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KMID : 1135520140100050258
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Korean Journal of Exercise Rehabilitation
2014 Volume.10 No. 5 p.258 ~ p.264
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Treadmill exercise improves motor coordination through ameliorating Purkinje cell loss in amyloid beta23-35-induced Alzheimer¡¯s disease rats
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Lee Jae-Min
Shin Mal-Soon
Ji Eun-Sang
Kim Tae-Woon
Cho Han-Sam
Kim Chang-Ju
Jang Myung-Soo
Kim Tae-Wook
Kim Bo-Kyun
Kim Dong-Hee
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Abstract
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Alzheimer¡¯s disease (AD) is a most common age-related neurodegenerative disease. AD is characterized by a progressive loss of neurons causing cognitive dysfunction. The cerebellum is closely associated with integration of movement, including motor coordination, control, and equilibrium. In the present study, we evaluated the effect of tread-mill exercise on the survival of Purkinje neurons in relation with reactive astrocyte in the cerebellum using A¥â25?35?induced AD rats. AD was induced by a bilateral intracerebroventricular (ICV) injection of A¥â25?35. The rats in the exercise groups were forced to run on a motorized treadmill for 30 min once a day for 4 weeks, starting 2 days after A¥â25?35 injection. In the present results, ICV injection of A¥â25?35 deteriorated motor coordination and balance. The number of calbindin-positive cells in the cerebellar vermis was decreased and glial fibrillary acidic protein (GFAP) expression in the cerebellar vermis was increased in the A¥â25?35-induced AD rats. Treadmill exercise improved motor coordination and balance. Treadmill exercise increased the number of Purkinje neurons and suppressed GFAP expression in the cerebellar vermis. The present study demonstrated that treadmill exercises alleviated dysfunction of motor coordination and balance by reduction of Purkinje cell loss through suppressing reactive astrocytes in the cerebellum of AD rats. The present study provides the possibility that treadmill exercise might be an important therapeutic strategy for the symptom improvement of AD patients.
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KEYWORD
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Alzheimer¡¯s disease, Treadmill exercise, Cerebellum, Motor coordination and balance, Purkinje neurons, Reactive astrocytes
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