MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality

Adriaan van der Graaf; Robert Warmerdam; Chiara Auwerx; Manke Xie; Andrew R. Wood; Harm Jan Westra; Stefan Weiss; Uwe Völker; Peter M. Visscher; Ana Viñuela; Joost Verlouw; Jan Veldink; Alex Tokolyi; Alexander Teumer; Juan Carlos Souto; José Manuel Soria; Eline Slagboom; Andrew Singleton; Emma Raitoharju; Olli T. Raitakari; Holger Prokisch; Annette Peters; Elodie Persyn; Dirk S. Paul; Bogdan Pasaniuc; Roel Ophoff; Matthias Nauck; Sini Nagpal; Grant W. Montgomery; Lili Milani; Joyce van Meurs; Allan F. McRae; Angel Martinez-Perez; Reedik Mägi; Terho Lehtimäki; Sandra Lapinska; Viktorija Kukushkina; Mika Kähönen; Rick Jansen; Michael Inouye; M. Arfan Ikram; Binisha Hamal Mishra; Marleen van Greevenbroek; Christian Gieger; Greg Gibson; Timothy M. Frayling; Luigi Ferrucci; Aiman Farzeen; Tõnu Esko; Théo Dupuis

doi:10.1038/s41467-025-60868-1

MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality

Adriaan van der Graaf, Robert Warmerdam, Chiara Auwerx, Manke Xie, Andrew R. Wood, Harm Jan Westra, Stefan Weiss, Uwe Völker, Peter M. Visscher, Ana Viñuela, Joost Verlouw, Jan Veldink, Alex Tokolyi, Alexander Teumer, Juan Carlos Souto, José Manuel Soria, Eline Slagboom, Andrew Singleton, Emma Raitoharju, Olli T. RaitakariHolger Prokisch, Annette Peters, Elodie Persyn, Dirk S. Paul, Bogdan Pasaniuc, Roel Ophoff, Matthias Nauck, Sini Nagpal, Grant W. Montgomery, Lili Milani, Joyce van Meurs, Allan F. McRae, Angel Martinez-Perez, Reedik Mägi, Terho Lehtimäki, Sandra Lapinska, Viktorija Kukushkina, Mika Kähönen, Rick Jansen, Michael Inouye, M. Arfan Ikram, Binisha Hamal Mishra, Marleen van Greevenbroek, Christian Gieger, Greg Gibson, Timothy M. Frayling, Luigi Ferrucci, Aiman Farzeen, Tõnu Esko, Théo Dupuis,

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Mendelian randomization (MR) identifies causal relationships from observational data but has increased Type 1 error rates (T1E) when genetic instruments are limited to a single associated region, a typical scenario for molecular exposures. We developed MR-link-2, which leverages summary statistics and linkage disequilibrium (LD) to estimate causal effects and pleiotropy in a single region. We compare MR-link-2 to other cis MR methods: i) In simulations, MR-link-2 has calibrated T1E and high power. ii) We reidentify metabolic reactions from three metabolic pathway references using four independent metabolite quantitative trait locus studies. MR-link-2 often (76%) outperforms other methods in area under the receiver operator characteristic curve (AUC) (up to 0.80). iii) For canonical causal relationships between complex traits, MR-link-2 has lower per-locus T1E (0.096 vs. min. 0.142, at 5% level), identifying all but one of the true causal links, reducing cross-locus causal effect heterogeneity to almost half. iv) Testing causal direction between blood cell compositions and marker gene expression shows MR-link-2 has superior AUC (0.82 vs. 0.68). Finally, analyzing causality between metabolites not directly connected by canonical reactions, only MR-link-2 identifies the causal relationship between pyruvate and citrate (α̂ = 0.11, P = 7.2⋅10⁻⁷), a key citric acid cycle reaction. Overall, MR-link-2 identifies pleiotropy-robust causality from summary statistics in single associated regions, making it well suited for applications to molecular phenotypes.

