivation reduced PrPC and mGluR1 levels with higher effect in active state (21 hr). Sleep deprivation also caused accumulation of Aß peptides in rest period (13 hr), while laminin levels were not affected. In vitro binding assay showed that Aßo can compete with LN for PrPC binding. The influence of Aßo was also observed in neuritogenesis. LN alone promoted longer neurite outgrowth than non-treated cells in both Prnp+/+ and Prnp0/0 genotypes. Aßo alone did not show any effects, but when added together with LN, it attenuated the effects of LN only in Prnp+/+ cells. Altogether, our findings indicate that sleep deprivation regulates the availability of PrPC and Aß peptides, and based on our in vitro assays, these alterations induced by sleep deprivation can negatively affect LN-PrPC interaction, which is known to play roles in neuronal plasticity.