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A genomic approach to therapeutic target validation identifies a glucose-lowering GLP1R variant protective for coronary heart disease.

Authors :
Scott, Robert A
Scott, Robert A
Freitag, Daniel F
Li, Li
Chu, Audrey Y
Surendran, Praveen
Young, Robin
Grarup, Niels
Stancáková, Alena
Chen, Yuning
Varga, Tibor V
Yaghootkar, Hanieh
Luan, Jian'an
Zhao, Jing Hua
Willems, Sara M
Wessel, Jennifer
Wang, Shuai
Maruthur, Nisa
Michailidou, Kyriaki
Pirie, Ailith
van der Lee, Sven J
Gillson, Christopher
Al Olama, Ali Amin
Amouyel, Philippe
Arriola, Larraitz
Arveiler, Dominique
Aviles-Olmos, Iciar
Balkau, Beverley
Barricarte, Aurelio
Barroso, Inês
Garcia, Sara Benlloch
Bis, Joshua C
Blankenberg, Stefan
Boehnke, Michael
Boeing, Heiner
Boerwinkle, Eric
Borecki, Ingrid B
Bork-Jensen, Jette
Bowden, Sarah
Caldas, Carlos
Caslake, Muriel
CVD50 consortium
Cupples, L Adrienne
Cruchaga, Carlos
Czajkowski, Jacek
den Hoed, Marcel
Dunn, Janet A
Earl, Helena M
Ehret, Georg B
Ferrannini, Ele
Ferrieres, Jean
Foltynie, Thomas
Ford, Ian
Forouhi, Nita G
Gianfagna, Francesco
Gonzalez, Carlos
Grioni, Sara
Hiller, Louise
Jansson, Jan-Håkan
Jørgensen, Marit E
Jukema, J Wouter
Kaaks, Rudolf
Kee, Frank
Kerrison, Nicola D
Key, Timothy J
Kontto, Jukka
Kote-Jarai, Zsofia
Kraja, Aldi T
Kuulasmaa, Kari
Kuusisto, Johanna
Linneberg, Allan
Liu, Chunyu
Marenne, Gaëlle
Mohlke, Karen L
Morris, Andrew P
Muir, Kenneth
Müller-Nurasyid, Martina
Munroe, Patricia B
Navarro, Carmen
Nielsen, Sune F
Nilsson, Peter M
Nordestgaard, Børge G
Packard, Chris J
Palli, Domenico
Panico, Salvatore
Peloso, Gina M
Perola, Markus
Peters, Annette
Poole, Christopher J
Quirós, J Ramón
Rolandsson, Olov
Sacerdote, Carlotta
Salomaa, Veikko
Sánchez, María-José
Sattar, Naveed
Sharp, Stephen J
Sims, Rebecca
Slimani, Nadia
Smith, Jennifer A
Thompson, Deborah J
Trompet, Stella
Scott, Robert A
Scott, Robert A
Freitag, Daniel F
Li, Li
Chu, Audrey Y
Surendran, Praveen
Young, Robin
Grarup, Niels
Stancáková, Alena
Chen, Yuning
Varga, Tibor V
Yaghootkar, Hanieh
Luan, Jian'an
Zhao, Jing Hua
Willems, Sara M
Wessel, Jennifer
Wang, Shuai
Maruthur, Nisa
Michailidou, Kyriaki
Pirie, Ailith
van der Lee, Sven J
Gillson, Christopher
Al Olama, Ali Amin
Amouyel, Philippe
Arriola, Larraitz
Arveiler, Dominique
Aviles-Olmos, Iciar
Balkau, Beverley
Barricarte, Aurelio
Barroso, Inês
Garcia, Sara Benlloch
Bis, Joshua C
Blankenberg, Stefan
Boehnke, Michael
Boeing, Heiner
Boerwinkle, Eric
Borecki, Ingrid B
Bork-Jensen, Jette
Bowden, Sarah
Caldas, Carlos
Caslake, Muriel
CVD50 consortium
Cupples, L Adrienne
Cruchaga, Carlos
Czajkowski, Jacek
den Hoed, Marcel
Dunn, Janet A
Earl, Helena M
Ehret, Georg B
Ferrannini, Ele
Ferrieres, Jean
Foltynie, Thomas
Ford, Ian
Forouhi, Nita G
Gianfagna, Francesco
Gonzalez, Carlos
Grioni, Sara
Hiller, Louise
Jansson, Jan-Håkan
Jørgensen, Marit E
Jukema, J Wouter
Kaaks, Rudolf
Kee, Frank
Kerrison, Nicola D
Key, Timothy J
Kontto, Jukka
Kote-Jarai, Zsofia
Kraja, Aldi T
Kuulasmaa, Kari
Kuusisto, Johanna
Linneberg, Allan
Liu, Chunyu
Marenne, Gaëlle
Mohlke, Karen L
Morris, Andrew P
Muir, Kenneth
Müller-Nurasyid, Martina
Munroe, Patricia B
Navarro, Carmen
Nielsen, Sune F
Nilsson, Peter M
Nordestgaard, Børge G
Packard, Chris J
Palli, Domenico
Panico, Salvatore
Peloso, Gina M
Perola, Markus
Peters, Annette
Poole, Christopher J
Quirós, J Ramón
Rolandsson, Olov
Sacerdote, Carlotta
Salomaa, Veikko
Sánchez, María-José
Sattar, Naveed
Sharp, Stephen J
Sims, Rebecca
Slimani, Nadia
Smith, Jennifer A
Thompson, Deborah J
Trompet, Stella
Source :
Science translational medicine; vol 8, iss 341, 341ra76; 1946-6234
Publication Year :
2016

Abstract

Regulatory authorities have indicated that new drugs to treat type 2 diabetes (T2D) should not be associated with an unacceptable increase in cardiovascular risk. Human genetics may be able to guide development of antidiabetic therapies by predicting cardiovascular and other health endpoints. We therefore investigated the association of variants in six genes that encode drug targets for obesity or T2D with a range of metabolic traits in up to 11,806 individuals by targeted exome sequencing and follow-up in 39,979 individuals by targeted genotyping, with additional in silico follow-up in consortia. We used these data to first compare associations of variants in genes encoding drug targets with the effects of pharmacological manipulation of those targets in clinical trials. We then tested the association of those variants with disease outcomes, including coronary heart disease, to predict cardiovascular safety of these agents. A low-frequency missense variant (Ala316Thr; rs10305492) in the gene encoding glucagon-like peptide-1 receptor (GLP1R), the target of GLP1R agonists, was associated with lower fasting glucose and T2D risk, consistent with GLP1R agonist therapies. The minor allele was also associated with protection against heart disease, thus providing evidence that GLP1R agonists are not likely to be associated with an unacceptable increase in cardiovascular risk. Our results provide an encouraging signal that these agents may be associated with benefit, a question currently being addressed in randomized controlled trials. Genetic variants associated with metabolic traits and multiple disease outcomes can be used to validate therapeutic targets at an early stage in the drug development process.

Details

Database :
OAIster
Journal :
Science translational medicine; vol 8, iss 341, 341ra76; 1946-6234
Notes :
Science translational medicine vol 8, iss 341, 341ra76 1946-6234
Publication Type :
Electronic Resource
Accession number :
edsoai.on1287434053
Document Type :
Electronic Resource