TY - JOUR
T1 - Transcriptomic Analyses of Exercise Training in Alzheimer's Disease Cerebral Cortex
AU - Widjaya, Michael Anekson
AU - Cheng, Yu Jung
AU - Kuo, Yu Min
AU - Liu, Chia Hsin
AU - Cheng, Wei Chung
AU - Lee, Shin Da
N1 - Funding Information:
The study is supported by Ministry of Science and Technology, Taiwan (MOST 110-2314-B-468-004; MOST 107-2314-B-468-002-MY3) as well as partially supported by China Medical University and Weifang Medical University.
Publisher Copyright:
© 2023-IOS Press. All rights reserved.
PY - 2023/5/2
Y1 - 2023/5/2
N2 - Background: Research reported exercise could reduce Alzheimer's disease (AD) symptoms in human and animals. However, the molecular mechanism of exercise training via transcriptomic analysis was unclear especially in AD in the cortex area. Objective: Investigate potential significant pathways in the cortex area that were affected by exercise during AD. Methods: RNA-seq analysis, differential expressed genes, functional enrichment analysis, and GSOAP clustering analysis were performed in the isolated cerebral cortex from eight 3xTg AD mice (12 weeks old) randomly and equally divided into control (AD) and exercise training (AD-EX) group. Swimming exercise training in AD-EX group was conducted 30 min/day for 1 month. Results: There were 412 genes significant differentially expressed in AD-EX group compared to AD group. Top 10 upregulated genes in AD-EX group against AD group mostly correlated with neuroinflammation, while top 10 downregulated genes mostly had connection with vascularization, membrane transport, learning memory, and chemokine signal. Pathway analysis revealed the upregulated interferon alpha beta signaling in AD-EX had association with cytokines delivery in microglia cells compared to AD and top 10 upregulated genes involved in interferon alpha beta were Usp18, Isg15, Mx1, Mx2, Stat1, Oas1a, and Irf9; The downregulated extracellular matrix organization in AD-EX had correlation with Aβ and neuron cells interaction and Vtn was one of the top 10 downregulated genes involved in this pathway. Conclusion: Exercise training influenced 3xTg mice cortex through interferon alpha beta signaling upregulation and extracellular matrix organization downregulation based on transcriptomics analysis.
AB - Background: Research reported exercise could reduce Alzheimer's disease (AD) symptoms in human and animals. However, the molecular mechanism of exercise training via transcriptomic analysis was unclear especially in AD in the cortex area. Objective: Investigate potential significant pathways in the cortex area that were affected by exercise during AD. Methods: RNA-seq analysis, differential expressed genes, functional enrichment analysis, and GSOAP clustering analysis were performed in the isolated cerebral cortex from eight 3xTg AD mice (12 weeks old) randomly and equally divided into control (AD) and exercise training (AD-EX) group. Swimming exercise training in AD-EX group was conducted 30 min/day for 1 month. Results: There were 412 genes significant differentially expressed in AD-EX group compared to AD group. Top 10 upregulated genes in AD-EX group against AD group mostly correlated with neuroinflammation, while top 10 downregulated genes mostly had connection with vascularization, membrane transport, learning memory, and chemokine signal. Pathway analysis revealed the upregulated interferon alpha beta signaling in AD-EX had association with cytokines delivery in microglia cells compared to AD and top 10 upregulated genes involved in interferon alpha beta were Usp18, Isg15, Mx1, Mx2, Stat1, Oas1a, and Irf9; The downregulated extracellular matrix organization in AD-EX had correlation with Aβ and neuron cells interaction and Vtn was one of the top 10 downregulated genes involved in this pathway. Conclusion: Exercise training influenced 3xTg mice cortex through interferon alpha beta signaling upregulation and extracellular matrix organization downregulation based on transcriptomics analysis.
UR - http://www.scopus.com/inward/record.url?scp=85159550017&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85159550017&partnerID=8YFLogxK
U2 - 10.3233/JAD-221139
DO - 10.3233/JAD-221139
M3 - Article
C2 - 36970901
AN - SCOPUS:85159550017
SN - 1387-2877
VL - 93
SP - 349
EP - 363
JO - Journal of Alzheimer's Disease
JF - Journal of Alzheimer's Disease
IS - 1
ER -