Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes

Early Growth Genetics Consortium; Jonathan P. Bradfield; Rachel L. Kember; Anna Ulrich; Zhanna Balkiyarova; Akram Alyass; Izzuddin M. Aris; Joshua A. Bell; K. Alaine Broadaway; Zhanghua Chen; Jin Fang Chai; Neil M. Davies; Dietmar Fernandez-Orth; Mariona Bustamante; Ruby Fore; Amitavo Ganguli; Anni Heiskala; Jouke Jan Hottenga; Carmen Íñiguez; Sayuko Kobes; Jaakko Leinonen; Estelle Lowry; Leo Pekka Lyytikainen; Anubha Mahajan; Niina Pitkänen; Theresia M. Schnurr; Christian Theil Have; David P. Strachan; Elisabeth Thiering; Suzanne Vogelezang; Kaitlin H. Wade; Carol A. Wang; Andrew Wong; Louise Aas Holm; Alessandra Chesi; Catherine Choong; Miguel Cruz; Paul Elliott; Steve Franks; Christine Frithioff-Bøjsøe; W. James Gauderman; Joseph T. Glessner; Vicente Gilsanz; Kendra Griesman; Robert L. Hanson; Mika Kähönen; Nina Mononen; Johan G. Eriksson; Terho Lehtimäki; Juha Mykkänen; John A. Shepherd

doi:10.1186/s13059-023-03136-z

Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes

Early Growth Genetics Consortium, Jonathan P. Bradfield, Rachel L. Kember, Anna Ulrich, Zhanna Balkiyarova, Akram Alyass, Izzuddin M. Aris, Joshua A. Bell, K. Alaine Broadaway, Zhanghua Chen, Jin Fang Chai, Neil M. Davies, Dietmar Fernandez-Orth, Mariona Bustamante, Ruby Fore, Amitavo Ganguli, Anni Heiskala, Jouke Jan Hottenga, Carmen Íñiguez, Sayuko KobesJaakko Leinonen, Estelle Lowry, Leo Pekka Lyytikainen, Anubha Mahajan, Niina Pitkänen, Theresia M. Schnurr, Christian Theil Have, David P. Strachan, Elisabeth Thiering, Suzanne Vogelezang, Kaitlin H. Wade, Carol A. Wang, Andrew Wong, Louise Aas Holm, Alessandra Chesi, Catherine Choong, Miguel Cruz, Paul Elliott, Steve Franks, Christine Frithioff-Bøjsøe, W. James Gauderman, Joseph T. Glessner, Vicente Gilsanz, Kendra Griesman, Robert L. Hanson, Mika Kähönen, Nina Mononen, Johan G. Eriksson, Terho Lehtimäki, Juha Mykkänen, John A. Shepherd

Tutkimustuotos: Artikkeli › Tieteellinen › vertaisarvioitu

8 Sitaatiot (Scopus)

132 Lataukset (Pure)

Abstrakti

BACKGROUND: Pubertal growth patterns correlate with future health outcomes. However, the genetic mechanisms mediating growth trajectories remain largely unknown. Here, we modeled longitudinal height growth with Super-Imposition by Translation And Rotation (SITAR) growth curve analysis on ~ 56,000 trans-ancestry samples with repeated height measurements from age 5 years to adulthood. We performed genetic analysis on six phenotypes representing the magnitude, timing, and intensity of the pubertal growth spurt. To investigate the lifelong impact of genetic variants associated with pubertal growth trajectories, we performed genetic correlation analyses and phenome-wide association studies in the Penn Medicine BioBank and the UK Biobank. RESULTS: Large-scale growth modeling enables an unprecedented view of adolescent growth across contemporary and 20th-century pediatric cohorts. We identify 26 genome-wide significant loci and leverage trans-ancestry data to perform fine-mapping. Our data reveals genetic relationships between pediatric height growth and health across the life course, with different growth trajectories correlated with different outcomes. For instance, a faster tempo of pubertal growth correlates with higher bone mineral density, HOMA-IR, fasting insulin, type 2 diabetes, and lung cancer, whereas being taller at early puberty, taller across puberty, and having quicker pubertal growth were associated with higher risk for atrial fibrillation. CONCLUSION: We report novel genetic associations with the tempo of pubertal growth and find that genetic determinants of growth are correlated with reproductive, glycemic, respiratory, and cardiac traits in adulthood. These results aid in identifying specific growth trajectories impacting lifelong health and show that there may not be a single "optimal" pubertal growth pattern.

