Jin Li 1 , Feng Chen 1 , Qiushi Zhang 2 , Xianglian Meng 1 , Xiaohui Yao 3 , Shannon L Risacher 4 , Jingwen Yan 4 , Andrew J Saykin 4 , Hong Liang 1 , Li Shen 3 Show Affiliations »
Abstract
BACKGROUND: The etiology of Alzheimer's disease remains poorly understood at the mechanistic level, and genome-wide network-based genetics have the potential to provide new insights into the disease mechanisms. OBJECTIVE: The study aimed to explore the collective effects of multiple genetic association signals on an AV-45 PET measure, which is a well-known Alzheimer's disease biomarker, by employing a network assisted strategy. METHODS: First, we took advantage of a dense module search algorithm to identify modules enriched by genetic association signals in a protein-protein interaction network. Next, we performed statistical evaluation to the modules identified by dense module search, including a normalization process to adjust the topological bias in the network, a replication test to ensure the modules were not found randomly , and a permutation test to evaluate unbiased associations between the modules and amyloid imaging phenotype. Finally, topological analysis, module similarity tests and functional enrichment analysis were performed for the identified modules. RESULTS: We identified 24 consensus modules enriched by robust genetic signals in a genome-wide association analysis. The results not only validated several previously reported AD genes (APOE, APP, TOMM40, DDAH1, PARK2, ATP5C1, PVRL2, ELAVL1, ACTN1 and NRF1), but also nominated a few novel genes (ABL1, ABLIM2) that have not been studied in Alzheimer's disease but have shown associations with other neurodegenerative diseases. CONCLUSION: The identified genes, consensus modules and enriched pathways may provide important clues to future research on the neurobiology of Alzheimer's disease and suggest potential therapeutic targets. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.
BACKGROUND: The etiology of Alzheimer's disease remains poorly understood at the mechanistic level, and genome-wide network-based genetics have the potential to provide new insights into the disease mechanisms. OBJECTIVE: The study aimed to explore the collective effects of multiple genetic association signals on an AV-45 PET measure, which is a well-known Alzheimer's disease biomarker, by employing a network assisted strategy. METHODS: First, we took advantage of a dense module search algorithm to identify modules enriched by genetic association signals in a protein-protein interaction network. Next, we performed statistical evaluation to the modules identified by dense module search, including a normalization process to adjust the topological bias in the network, a replication test to ensure the modules were not found randomly , and a permutation test to evaluate unbiased associations between the modules and amyloid imaging phenotype. Finally, topological analysis, module similarity tests and functional enrichment analysis were performed for the identified modules. RESULTS: We identified 24 consensus modules enriched by robust genetic signals in a genome-wide association analysis. The results not only validated several previously reported AD genes (APOE , APP, TOMM40 , DDAH1 , PARK2 , ATP5C1 , PVRL2 , ELAVL1 , ACTN1 and NRF1 ), but also nominated a few novel genes (ABL1 , ABLIM2 ) that have not been studied in Alzheimer's disease but have shown associations with other neurodegenerative diseases . CONCLUSION: The identified genes, consensus modules and enriched pathways may provide important clues to future research on the neurobiology of Alzheimer's disease and suggest potential therapeutic targets. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.
Entities: CellLine
Chemical
Disease
Gene
Mutation
Species
Keywords:
Alzheimer’s disease; amyloid imaging phenotype; consensus modules; genome-wide association; network analysis; neurodegenerative disease; pathway enrichment.
Year: 2019
PMID: 31755389 DOI: 10.2174/1567205016666191121142558
Source DB: PubMed Journal: Curr Alzheimer Res ISSN: 1567-2050 Impact factor: 3.498