Original language	English
Article number	6112
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-60868-1
Publication status	Published - 3 Jul 2025

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MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causalityFinal published version, 3.02 MBLicence: CC BY

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van der Graaf, A., Warmerdam, R., Auwerx, C., Xie, M., Wood, A. R., Westra, H. J., Weiss, S., Völker, U., Visscher, P. M., Viñuela, A., Verlouw, J., Veldink, J., Tokolyi, A., Teumer, A., Souto, J. C., Soria, J. M., Slagboom, E., Singleton, A., Raitoharju, E. (2025). MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality. Nature Communications, 16(1), Article 6112. https://doi.org/10.1038/s41467-025-60868-1

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title = "MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality",

abstract = "Mendelian randomization (MR) identifies causal relationships from observational data but has increased Type 1 error rates (T1E) when genetic instruments are limited to a single associated region, a typical scenario for molecular exposures. We developed MR-link-2, which leverages summary statistics and linkage disequilibrium (LD) to estimate causal effects and pleiotropy in a single region. We compare MR-link-2 to other cis MR methods: i) In simulations, MR-link-2 has calibrated T1E and high power. ii) We reidentify metabolic reactions from three metabolic pathway references using four independent metabolite quantitative trait locus studies. MR-link-2 often (76\%) outperforms other methods in area under the receiver operator characteristic curve (AUC) (up to 0.80). iii) For canonical causal relationships between complex traits, MR-link-2 has lower per-locus T1E (0.096 vs. min. 0.142, at 5\% level), identifying all but one of the true causal links, reducing cross-locus causal effect heterogeneity to almost half. iv) Testing causal direction between blood cell compositions and marker gene expression shows MR-link-2 has superior AUC (0.82 vs. 0.68). Finally, analyzing causality between metabolites not directly connected by canonical reactions, only MR-link-2 identifies the causal relationship between pyruvate and citrate ({\^α} = 0.11, P = 7.2⋅10−7), a key citric acid cycle reaction. Overall, MR-link-2 identifies pleiotropy-robust causality from summary statistics in single associated regions, making it well suited for applications to molecular phenotypes.",

author = "\{van der Graaf\}, Adriaan and Robert Warmerdam and Chiara Auwerx and Manke Xie and Wood, \{Andrew R.\} and Westra, \{Harm Jan\} and Stefan Weiss and Uwe V{\"o}lker and Visscher, \{Peter M.\} and Ana Vi{\~n}uela and Joost Verlouw and Jan Veldink and Alex Tokolyi and Alexander Teumer and Souto, \{Juan Carlos\} and Soria, \{Jos{\'e} Manuel\} and Eline Slagboom and Andrew Singleton and Emma Raitoharju and Raitakari, \{Olli T.\} and Holger Prokisch and Annette Peters and Elodie Persyn and Paul, \{Dirk S.\} and Bogdan Pasaniuc and Roel Ophoff and Matthias Nauck and Sini Nagpal and Montgomery, \{Grant W.\} and Lili Milani and \{van Meurs\}, Joyce and McRae, \{Allan F.\} and Angel Martinez-Perez and Reedik M{\"a}gi and Terho Lehtim{\"a}ki and Sandra Lapinska and Viktorija Kukushkina and Mika K{\"a}h{\"o}nen and Rick Jansen and Michael Inouye and Ikram, \{M. Arfan\} and Mishra, \{Binisha Hamal\} and \{van Greevenbroek\}, Marleen and Christian Gieger and Greg Gibson and Frayling, \{Timothy M.\} and Luigi Ferrucci and Aiman Farzeen and T{\~o}nu Esko and Th{\'e}o Dupuis",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = jul,

day = "3",

doi = "10.1038/s41467-025-60868-1",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

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van der Graaf, A, Warmerdam, R, Auwerx, C, Xie, M, Wood, AR, Westra, HJ, Weiss, S, Völker, U, Visscher, PM, Viñuela, A, Verlouw, J, Veldink, J, Tokolyi, A, Teumer, A, Souto, JC, Soria, JM, Slagboom, E, Singleton, A, Raitoharju, E, Raitakari, OT, Prokisch, H, Peters, A, Persyn, E, Paul, DS, Pasaniuc, B, Ophoff, R, Nauck, M, Nagpal, S, Montgomery, GW, Milani, L, van Meurs, J, McRae, AF, Martinez-Perez, A, Mägi, R, Lehtimäki, T, Lapinska, S, Kukushkina, V, Kähönen, M, Jansen, R, Inouye, M, Ikram, MA, Mishra, BH, van Greevenbroek, M, Gieger, C, Gibson, G, Frayling, TM, Ferrucci, L, Farzeen, A, Esko, T, Dupuis, T 2025, 'MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality', Nature Communications, vol. 16, no. 1, 6112. https://doi.org/10.1038/s41467-025-60868-1

TY - JOUR

T1 - MR-link-2

T2 - pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality

AU - van der Graaf, Adriaan

AU - Warmerdam, Robert

AU - Auwerx, Chiara

AU - Xie, Manke

AU - Wood, Andrew R.

AU - Westra, Harm Jan

AU - Weiss, Stefan

AU - Völker, Uwe

AU - Visscher, Peter M.