Alkuperäiskieli	Englanti
Artikkeli	22
Julkaisu	Genome biology
Vuosikerta	25
Numero	1
DOI - pysyväislinkit	https://doi.org/10.1186/s13059-023-03136-z
Tila	Julkaistu - 16 tammik. 2024
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Julkaisufoorumi-taso

Jufo-taso 3

!!ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Genetics
Endocrinology, Diabetes and Metabolism
Cell Biology

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10.1186/s13059-023-03136-zLisenssi: CC BY

s13059-023-03136-zFinal published version, 1,36 MBLisenssi: CC BY

https://urn.fi/URN:NBN:fi:tuni-202402192333Lisenssi: CC BY

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Early Growth Genetics Consortium, Bradfield, J. P., Kember, R. L., Ulrich, A., Balkiyarova, Z., Alyass, A., Aris, I. M., Bell, J. A., Broadaway, K. A., Chen, Z., Chai, J. F., Davies, N. M., Fernandez-Orth, D., Bustamante, M., Fore, R., Ganguli, A., Heiskala, A., Hottenga, J. J., Íñiguez, C., ... Shepherd, J. A. (2024). Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes. Genome biology, 25(1), Artikkeli 22. https://doi.org/10.1186/s13059-023-03136-z

@article{381953acea614466bf250397f9327acc,

title = "Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes",

abstract = "BACKGROUND: Pubertal growth patterns correlate with future health outcomes. However, the genetic mechanisms mediating growth trajectories remain largely unknown. Here, we modeled longitudinal height growth with Super-Imposition by Translation And Rotation (SITAR) growth curve analysis on ~ 56,000 trans-ancestry samples with repeated height measurements from age 5 years to adulthood. We performed genetic analysis on six phenotypes representing the magnitude, timing, and intensity of the pubertal growth spurt. To investigate the lifelong impact of genetic variants associated with pubertal growth trajectories, we performed genetic correlation analyses and phenome-wide association studies in the Penn Medicine BioBank and the UK Biobank. RESULTS: Large-scale growth modeling enables an unprecedented view of adolescent growth across contemporary and 20th-century pediatric cohorts. We identify 26 genome-wide significant loci and leverage trans-ancestry data to perform fine-mapping. Our data reveals genetic relationships between pediatric height growth and health across the life course, with different growth trajectories correlated with different outcomes. For instance, a faster tempo of pubertal growth correlates with higher bone mineral density, HOMA-IR, fasting insulin, type 2 diabetes, and lung cancer, whereas being taller at early puberty, taller across puberty, and having quicker pubertal growth were associated with higher risk for atrial fibrillation. CONCLUSION: We report novel genetic associations with the tempo of pubertal growth and find that genetic determinants of growth are correlated with reproductive, glycemic, respiratory, and cardiac traits in adulthood. These results aid in identifying specific growth trajectories impacting lifelong health and show that there may not be a single {"}optimal{"} pubertal growth pattern.",

