Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium

K. Divaris; S. Haworth; J. R. Shaffer; V. Anttonen; J. D. Beck; Y. Furuichi; B. Holtfreter; D. Jönsson; T. Kocher; S. M. Levy; P. K.E. Magnusson; D. W. McNeil; K. Michaëlsson; K. E. North; U. Palotie; P. N. Papapanou; P. J. Pussinen; D. Porteous; K. Reis; A. Salminen; A. S. Schaefer; T. Sudo; Y. Q. Sun; A. L. Suominen; T. Tamahara; S. M. Weinberg; P. Lundberg; M. L. Marazita; I. Johansson

doi:10.1177/00220345221109775

Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium

K. Divaris, S. Haworth, J. R. Shaffer, V. Anttonen, J. D. Beck, Y. Furuichi, B. Holtfreter, D. Jönsson, T. Kocher, S. M. Levy, P. K.E. Magnusson, D. W. McNeil, K. Michaëlsson, K. E. North, U. Palotie, P. N. Papapanou, P. J. Pussinen, D. Porteous, K. Reis, A. SalminenA. S. Schaefer, T. Sudo, Y. Q. Sun, A. L. Suominen, T. Tamahara, S. M. Weinberg, P. Lundberg, M. L. Marazita, I. Johansson

College of Dental Medicine

Producción científica › revisión exhaustiva

7 Citas (Scopus)

Resumen

Genetic risk factors play important roles in the etiology of oral, dental, and craniofacial diseases. Identifying the relevant risk loci and understanding their molecular biology could highlight new prevention and management avenues. Our current understanding of oral health genomics suggests that dental caries and periodontitis are polygenic diseases, and very large sample sizes and informative phenotypic measures are required to discover signals and adequately map associations across the human genome. In this article, we introduce the second wave of the Gene-Lifestyle Interactions and Dental Endpoints consortium (GLIDE2) and discuss relevant data analytics challenges, opportunities, and applications. In this phase, the consortium comprises a diverse, multiethnic sample of over 700,000 participants from 21 studies contributing clinical data on dental caries experience and periodontitis. We outline the methodological challenges of combining data from heterogeneous populations, as well as the data reduction problem in resolving detailed clinical examination records into tractable phenotypes, and describe a strategy that addresses this. Specifically, we propose a 3-tiered phenotyping approach aimed at leveraging both the large sample size in the consortium and the detailed clinical information available in some studies, wherein binary, severity-encompassing, and “precision,” data-driven clinical traits are employed. As an illustration of the use of data-driven traits across multiple cohorts, we present an application of dental caries experience data harmonization in 8 participating studies (N = 55,143) using previously developed permanent dentition tooth surface–level dental caries pattern traits. We demonstrate that these clinical patterns are transferable across multiple cohorts, have similar relative contributions within each study, and thus are prime targets for genetic interrogation in the expanded and diverse multiethnic sample of GLIDE2. We anticipate that results from GLIDE2 will decisively advance the knowledge base of mechanisms at play in oral, dental, and craniofacial health and disease and further catalyze international collaboration and data and resource sharing in genomics research.

Idioma original	English
Páginas (desde-hasta)	1408-1416
Número de páginas	9
Publicación	Journal of Dental Research
Volumen	101
N.º	11
DOI	https://doi.org/10.1177/00220345221109775
Estado	Published - oct. 2022

