GWAS Study

Genetic insights into biological mechanisms governing human ovarian ageing.

Name: DNAGENICS DNA Analysis Platform
Rating: 4.4 (96 reviews)
Author: DNAGENICS

Ruth KS, Day FR, Hussain J et al.

34349265 PubMed ID

GWAS Study Type

574468 Participants

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Chapter I

Publication Details

Comprehensive information about this research publication

Journal Nature

Publication Date 2021-08-04

Disease/Trait Age at natural menopause

DOI 10.1038/s41586-021-03779-7

ISSN 1476-4687

Authors

Ruth KS

Day FR

Hussain J

Martínez-Marchal A

Aiken CE

Azad A

Thompson DJ

Knoblochova L

Abe H

Tarry-Adkins JL

Gonzalez JM

Fontanillas P

Claringbould A

Bakker OB

Sulem P

Walters RG

Terao C

Turon S

Horikoshi M

Lin K

Onland-Moret NC

Sankar A

Hertz EPT

Timshel PN

Shukla V

Borup R

Olsen KW

Aguilera P

Ferrer-Roda M

Huang Y

Stankovic S

Timmers PRHJ

Ahearn TU

Alizadeh BZ

Naderi E

Andrulis IL

Arnold AM

Aronson KJ

Augustinsson A

Bandinelli S

Barbieri CM

Beaumont RN

Becher H

Beckmann MW

Benonisdottir S

Bergmann S

Bochud M

Boerwinkle E

Bojesen SE

Bolla MK

Boomsma DI

Bowker N

Brody JA

Broer L

Buring JE

Campbell A

Campbell H

Castelao JE

Catamo E

Chanock SJ

Chenevix-Trench G

Ciullo M

Corre T

Couch FJ

Cox A

Crisponi L

Cross SS

Cucca F

Czene K

Smith GD

de Geus EJCN

de Mutsert R

De Vivo I

Demerath EW

Dennis J

Dunning AM

Dwek M

Eriksson M

Esko T

Fasching PA

Faul JD

Ferrucci L

Franceschini N

Frayling TM

Gago-Dominguez M

Mezzavilla M

García-Closas M

Gieger C

Giles GG

Grallert H

Gudbjartsson DF

Gudnason V

Guénel P

Haiman CA

Håkansson N

Hall P

Hayward C

He C

He W

Heiss G

Høffding MK

Hopper JL

Hottenga JJ

Hu F

Hunter D

Ikram MA

Jackson RD

Joaquim MDR

John EM

Joshi PK

Karasik D

Kardia SLR

Kartsonaki C

Karlsson R

Kitahara CM

Kolcic I

Kooperberg C

Kraft P

Kurian AW

Kutalik Z

La Bianca M

LaChance G

Langenberg C

Launer LJ

Laven JSE

Lawlor DA

Le Marchand L

Li J

Lindblom A

Lindstrom S

Lindstrom T

Linet M

Liu Y

Liu S

Luan J

Mägi R

Magnusson PKE

Mangino M

Mannermaa A

Marco B

Marten J

Martin NG

Mbarek H

McKnight B

Medland SE

Meisinger C

Meitinger T

Menni C

Metspalu A

Milani L

Milne RL

Montgomery GW

Mook-Kanamori DO

Mulas A

Mulligan AM

Murray A

Nalls MA

Newman A

Noordam R

Nutile T

Nyholt DR

Olshan AF

Olsson H

Painter JN

Patel AV

Pedersen NL

Perjakova N

Peters A

Peters U

Pharoah PDP

Polasek O

Porcu E

Psaty BM

Rahman I

Rennert G

Rennert HS

Ridker PM

Ring SM

Robino A

Rose LM

Rosendaal FR

Rossouw J

Rudan I

Rueedi R

Ruggiero D

Sala CF

Saloustros E

Sandler DP

Sanna S

Sawyer EJ

Sarnowski C

Schlessinger D

Schmidt MK

Schoemaker MJ

Schraut KE

Scott C

Shekari S

Shrikhande A

Smith AV

Smith BH

Smith JA

Sorice R

Southey MC

Spector TD

Spinelli JJ

Stampfer M

Stöckl D

van Meurs JBJ

Strauch K

Styrkarsdottir U

Swerdlow AJ

Tanaka T

Teras LR

Teumer A

ÞU

Þorsteinsdottir U

Timpson NJ

Toniolo D

Traglia M

Troester MA

Truong T

Tyrrell J

Uitterlinden AG

Ulivi S

Vachon CM

Vitart V

Völker U

Vollenweider P

Völzke H

Wang Q

Wareham NJ

Weinberg CR

Weir DR

Wilcox AN

van Dijk KW

Willemsen G

Wilson JF

Wolffenbuttel BHR

Wolk A

Wood AR

Zhao W

Zygmunt M

Chen Z

Li L

Franke L

Burgess S

Deelen P

Pers TH

Grøndahl ML

Andersen CY

Pujol A

Lopez-Contreras AJ

Daniel JA

Stefansson K

