Abstract
Monozygotic twins are genetically identical but rarely phenotypically identical. Epigenetic and transcriptional variation could influence this phenotypic discordance. Investigation of intra-pair differences in molecular markers and a given phenotype in monozygotic twins controls most of the genetic contribution, enabling studies of the molecular features of the phenotype. This study aimed to identify genes associated with cognition in later life using integrated enrichment analyses of the results of blood-derived intra-pair epigenome-wide and transcriptome-wide association analyses of cognition in 452 middle-aged and old-aged monozygotic twins (56–80 years). Integrated analyses were performed with an unsupervised approach using KeyPathwayMiner, and a supervised approach using the KEGG and Reactome databases. The supervised approach identified several enriched gene sets, including “neuroactive ligand receptor interaction” (p-value = 1.62∗10-2), “Neurotrophin signaling” (p-value = 2.52∗10-3), “Alzheimer’s disease” (p-value = 1.20∗10-2), and “long-term depression” (p-value = 1.62∗10-2). The unsupervised approach resulted in a 238 gene network, including the Alzheimer’s disease gene APP (Amyloid Beta Precursor Protein) as an exception node, and several novel candidate genes. The strength of the unsupervised method is that it can reveal previously uncharacterized sub-pathways and detect interplay between biological processes, which remain undetected by the current supervised methods. In conclusion, this study identified several previously reported cognition genes and pathways and, additionally, puts forward novel candidates for further verification and validation.
Highlights
Cognitive functioning involves processes such as attention, action, learning, planning, memory, reasoning, problem-solving, communication, and decision making (Chan et al, 2008)
Gene set enrichment analysis conducted in this study identified gene sets related to ribosomal proteins, protein metabolism, RNA metabolism, the immune system, and infectious disease as significantly associated with cognitive function
For the 532-gene overlap, the use of Kyoto Encyclopedia of Genes and Genomes (KEGG) resulted in 26 enriched gene sets (FDR-corrected p –value < 0.05), including “Alzheimer’s disease,” “long-term depression,” “neurotrophin signaling pathway,” and “neuroactive ligand receptor interaction,” as well as gene sets related to metabolism, cellular processes, signal transduction, organismal systems and cancers, and cardiovascular diseases
Summary
Cognitive functioning involves processes such as attention, action, learning, planning, memory, reasoning, problem-solving, communication, and decision making (Chan et al, 2008). Recently Starnawska et al (2017) published an epigenome-wide association study (EWAS) of 486 individuals from the survey of middle-aged and old-aged Danish twins investigated in the present study: two CpG sites in the ZBTB46 and TAF12 genes were identified to have suggestive significant association (p < 1E06) to cognitive function. Harries et al (2012) performed a transcriptome-wide association study (TWAS) in 691 subjects from the InCHIANTI study (age range 30–104 years) and identified the CCR2 gene as nominally significantly associated to cognitive function (multiple testing corrected p-value = 0.076). In a recent TWAS of 470 individuals from the survey of Danish middle-aged and old-aged twins explored in the present study (Nygaard et al, 2019), the POU6F1 gene was identified as associated with cognitive functioning with suggestive significance (multiple testing corrected p-value = 0.09). Gene set enrichment analysis conducted in this study identified gene sets related to ribosomal proteins, protein metabolism, RNA metabolism, the immune system, and infectious disease as significantly associated with cognitive function
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