Caffeine attenuates cisplatin induced microglial reactivity and cognitive dysfunction

Advances in cancer treatment by chemotherapy, radiation, and personalized targeted therapy have significantly improved cancer survivorship. Life extension from chemotherapy is arguably the most accessible non-surgical treatment strategy, but it is accompanied by neurotoxic sequelae that are detrimental to cognitive function in survivors. Using the platinum-based drug cisplatin to model chemotherapy induced cognitive impairments (CICI; also called chemobrain) in mice, we recently identified that elevated hippocampal adenosine A 2A receptor (A 2A R) levels are causally associated with CICI. Although neuroinflammation is a major pathological mechanism underlying CICI, it remains unclear whether A 2A R mediates cisplatin-induced neuroinflammation. To address this knowledge gap, we demonstrate for the first time that cisplatin increases microglial process extension and branching complexity, consistent with a primed, hyper-surveillant morphological phenotype. Remarkably, caffeine, a non-specific A 2A R antagonist and known cognitive enhancer, attenuated the primed microglial morphology caused by cisplatin. Furthermore, we show that caffeine mitigates cisplatin-induced body-weight loss, accelerates physical recovery, and protects against motor dysfunction. We also show that caffeine confers protection against cisplatin potentiated impairments in hippocampal dendritic spine density, neurogenesis, and confers modest memory benefits. Collectively, these results suggest that A 2A R-mediated microglial priming is associated with cognitive dysfunction in chemobrain and A 2A R inhibition by caffeine may represent a strategy to ameliorate the physical and cognitive impairments caused by cisplatin.