Financiación

We thank the following investigators for their contributions to individual cohorts: Julie T. Marchesan and Kevin Moss (ARIC); Michiaki Kubo, Yoichiro Kamatani, Koichi Matsuda, Yoshinori Murakami, Takayuki Morisaki, and Akiko Nagai (Biobank Japan, BBJ); Betsy Foxman, Katherine Neiswanger, and Richard Crout (CCDG: COHRA cohorts); FinnGen Consortium contributors; Karin Weber-Gasparoni, Justine L. Kolker, and John J. Warren (Iowa Fluoride Study, IFS); Jeffrey C. Murray, Lina Moreno Uribe, Brian Howe, Azeez Butali, Consuelo Valencia Ramirez, Claudia Restrepo, Frederic W.B. Deleyiannis, Carmencita Padilla, Ieda Orioli, Fernando Poletta, Carmen Buxó Martinez, Jacqueline T. Hecht, George Wehby, Katherine Neiswanger, Carla Sanchez, Alexandre Rezende Vieira, Ross Long, and Rasha Nesha Alotaibi (CCDG: OFC cohorts); Juha Sinisalo (Parogene); Caroline Hayward, Robin Flaig, and Archie Campbell (Generation Scotland); Ben Brumpton, Hedda Høvik, and Astrid Jullumstrø Feuerherm (HUNT4); Alex Teumer, Henry Völzke, and Uwe Völker (SHIP); Taku Obara, Maki Goto, Otsuki Akihito, Junko Kawashima, Yuichi Aoki, Sakae Saito, and Ritsuko Shimizu (ToMMo: Tohoku Medical Megabank Organization); Yukinori Okada (TMDUAGP, Osaka University); and Paul Franks (VIKING). The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: Funding support for participating studies and investigators is also acknowledged: CCDG: COHRA1/Dental SCORE and CCDG: COHRA2/COHRA Smile were supported by US National Institutes of Health (NIH) grants R01-DE014899, U01-DE018903, and X01-HG009878-01. IFS was supported by NIH grants R01-DE09551, U01-DE018903, X01-HG008978, R01-DE014899, and P30-DE10126. CCDG: OFC1 and CCDG: OFC2 were supported by NIH grants R01-DE016148, X01-HG00784, and X01-HG011437. SHIP is funded by the Federal Ministry of Education and Research (grants 01ZZ9603, 01ZZ0103, and 01ZZ0403), the Ministry of Cultural Affairs, and the Social Ministry of the Federal State of Mecklenburg–West Pomerania and Siemens Healthcare, Erlangen, Germany. SIMPLER receives funding through the Swedish Research Council under grants 2017-00644 and 2017-06100. The Swedish Twin Registry is managed by Karolinska Institutet and receives funding through the Swedish Research Council under grant 2017-00641. Periogene North was funded by the County Council of Västerbotten under grants RV-96458 and RV-832371. The Swedish GLIDE receives funding through the Swedish Research Council under grants 2020-00930 and 2015-02597. K. Divaris acknowledges support by NIH grant U01-DE025046. The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: Funding support for participating studies and investigators is also acknowledged: CCDG: COHRA1/Dental SCORE and CCDG: COHRA2/COHRA Smile were supported by US National Institutes of Health (NIH) grants R01-DE014899, U01-DE018903, and X01-HG009878-01. IFS was supported by NIH grants R01-DE09551, U01-DE018903, X01-HG008978, R01-DE014899, and P30-DE10126. CCDG: OFC1 and CCDG: OFC2 were supported by NIH grants R01-DE016148, X01-HG00784, and X01-HG011437. SHIP is funded by the Federal Ministry of Education and Research (grants 01ZZ9603, 01ZZ0103, and 01ZZ0403), the Ministry of Cultural Affairs, and the Social Ministry of the Federal State of Mecklenburg–West Pomerania and Siemens Healthcare, Erlangen, Germany. SIMPLER receives funding through the Swedish Research Council under grants 2017-00644 and 2017-06100. The Swedish Twin Registry is managed by Karolinska Institutet and receives funding through the Swedish Research Council under grant 2017-00641. Periogene North was funded by the County Council of Västerbotten under grants RV-96458 and RV-832371. The Swedish GLIDE receives funding through the Swedish Research Council under grants 2020-00930 and 2015-02597. K. Divaris acknowledges support by NIH grant U01-DE025046.