author = "{Early Growth Genetics Consortium} and Bradfield, {Jonathan P.} and Kember, {Rachel L.} and Anna Ulrich and Zhanna Balkiyarova and Akram Alyass and Aris, {Izzuddin M.} and Bell, {Joshua A.} and Broadaway, {K. Alaine} and Zhanghua Chen and Chai, {Jin Fang} and Davies, {Neil M.} and Dietmar Fernandez-Orth and Mariona Bustamante and Ruby Fore and Amitavo Ganguli and Anni Heiskala and Hottenga, {Jouke Jan} and Carmen {\'I}{\~n}iguez and Sayuko Kobes and Jaakko Leinonen and Estelle Lowry and Lyytikainen, {Leo Pekka} and Anubha Mahajan and Niina Pitk{\"a}nen and Schnurr, {Theresia M.} and Have, {Christian Theil} and Strachan, {David P.} and Elisabeth Thiering and Suzanne Vogelezang and Wade, {Kaitlin H.} and Wang, {Carol A.} and Andrew Wong and Holm, {Louise Aas} and Alessandra Chesi and Catherine Choong and Miguel Cruz and Paul Elliott and Steve Franks and Christine Frithioff-B{\o}js{\o}e and Gauderman, {W. James} and Glessner, {Joseph T.} and Vicente Gilsanz and Kendra Griesman and Hanson, {Robert L.} and Mika K{\"a}h{\"o}nen and Nina Mononen and Eriksson, {Johan G.} and Terho Lehtim{\"a}ki and Juha Mykk{\"a}nen and Shepherd, {John A.}",

note = "Publisher Copyright: {\textcopyright} 2023. The Author(s).",

year = "2024",

month = jan,

day = "16",

doi = "10.1186/s13059-023-03136-z",

language = "English",

volume = "25",

number = "1",

}

Early Growth Genetics Consortium, Bradfield, JP, Kember, RL, Ulrich, A, Balkiyarova, Z, Alyass, A, Aris, IM, Bell, JA, Broadaway, KA, Chen, Z, Chai, JF, Davies, NM, Fernandez-Orth, D, Bustamante, M, Fore, R, Ganguli, A, Heiskala, A, Hottenga, JJ, Íñiguez, C, Kobes, S, Leinonen, J, Lowry, E, Lyytikainen, LP, Mahajan, A, Pitkänen, N, Schnurr, TM, Have, CT, Strachan, DP, Thiering, E, Vogelezang, S, Wade, KH, Wang, CA, Wong, A, Holm, LA, Chesi, A, Choong, C, Cruz, M, Elliott, P, Franks, S, Frithioff-Bøjsøe, C, Gauderman, WJ, Glessner, JT, Gilsanz, V, Griesman, K, Hanson, RL, Kähönen, M , Mononen, N, Eriksson, JG, Lehtimäki, T , Mykkänen, J & Shepherd, JA 2024, 'Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes', Genome biology, Vuosikerta 25, Nro 1, 22. https://doi.org/10.1186/s13059-023-03136-z

TY - JOUR

T1 - Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes

AU - Early Growth Genetics Consortium

AU - Bradfield, Jonathan P.

AU - Kember, Rachel L.

AU - Ulrich, Anna

AU - Balkiyarova, Zhanna

AU - Alyass, Akram

AU - Aris, Izzuddin M.

AU - Bell, Joshua A.

AU - Broadaway, K. Alaine

AU - Chen, Zhanghua

AU - Chai, Jin Fang

AU - Davies, Neil M.

AU - Fernandez-Orth, Dietmar

AU - Bustamante, Mariona

AU - Fore, Ruby

AU - Ganguli, Amitavo

AU - Heiskala, Anni

AU - Hottenga, Jouke Jan

AU - Íñiguez, Carmen

AU - Kobes, Sayuko

AU - Leinonen, Jaakko

AU - Lowry, Estelle

AU - Lyytikainen, Leo Pekka

AU - Mahajan, Anubha

AU - Pitkänen, Niina

AU - Schnurr, Theresia M.

AU - Have, Christian Theil

AU - Strachan, David P.

AU - Thiering, Elisabeth

AU - Vogelezang, Suzanne

AU - Wade, Kaitlin H.

AU - Wang, Carol A.

AU - Wong, Andrew

AU - Holm, Louise Aas

AU - Chesi, Alessandra

AU - Choong, Catherine

AU - Cruz, Miguel

AU - Elliott, Paul

AU - Franks, Steve

AU - Frithioff-Bøjsøe, Christine

AU - Gauderman, W. James

AU - Glessner, Joseph T.

