Journal
NEUROPHARMACOLOGY
Volume 116, Issue -, Pages 82-97Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.neuropharm.2016.12.012
Keywords
Amyloid beta; Prokineticin system; Glutamatergic neurotransmission; Electrophysiology
Categories
Funding
- Fondazione Sovena, Rome, Italy
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The accumulation of (beta-amyloid (A beta) is one of the hallmarks of Alzheimer disease (AD). Beyond the inflammatory reactions promoted by All, it has been demonstrated that the prokineticin (PK) system, composed of the chemokine prokineticin 2 (PK2) and its receptors, is involved in A beta toxicity. In this study we have analyzed how the A beta chronic treatment affects the glutamatergic transmission on neurons from primary cortical cultures, clearly demonstrating the PK system involvement on its action mechanism. In fact, we have observed a significant increase of the ionic current through the AMPA receptors in primary cortical neurons and an up-regulation of the PK system in cultures chronically treated with A beta. All effects were nullified by the prokineticin antagonist PC-1. Moreover, we have herein firstly demonstrated that the incubation of primary cortical culture with Bv8, the amphibian homologue of PK2, was able to increase in neurons the AMPA currents at specific doses and exposure times, measured both as evoked and as spontaneous currents. This effect was not due to a modification of the AMPA receptor subunit expression. In contrast, the up-modulation of AMPA currents were blocked by PC 1 and were mediated by the activation of the intracellular protein kinase C (PKC) transduction pathways because Go6983, the PKC inhibitor added in the medium, nullified the effect. Finally, cellular death induced by kainate was also reduced following treatment with PC1. In conclusion, our results show that the prokineticin system may be a key mediator in the A beta-induced neuronal damage, suggesting PK antagonists as new therapeutic compounds to ameliorate the AD progression. (C) 2016 Elsevier Ltd. All rights reserved.
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