Financiadores	Número del financiador
Akiko Nagai
Astrid Jullumstrø Feuerherm
Rasha Nesha Alotaibi
Social Ministry of the Federal State of Mecklenburg
National Institutes of Health	R01-DE014899, X01-HG011437, R01-DE09551, X01-HG00784, P30-DE10126, X01-HG009878-01, R01-DE016148, U01-DE018903, X01-HG008978
National Institute of Environmental Health Sciences	P30ES010126
Bundesministerium für Bildung und Forschung	01ZZ0403, 01ZZ0103, 01ZZ9603
Västerbotten Läns Landsting	2015-02597, RV-832371, 2020-00930, U01-DE025046, RV-96458
Karolinska Institutet	2017-00641
Vetenskapsrådet	2017-06100, 2017-00644
Ministry of Cultural Affairs

ASJC Scopus Subject Areas

General Dentistry

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

Acceder al documento

10.1177/00220345221109775

Otros archivos y enlaces

Citar esto

Divaris, K., Haworth, S., Shaffer, J. R., Anttonen, V., Beck, J. D., Furuichi, Y., Holtfreter, B., Jönsson, D., Kocher, T., Levy, S. M., Magnusson, P. K. E., McNeil, D. W., Michaëlsson, K., North, K. E., Palotie, U., Papapanou, P. N., Pussinen, P. J., Porteous, D., Reis, K., ... Johansson, I. (2022). Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium. Journal of Dental Research, 101(11), 1408-1416. https://doi.org/10.1177/00220345221109775

Divaris, K, Haworth, S, Shaffer, JR, Anttonen, V, Beck, JD, Furuichi, Y, Holtfreter, B, Jönsson, D, Kocher, T, Levy, SM, Magnusson, PKE, McNeil, DW, Michaëlsson, K, North, KE, Palotie, U, Papapanou, PN, Pussinen, PJ, Porteous, D, Reis, K, Salminen, A, Schaefer, AS, Sudo, T, Sun, YQ, Suominen, AL, Tamahara, T, Weinberg, SM, Lundberg, P, Marazita, ML & Johansson, I 2022, 'Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium', Journal of Dental Research, vol. 101, n.º 11, pp. 1408-1416. https://doi.org/10.1177/00220345221109775

@article{b5c53abb45a14cb4aa8453af11b94595,

title = "Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium",

abstract = "Genetic risk factors play important roles in the etiology of oral, dental, and craniofacial diseases. Identifying the relevant risk loci and understanding their molecular biology could highlight new prevention and management avenues. Our current understanding of oral health genomics suggests that dental caries and periodontitis are polygenic diseases, and very large sample sizes and informative phenotypic measures are required to discover signals and adequately map associations across the human genome. In this article, we introduce the second wave of the Gene-Lifestyle Interactions and Dental Endpoints consortium (GLIDE2) and discuss relevant data analytics challenges, opportunities, and applications. In this phase, the consortium comprises a diverse, multiethnic sample of over 700,000 participants from 21 studies contributing clinical data on dental caries experience and periodontitis. We outline the methodological challenges of combining data from heterogeneous populations, as well as the data reduction problem in resolving detailed clinical examination records into tractable phenotypes, and describe a strategy that addresses this. Specifically, we propose a 3-tiered phenotyping approach aimed at leveraging both the large sample size in the consortium and the detailed clinical information available in some studies, wherein binary, severity-encompassing, and “precision,” data-driven clinical traits are employed. As an illustration of the use of data-driven traits across multiple cohorts, we present an application of dental caries experience data harmonization in 8 participating studies (N = 55,143) using previously developed permanent dentition tooth surface–level dental caries pattern traits. We demonstrate that these clinical patterns are transferable across multiple cohorts, have similar relative contributions within each study, and thus are prime targets for genetic interrogation in the expanded and diverse multiethnic sample of GLIDE2. We anticipate that results from GLIDE2 will decisively advance the knowledge base of mechanisms at play in oral, dental, and craniofacial health and disease and further catalyze international collaboration and data and resource sharing in genomics research.",

author = "K. Divaris and S. Haworth and Shaffer, {J. R.} and V. Anttonen and Beck, {J. D.} and Y. Furuichi and B. Holtfreter and D. J{\"o}nsson and T. Kocher and Levy, {S. M.} and Magnusson, {P. K.E.} and McNeil, {D. W.} and K. Micha{\"e}lsson and North, {K. E.} and U. Palotie and Papapanou, {P. N.} and Pussinen, {P. J.} and D. Porteous and K. Reis and A. Salminen and Schaefer, {A. S.} and T. Sudo and Sun, {Y. Q.} and Suominen, {A. L.} and T. Tamahara and Weinberg, {S. M.} and P. Lundberg and Marazita, {M. L.} and I. Johansson",

