1. Abstract TP118: Activation of Alpha-7 Nicotinic Acetylcholine Receptor Improved Long-Term Cognitive Function of Mice With Long-Bone Fracture and Stroke
- Author
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Tuanpeng Sun, Kang Hou, Meng Zhang, Lei Zhan, Zhanqiang Wang, Sonali Shaligram, Julia Wong, Leandro Barbosa Do Prado, Hua Su, Jinhao Huang, Rose Carion, and Meng Wei
- Subjects
Advanced and Specialized Nursing ,medicine.medical_specialty ,LONG BONE FRACTURE ,business.industry ,Alpha (ethology) ,Tibia Fracture ,Cognition ,medicine.disease ,Nicotinic acetylcholine receptor ,Endocrinology ,Nicotinic agonist ,nervous system ,Internal medicine ,medicine ,Neurology (clinical) ,Cardiology and Cardiovascular Medicine ,Cognitive impairment ,business ,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.
- Published
- 2020
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