• Title/Summary/Keyword: ${\beta}-$ and ${\gamma}-$ secretase

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The Effect of Exercise Training on Aβ-42, BDNF, GLUT-1 and HSP-70 Proteins in a NSE/ APPsw-transgenic Model for Alzheimer's Disease. (지구성 운동이 NSE/APPsw 알츠하이머 질환 생쥐의 인지능력, Aβ-42, BDNF, GLUT-1과 HSP-70 단백질 발현에 미치는 영향)

  • Eum, Hyun-Sub;Kang, Eun-Bum;Lim, Yea-Hyun;Lee, Jong-Rok;Cho, In-Ho;Kim, Young-Soo;Chae, Kab-Ryoung;Hwang, Dae-Yean;Kwak, Yi-Sub;Oh, Yoo-Sung;Cho, Joon-Yong
    • Journal of Life Science
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    • v.18 no.6
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    • pp.796-803
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    • 2008
  • Mutations in the APP gene lead to enhanced cleavage by ${\beta}-$ and ${\gamma}-secretase$, and increased $A{\beta}$ formation, which are closely associated with Alzheimer's disease (AD)-like neuropathological changes. Recent studies have shown that exercise training can ameliorate pathogenic phenotypes ($A{\beta}-42$, BDNF, GLUT-1 and HSP70) in experimental models of Alzheimer's disease. Here, we have used NSE/APPsw transgenic mice to investigate directly whether exercise training ameliorates pathogenic phenotypes within Alzheimer's brains. Sixteen weeks of exercise training resulted in a reduction of $A{\beta}-42$ peptides and also facilitated improvement of cognitive function. Furthermore, GLUT -1 and BDNF proteins produced by exercise training may protect brain neurons by inducing the concomitant expression of genes that encode proteins (HSP-70) which suppress stress induced neuron cell damages from APPsw transgenic mice. Thus, the improved cognitive function by exercise training may be mechanistically linked to a reduction of $A{\beta}-42$ peptides, possibly via activation of BDNF, GLUT-1, and HSP-70 proteins. On the basis of the evidences presented in this study, exercise training may represent a practical therapeutic management strategy for human subjects suffering from Alzheimer's disease.