Genetic analysis of blood molecular phenotypes reveals common properties in the regulatory networks affecting complex traits

Brown, A.A.; Fernández Tajes, Juan; Hong, M.-G.; Brorsson, C.A.; Koivula, R.W.; Davtian, D.; Dupuis, T.; Sartori, A.; Michalettou, T.-D.; Forgie, I.M.; Adam, J.; Allin, K.H.; Caiazzo, R.; Cederberg, H.; De Masi, F.; Elders, P.J.M.; Giordano, G.N.; Haid, M.; Hansen, T.; Hansen, T.H.; Hattersley, A.T.; Heggie, A.J.; Howald, C.; Jones, A.G.; Kokkola, T.; Laakso, M.; Mahajan, A.; Mari, A.; McDonald, T.J.; McEvoy, D.; Mourby, M.; Musholt, P.B.; Nilsson, B.; Pattou, F.; Penet, D.; Raverdy, V.; Ridderstråle, M.; Romano, L.; Rutters, F.; Sharma, S.; Teare, H.; 't Hart, L.; Tsirigos, K.D.; Vangipurapu, J.; Vestergaard, H.; Brunak, S.; Franks, P.W.; Frost, G.; Grallert, H.; Jablonka, B.; McCarthy, M.I.; Pavo, I.; Pedersen, O.; Ruetten, H.; Walker, M.; Adragni, K.; Allesøe, R.L.L.; Artati, A.A.; Arumugam, M.; Atabaki-Pasdar, N.; Baltauss, T.; Banasik, K.; Barnett, A.L.; Baum, P.; Bell, J.D.; Beulens, J.W.; Bianzano, S.B.; Bizzotto, R.; Bonnefond, A.; Cabrelli, L.; Dale, M.; Dawed, A.Y.; de Preville, N.; Dekkers, K.F.; Deshmukh, H.A.; Dings, C.; Donnelly, L.; Dutta, A.; Ehrhardt, B.; Engelbrechtsen, L.; Eriksen, R.; Fan, Y.; Ferrer, J.; Fitipaldi, H.; Forman, A.; Fritsche, A.; Froguel, P.; Gassenhuber, J.; Gough, S.; Graefe-Mody, U.; Grempler, R.; Groeneveld, L.; Groop, L.; Gudmundsdóttir, V.; Gupta, R.; Hennige, A.M.H.; Hill, A.V.; Holl, R.W.; Hudson, M.; Jacobsen, U.P.; Jennison, C.; Johansen, J.; Jonsson, A.; Karaderi, T.; Kaye, J.; Kennedy, G.; Klintenberg, M.; Kuulasmaa, T.; Lehr, T.; Loftus, H.; Lundgaard, A.T.T.; Mazzoni, G.; McRobert, N.; McVittie, I.; Nice, R.; Nicolay, C.; Nijpels, G.; Palmer, C.N.; Pedersen, H.K.; Perry, M.H.; Pomares-Millan, H.; Prehn, C.P.; Ramisch, A.; Rasmussen, S.; Robertson, N.; Rodriquez, M.; Sackett, P.; Scherer, N.; Shah, N.; Sihinevich, I.; Slieker, R.C.; Sondertoft, N.B.; Steckel-Hamann, B.; Thomas, M.K.; Thomas, C.E.E.; Thomas, E.L.L.; Thorand, B.; Thorne, C.E.; Tillner, J.; Tura, A.; Uhlen, M.; van Leeuwen, N.; van Oort, S.; Verkindt, H.; Vogt, J.; Wad Sackett, P.W.; Wesolowska-Andersen, A.; Whitcher, B.; White, M.W.; Adamski, J.; Schwenk, J.M.; Pearson, E.R.; Dermitzakis, E.T.; Viñuela, A.
Thumbnail
Statistics
Statistics
Identifiers
Identifiers
Full record
Services
Services
RISMendeleyLinksolver
Files view or download
Files view or download
Date issued
2023
Journal title
Nature Communications
Type of content
Artigo
MeSH
Humans | Multifactorial Inheritance | Genomics | Phenotype | RNA, Messenger | Research Personnel
Abstract
We evaluate the shared genetic regulation of mRNA molecules, proteins and metabolites derived from whole blood from 3029 human donors. We find abundant allelic heterogeneity, where multiple variants regulate a particular molecular phenotype, and pleiotropy, where a single variant associates with multiple molecular phenotypes over multiple genomic regions. The highest proportion of share genetic regulation is detected between gene expression and proteins (66.6%), with a further median shared genetic associations across 49 different tissues of 78.3% and 62.4% between plasma proteins and gene expression. We represent the genetic and molecular associations in networks including 2828 known GWAS variants, showing that GWAS variants are more often connected to gene expression in trans than other molecular phenotypes in the network. Our work provides a roadmap to understanding molecular networks and deriving the underlying mechanism of action of GWAS variants using different molecular phenotypes in an accessible tissue.
Attribution 4.0 International (CC BY 4.0)
Except where otherwise noted, this item's license is described as Attribution 4.0 International (CC BY 4.0)