Depletion of Bone Marrow–derived Macrophages Perturbs the Innate Immune Response to Surgery and Reduces Postoperative Memory Dysfunction
Open Access
- 1 March 2013
- journal article
- research article
- Published by Ovid Technologies (Wolters Kluwer Health) in Anesthesiology
- Vol. 118 (3), 527-536
- https://doi.org/10.1097/aln.0b013e3182834d94
Abstract
According to rodent models of postoperative cognitive decline, activation of the innate immune response following aseptic surgical trauma results in the elaboration of hippocampal proinflammatory cytokines, which are capable of disrupting long-term potentiation, the neurobiologic correlate of memory. We hypothesize that hippocampal recruitment of bone marrow-derived (BMD) macrophages plays a causal role in these processes, resulting in memory dysfunction. Clodrolip injection (liposomal formulation of clodronate) prior to stabilized tibial fracture under general anesthesia was used to deplete BMD macrophages. Systemic and neuroinflammation were studied on postoperative day 1, and memory in a fear-trace conditioning paradigm was assessed on postoperative day 3. CX3CR1GFP/+ CCR2RFP/+ mice were used to identify BMD macrophages. Clodrolip effectively depleted splenic CCR2+ BMD macrophages. It also attenuated the surgery-induced increase of interleukin-6 in the serum and the hippocampus, and prevented hippocampal infiltration of CCR2+ cells without affecting the number of CX3CR1+ microglia. It did not alter the surgery-induced increase in hippocampal MCP-1, the recruitment signal for CCR2+ cells. Clodrolip prevented surgery-induced memory dysfunction, as evidenced by a significant increase in freezing time (29%, 95% CI: 21 to 38% vs. 48%, 95% CI: 38 to 58%, n= 20, P = 0.004), but did not affect memory in nonsurgical mice. Depletion of BMD macrophages prevents hippocampal neuroinflammation and memory dysfunction after experimental tibial fracture. These data suggest that the hippocampal recruitment of BMD macrophages is a necessary mechanism in murine postoperative cognitive dysfunction. Interventions designed to prevent its activation and/or migration into the brain may represent a feasible preemptive strategy.Keywords
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