Abstract TP118: Activation of Alpha-7 Nicotinic Acetylcholine Receptor Improved Long-Term Cognitive Function of Mice With Long-Bone Fracture and Stroke

Abstract

Introduction: Tibia fracture (BF) enhances stroke injury and when occurring 6 hrs before stroke (BF6+Stroke) causes long-lasting cognitive dysfunction in mouse. Activation of α-7 nicotinic acetylcholine receptor (α-7 nAchR) reduced neuroinflammation, neuronal injury and sensorimotor dysfunction in mice with BF one day after stroke (Stroke+1BF). Hypothesis: Activation of α-7 nAchR improves long-term cognitive function of BF6+Stroke mice. Methods: BF6+Stroke mice were randomly assigned to saline, PHA-568487 (α-7 nAchR agonist) and MLA (α-7 nAchR antagonist) treatment groups. The sensorimotor function were tested by adhesive removal and corner tests at 3 days, the cognitive function was tested by Y-maze weekly for 8 weeks and Novel Objective Recognition (NOR) at 8 weeks post-injuries. The neuronal damage, neuroinflammaiton, neurogenesis were analyzed 3 and/or 8 weeks post-injuries. Results: Similar to Stroke+1BF mice, PHA reduced and MLA enhanced neuronal injury, neuroinflammation, and sensorimotor dysfunction of BF6+Stroke mice. Further, PHA reduced and MLA enhanced their long-term cognitive dysfunction. In Y maze test, all mice made fewer alternations 1-week post-surgeries than baseline; PHA group recovered to baseline at week 5 post-surgeries; saline and MLA groups continuously made fewer alternations throughout the 8-weeks. In NOR test, PHA group spent more time, MLA group spent less time than saline group on novel objects. Injection of BrdU in the 2 nd week post-surgeries labeled more neurons in the contralateral than in the ipsilateral dentate gyrus in all groups; PHA group had the most, MLA group had the least BrdU + neurons. Injection BrdU in the 7th week post-surgeries did not labeled any neuron. Conclusion: Activation of α-7 nAchR decreased neuronal damage and neuroinflammation, increased neurogenesis at the dentate gyrus of BF6+Stroke mice; and improved their sensorimotor and long-term cognitive function.