Chang-Claude J

van der Schouw YT

Lunetta KL

Chasman DI

Easton DF

Visser JA

Ozanne SE

Namekawa SH

Solc P

Murabito JM

Ong KK

Hoffmann ER

Murray A

Roig I

Perry JRB

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Chapter II

Abstract

Summary of the research findings

Reproductive longevity is essential for fertility and influences healthy ageing in women1,2, but insights into its underlying biological mechanisms and treatments to preserve it are limited. Here we identify 290 genetic determinants of ovarian ageing, assessed using normal variation in age at natural menopause (ANM) in about 200,000 women of European ancestry. These common alleles were associated with clinical extremes of ANM; women in the top 1% of genetic susceptibility have an equivalent risk of premature ovarian insufficiency to those carrying monogenic FMR1 premutations3. The identified loci implicate a broad range of DNA damage response (DDR) processes and include loss-of-function variants in key DDR-associated genes. Integration with experimental models demonstrates that these DDR processes act across the life-course to shape the ovarian reserve and its rate of depletion. Furthermore, we demonstrate that experimental manipulation of DDR pathways highlighted by human genetics increases fertility and extends reproductive life in mice. Causal inference analyses using the identified genetic variants indicate that extending reproductive life in women improves bone health and reduces risk of type 2 diabetes, but increases the risk of hormone-sensitive cancers. These findings provide insight into the mechanisms that govern ovarian ageing, when they act, and how they might be targeted by therapeutic approaches to extend fertility and prevent disease.

201,323 European ancestry individuals

Chapter III

Study Statistics

Key metrics and study information

574468

Total Participants

GWAS

Study Type

Yes

Replicated

294,828 individuals, up to 78,317 East Asian ancestry individuals

Replication Participants

European, East Asian

Ancestry

U.K., China

Recruitment Country

Chapter IV

AI-Generated Summary

AI-generated by DNAGENICS

Independent AI summary of health and genetic findings from the published study

Important: This summary is AI-generated by DNAGENICS for informational purposes only. It was not created by, affiliated with, or endorsed by the researchers behind the original publication, and is based solely on that published research. It may contain errors or omissions. DNAGENICS disclaims all liability for any inaccuracies or consequences arising from use of this information. Verify all information against the original publication. This is not professional scientific review or medical advice.

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Genetic insights into biological mechanisms governing human ovarian ageing.

Publication Details

Authors

Abstract

Study Statistics

AI-Generated Summary

AI Summary In Progress

Summary

Key Findings

Health Insights

Disease Analysis

Genetic Trait Analysis

Clinical Relevance

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Genetic insights into biological mechanisms governing human ovarian ageing.

Publication Details

Authors

Abstract

Study Statistics

AI-Generated Summary

AI Summary In Progress

Summary

Key Findings

Health Insights

Disease Analysis

Genetic Trait Analysis

Clinical Relevance

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