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dc.creatorHaggarty, P, University of Aberdeenen
dc.creatorFerguson-Smith, A, University of Cambridgeen
dc.creatorPhillips, L, University of Aberdeenen
dc.creatorStaff, R, University of Aberdeenen
dc.creatorRichards, M, University College Londonen
dc.creatorLorgen-Richie, M, University of Aberdeenen
dc.date2022-04-07T00:00:00Zen
dc.identifier855045-
dc.identifier10.5255/UKDA-SN-855045-
dc.identifierhttps://doi.org/10.5255/UKDA-SN-855045-
dc.identifier.urihttps://t2-4.bsc.es/jspui/handle/123456789/59570*
dc.descriptionHuman cognition is an important determinant of educational and occupational success, social mobility, health, and longevity though it is not clear whether higher cognitive ability leads to better health and longevity through improved lifestyle choices and life opportunities or whether there is a common biological basis to a well-functioning brain and body. Cognitive ability is influenced both by genetics and the environment and epigenetic states are relevant to both. A particular class of epigenetics (imprinting) is known to be important for neurogenesis, brain function and behaviour. Epigenetic imprints are generally established in early life, they are often stable over time, and they can persist in a wide range of cell types many divisions and decades later. These characteristics make imprints particularly amenable to study in longitudinal cohort designs where only blood samples may be available. This study investigates the link between epigenetic imprinting and measures of cognitive function at age 11 and in adulthood using data from a well-characterised cohort born in 1936 and recruited at 64 years of age. We studied the average methylation in selected regions of imprints (H19, IGF2, SNRPN, PEG3, MEST1, NESPAS, KvDMR, IG-DMR and ZAC1) by pyrosequencing in DNA extracted from blood samples. The data consist of average percent methylation in selected regions of imprints (H19, IGF2, SNRPN, PEG3, MEST1, NESPAS, KvDMR, IG-DMR and ZAC1) measured by pyrosequencing in DNA extracted from blood samples. Measures of cognitive function are; MATSCO (Childhood Moray House Test Score); NART (National Adult Reading Test Score); RAVN (Raven’s Progressive Matrices).<p>There is much evidence that early life experiences (from fetal life through childhood) can influence adult outcomes. However, the pathways and mechanisms by which earlier experiences become embedded in an individual's life-course and how they influence health and behavioral outcomes are still not clear. Epigenetics provides a key emerging platform for interdisciplinary research among the biological and social sciences to further understand the complex interactions between social phenomena and human biology and behavior. Epigenetics refers to information in the human genome other than that in the DNA sequence. Imprinting refers to a special kind of epigenetic marking of genes that occurs very early in development and is then often stable across the life course. There is increasing evidence for the importance of these epigenetic factors in brain function, cognition, mood and behavior. We aim to investigate the effect of the early social environment on epigenetic status and its relationship to cognition and mood in later life. The proposed study exploits existing data and samples collected from two important UK longitudinal studies (Aberdeen Birth Cohorts born in 1921 and 1936). The data held includes extensive information on early social environment, later life exposures, and changes in cognition, mood, and brain volumes into old age. We believe that our hypotheses, relating to germline imprints, is particularly appropriate to such longitudinal study designs. These epigenetic marks are influenced by the early environment, they are stable over decades, they typically occur in multiple tissue types, and they are known to influence behavior. This is a truly multidisciplinary project involving collaboration between researchers in three UK centers (University of Aberdeen, University College London, and University of Cambridge) with strong track records in the areas relevant to the call. It involves a number of social scientists and biological scientists and crucially involves the training of a post-doctoral scientist to work beyond traditional boundaries and contribute to the development of a new discipline that spans the biological and social sciences. This work is naturally complemented by our existing programme of research on the effects of the early environment on imprinting methylation in a contemporary birth cohort where we have extensive information on maternal diet, nutritional and socioeconomic status, maternal health, birth outcome, etc. In that study we are currently measuring in newborn blood the same imprinted regions that will be studied here. That work will be used to inform the interpretation of the early life findings from the proposed study and identify contemporary early exposures that influence imprints linked to later cognition and mood. We believe that this research provides a unique opportunity to; 1) directly measure the strength of association between early life factors, imprinting and cognition; 2) produce knowledge to underpin the development of evidence based strategies at different life stages to improve mental health and wellbeing; 3) generate specific hypotheses that can be tested in future studies in other human cohorts and brain tissue, such as that available within the MRC brain bank, 4) produce knowledge to inform the development of work in other species and model systems, and 5) contribute to the development of a new research discipline that encompasses the molecular and social sciences.</p>en
dc.languageen-
dc.rightsP Haggarty, University of Aberdeen. Ann Ferguson-Smith, University of Cambridge. Louise Phillips, University of Aberdeen. Roger Staff, University of Aberdeen. Marcus Richards, University College London. Marlene Lorgen-Richie, University of Aberdeenen
dc.subjectCOGNITIVE PROCESSESen
dc.subjectBLOODen
dc.subjectGENETIC SCREENINGen
dc.subjectGENETICSen
dc.subjectEARLY CHILDHOODen
dc.subject2022en
dc.titleImprinting Methylation and Cognition, 2015-2020en
dc.typeDataseten
dc.coverageUnited Kingdomen
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