AU - Viñuela, Ana

AU - Verlouw, Joost

AU - Veldink, Jan

AU - Tokolyi, Alex

AU - Teumer, Alexander

AU - Souto, Juan Carlos

AU - Soria, José Manuel

AU - Slagboom, Eline

AU - Singleton, Andrew

AU - Raitoharju, Emma

AU - Raitakari, Olli T.

AU - Prokisch, Holger

AU - Peters, Annette

AU - Persyn, Elodie

AU - Paul, Dirk S.

AU - Pasaniuc, Bogdan

AU - Ophoff, Roel

AU - Nauck, Matthias

AU - Nagpal, Sini

AU - Montgomery, Grant W.

AU - Milani, Lili

AU - van Meurs, Joyce

AU - McRae, Allan F.

AU - Martinez-Perez, Angel

AU - Mägi, Reedik

AU - Lehtimäki, Terho

AU - Lapinska, Sandra

AU - Kukushkina, Viktorija

AU - Kähönen, Mika

AU - Jansen, Rick

AU - Inouye, Michael

AU - Ikram, M. Arfan

AU - Mishra, Binisha Hamal

AU - van Greevenbroek, Marleen

AU - Gieger, Christian

AU - Gibson, Greg

AU - Frayling, Timothy M.

AU - Ferrucci, Luigi

AU - Farzeen, Aiman

AU - Esko, Tõnu

AU - Dupuis, Théo

PY - 2025/7/3

Y1 - 2025/7/3

N2 - Mendelian randomization (MR) identifies causal relationships from observational data but has increased Type 1 error rates (T1E) when genetic instruments are limited to a single associated region, a typical scenario for molecular exposures. We developed MR-link-2, which leverages summary statistics and linkage disequilibrium (LD) to estimate causal effects and pleiotropy in a single region. We compare MR-link-2 to other cis MR methods: i) In simulations, MR-link-2 has calibrated T1E and high power. ii) We reidentify metabolic reactions from three metabolic pathway references using four independent metabolite quantitative trait locus studies. MR-link-2 often (76%) outperforms other methods in area under the receiver operator characteristic curve (AUC) (up to 0.80). iii) For canonical causal relationships between complex traits, MR-link-2 has lower per-locus T1E (0.096 vs. min. 0.142, at 5% level), identifying all but one of the true causal links, reducing cross-locus causal effect heterogeneity to almost half. iv) Testing causal direction between blood cell compositions and marker gene expression shows MR-link-2 has superior AUC (0.82 vs. 0.68). Finally, analyzing causality between metabolites not directly connected by canonical reactions, only MR-link-2 identifies the causal relationship between pyruvate and citrate (α̂ = 0.11, P = 7.2⋅10−7), a key citric acid cycle reaction. Overall, MR-link-2 identifies pleiotropy-robust causality from summary statistics in single associated regions, making it well suited for applications to molecular phenotypes.

AB - Mendelian randomization (MR) identifies causal relationships from observational data but has increased Type 1 error rates (T1E) when genetic instruments are limited to a single associated region, a typical scenario for molecular exposures. We developed MR-link-2, which leverages summary statistics and linkage disequilibrium (LD) to estimate causal effects and pleiotropy in a single region. We compare MR-link-2 to other cis MR methods: i) In simulations, MR-link-2 has calibrated T1E and high power. ii) We reidentify metabolic reactions from three metabolic pathway references using four independent metabolite quantitative trait locus studies. MR-link-2 often (76%) outperforms other methods in area under the receiver operator characteristic curve (AUC) (up to 0.80). iii) For canonical causal relationships between complex traits, MR-link-2 has lower per-locus T1E (0.096 vs. min. 0.142, at 5% level), identifying all but one of the true causal links, reducing cross-locus causal effect heterogeneity to almost half. iv) Testing causal direction between blood cell compositions and marker gene expression shows MR-link-2 has superior AUC (0.82 vs. 0.68). Finally, analyzing causality between metabolites not directly connected by canonical reactions, only MR-link-2 identifies the causal relationship between pyruvate and citrate (α̂ = 0.11, P = 7.2⋅10−7), a key citric acid cycle reaction. Overall, MR-link-2 identifies pleiotropy-robust causality from summary statistics in single associated regions, making it well suited for applications to molecular phenotypes.

UR - https://www.scopus.com/pages/publications/105010661825

U2 - 10.1038/s41467-025-60868-1

DO - 10.1038/s41467-025-60868-1

M3 - Article

C2 - 40610416

AN - SCOPUS:105010661825

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6112

ER -

MR-link-2: pleiotropy robust cis Mendelian randomization validated in three independent reference datasets of causality

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