AU - Gilsanz, Vicente

AU - Griesman, Kendra

AU - Hanson, Robert L.

AU - Kähönen, Mika

AU - Mononen, Nina

AU - Eriksson, Johan G.

AU - Lehtimäki, Terho

AU - Mykkänen, Juha

AU - Shepherd, John A.

PY - 2024/1/16

Y1 - 2024/1/16

N2 - BACKGROUND: Pubertal growth patterns correlate with future health outcomes. However, the genetic mechanisms mediating growth trajectories remain largely unknown. Here, we modeled longitudinal height growth with Super-Imposition by Translation And Rotation (SITAR) growth curve analysis on ~ 56,000 trans-ancestry samples with repeated height measurements from age 5 years to adulthood. We performed genetic analysis on six phenotypes representing the magnitude, timing, and intensity of the pubertal growth spurt. To investigate the lifelong impact of genetic variants associated with pubertal growth trajectories, we performed genetic correlation analyses and phenome-wide association studies in the Penn Medicine BioBank and the UK Biobank. RESULTS: Large-scale growth modeling enables an unprecedented view of adolescent growth across contemporary and 20th-century pediatric cohorts. We identify 26 genome-wide significant loci and leverage trans-ancestry data to perform fine-mapping. Our data reveals genetic relationships between pediatric height growth and health across the life course, with different growth trajectories correlated with different outcomes. For instance, a faster tempo of pubertal growth correlates with higher bone mineral density, HOMA-IR, fasting insulin, type 2 diabetes, and lung cancer, whereas being taller at early puberty, taller across puberty, and having quicker pubertal growth were associated with higher risk for atrial fibrillation. CONCLUSION: We report novel genetic associations with the tempo of pubertal growth and find that genetic determinants of growth are correlated with reproductive, glycemic, respiratory, and cardiac traits in adulthood. These results aid in identifying specific growth trajectories impacting lifelong health and show that there may not be a single "optimal" pubertal growth pattern.

AB - BACKGROUND: Pubertal growth patterns correlate with future health outcomes. However, the genetic mechanisms mediating growth trajectories remain largely unknown. Here, we modeled longitudinal height growth with Super-Imposition by Translation And Rotation (SITAR) growth curve analysis on ~ 56,000 trans-ancestry samples with repeated height measurements from age 5 years to adulthood. We performed genetic analysis on six phenotypes representing the magnitude, timing, and intensity of the pubertal growth spurt. To investigate the lifelong impact of genetic variants associated with pubertal growth trajectories, we performed genetic correlation analyses and phenome-wide association studies in the Penn Medicine BioBank and the UK Biobank. RESULTS: Large-scale growth modeling enables an unprecedented view of adolescent growth across contemporary and 20th-century pediatric cohorts. We identify 26 genome-wide significant loci and leverage trans-ancestry data to perform fine-mapping. Our data reveals genetic relationships between pediatric height growth and health across the life course, with different growth trajectories correlated with different outcomes. For instance, a faster tempo of pubertal growth correlates with higher bone mineral density, HOMA-IR, fasting insulin, type 2 diabetes, and lung cancer, whereas being taller at early puberty, taller across puberty, and having quicker pubertal growth were associated with higher risk for atrial fibrillation. CONCLUSION: We report novel genetic associations with the tempo of pubertal growth and find that genetic determinants of growth are correlated with reproductive, glycemic, respiratory, and cardiac traits in adulthood. These results aid in identifying specific growth trajectories impacting lifelong health and show that there may not be a single "optimal" pubertal growth pattern.

U2 - 10.1186/s13059-023-03136-z

DO - 10.1186/s13059-023-03136-z

M3 - Article

C2 - 38229171

AN - SCOPUS:85183074018

SN - 1474-760X

VL - 25

JO - Genome biology

JF - Genome biology

IS - 1

M1 - 22

ER -

Trans-ancestral genome-wide association study of longitudinal pubertal height growth and shared heritability with adult health outcomes

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