FPR2/ALX signaling and their lipid mediator pathways: pleiotropic roles in neurotoxicity

BENZI JUNCOS, O.N.; ALZA, N.P.; SALVADOR, G.

Congreso; SAIB 2022; 2022

Neurotoxicity generated by several environmental factors has been widely associated with Parkinson’s disease (PD). Human prolonged exposure to the pesticide Maneb (MB) has been reported as a triggering insult for dopaminergic neurodegeneration and the onset of PD. Even though this effect has been well documented in numerous epidemiological and research studies, little is yet known about the mechanisms underlying MB neurotoxicity in neuron-glia crosstalk. Based on our previous reports about the involvement of cyclooxygenases (COX) and lipoxygenases (LOX) in the neuronal response to MB toxicity (SAIB2021), our aim was to elucidate the role of these lipid mediators’ pathways in neuron-glia communication. To study the possible alterations in neuron-glia crosstalk caused by MB exposure, dopaminergic N27 cells were exposed to astrocyte (C6 cell line) secretome and vice versa. Astrocytes’ secretome showed to be neuroprotective against MB, whereas neurons secreted glial proliferative factors after pesticide exposure. Neither COX-2 nor CYP450 pharmacological inhibition were able to revert the effect of secretomes on their respective acceptor cells. In contrast, the inhibition of LOX-15, enzyme responsible for the generation of anti-inflammatory lipid mediators, abolished the glial proliferative effect of neuronal secretome during MB toxicity. In addition, the neuroprotective effect of astrocyte-derived secretome was blocked.Next, we evaluated the role of FPR2/ALX receptor, whose main ligands are lipid mediators associated with resolution. The antagonist of FPR2/ALX, Quin-C7, blocked the effect of the astrocytic secretome on neuronal survival upon MB challenge. In agreement, FPR2/ALX activation by a specific agonist enhanced the neuroprotective effect of the astrocytic secretome.