Cranial irradiation induces healthy tissue damage that can lead to neurocognitive complications and negatively impact patient quality of life. One type of damage associated with cognitive impairment is loss of neuronal spine density. Based on developmental and disease studies implicating microglia and complement in dendritic spine loss, we hypothesized that irradiation-mediated spine loss is microglial complement receptor 3 (CR3)-dependent, and associated with late-delayed cognitive deficits. Utilizing a model of cranial irradiation (acute, 10 Gy gamma) in C57BL/6 mice we found that male mice demonstrate irradiation-mediated spine loss and cognitive deficits whereas female mice and CR3 knockout mice do not. Moreover, pharmacological blockade of CR3 with leukadherin-1 (LA1) prevented these changes in irradiated male mice. Interestingly, CR3 KO mice showed reduced behavioral task performance suggesting that CR3 is important for normal learning and memory. Improving our understanding of irradiation-mediated mechanisms and sexual dimorphic responses is essential for the identification of novel therapeutics to reduce irradiation-induced cognitive decline and improve patient quality of life.
Pathologic accumulation of abnormally phosphorylated tau in neurofibrillary tangles is a hallmark feature of Alzheimer's disease and other tauopathies. Interleukin-1 beta is a major proinflammatory cytokine in the central nervous system that has been implicated in the pathogenesis of tauopathies as well as Alzheimer's disease. To explore the role of chronic IL-1 beta overexpression in tauopathies in vivo we used an inducible model of IL-1 beta overexpression developed in our laboratory. The IL-1 beta (IL-1) mice bear a transcriptional stop flanked by LoxP elements upstream of a human IL-1 beta gene. Upon delivery of Cre, the IL-1 transgene is locally activated by excision of the stop sequence. The IL-1 mice were bred to JNPL3 (Tau) mice, which overexpress human tau with the P301L mutation. Expression of IL-1 beta was induced in the dentate gyrus of 8 to 8.5 month old progeny by stereotaxic injection of FIV-Cre. One and three months later, Tau/IL-1 mice demonstrated 2-4 fold increases in phospho-tau and glial activation. To attenuate IL-1 beta mediated inflammation, we reduced PGE2 production via pharmacological inhibition of cyclooxygenase-1 (COX-1) with SC560 in Tau/IL-1 mice, and observed significant reductions in phospho-tau pathology and microglial activation. Further, we found upregulation in active forms of p38MAPK, which was significantly reduced in mice receiving SC560 treatment. Our results demonstrate that IL-1 beta has a direct exacerbating effect on tau pathology in vivo, and inhibiting COX-1 can reverse this. COX-1 inhibition can therefore serve as a valuable therapeutic strategy for tauopathies with an advanced inflammatory component.
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