note = "Publisher Copyright: {\textcopyright} International Association for Dental Research and American Association for Dental, Oral, and Craniofacial Research 2022.",

year = "2022",

month = oct,

doi = "10.1177/00220345221109775",

language = "English",

volume = "101",

pages = "1408--1416",

journal = "Journal of Dental Research",

issn = "0022-0345",

publisher = "SAGE Publications Inc.",

number = "11",

}

TY - JOUR

T1 - Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium

AU - Divaris, K.

AU - Haworth, S.

AU - Shaffer, J. R.

AU - Anttonen, V.

AU - Beck, J. D.

AU - Furuichi, Y.

AU - Holtfreter, B.

AU - Jönsson, D.

AU - Kocher, T.

AU - Levy, S. M.

AU - Magnusson, P. K.E.

AU - McNeil, D. W.

AU - Michaëlsson, K.

AU - North, K. E.

AU - Palotie, U.

AU - Papapanou, P. N.

AU - Pussinen, P. J.

AU - Porteous, D.

AU - Reis, K.

AU - Salminen, A.

AU - Schaefer, A. S.

AU - Sudo, T.

AU - Sun, Y. Q.

AU - Suominen, A. L.

AU - Tamahara, T.

AU - Weinberg, S. M.

AU - Lundberg, P.

AU - Marazita, M. L.

AU - Johansson, I.

N1 - Publisher Copyright: © International Association for Dental Research and American Association for Dental, Oral, and Craniofacial Research 2022.

PY - 2022/10

Y1 - 2022/10

N2 - Genetic risk factors play important roles in the etiology of oral, dental, and craniofacial diseases. Identifying the relevant risk loci and understanding their molecular biology could highlight new prevention and management avenues. Our current understanding of oral health genomics suggests that dental caries and periodontitis are polygenic diseases, and very large sample sizes and informative phenotypic measures are required to discover signals and adequately map associations across the human genome. In this article, we introduce the second wave of the Gene-Lifestyle Interactions and Dental Endpoints consortium (GLIDE2) and discuss relevant data analytics challenges, opportunities, and applications. In this phase, the consortium comprises a diverse, multiethnic sample of over 700,000 participants from 21 studies contributing clinical data on dental caries experience and periodontitis. We outline the methodological challenges of combining data from heterogeneous populations, as well as the data reduction problem in resolving detailed clinical examination records into tractable phenotypes, and describe a strategy that addresses this. Specifically, we propose a 3-tiered phenotyping approach aimed at leveraging both the large sample size in the consortium and the detailed clinical information available in some studies, wherein binary, severity-encompassing, and “precision,” data-driven clinical traits are employed. As an illustration of the use of data-driven traits across multiple cohorts, we present an application of dental caries experience data harmonization in 8 participating studies (N = 55,143) using previously developed permanent dentition tooth surface–level dental caries pattern traits. We demonstrate that these clinical patterns are transferable across multiple cohorts, have similar relative contributions within each study, and thus are prime targets for genetic interrogation in the expanded and diverse multiethnic sample of GLIDE2. We anticipate that results from GLIDE2 will decisively advance the knowledge base of mechanisms at play in oral, dental, and craniofacial health and disease and further catalyze international collaboration and data and resource sharing in genomics research.

AB - Genetic risk factors play important roles in the etiology of oral, dental, and craniofacial diseases. Identifying the relevant risk loci and understanding their molecular biology could highlight new prevention and management avenues. Our current understanding of oral health genomics suggests that dental caries and periodontitis are polygenic diseases, and very large sample sizes and informative phenotypic measures are required to discover signals and adequately map associations across the human genome. In this article, we introduce the second wave of the Gene-Lifestyle Interactions and Dental Endpoints consortium (GLIDE2) and discuss relevant data analytics challenges, opportunities, and applications. In this phase, the consortium comprises a diverse, multiethnic sample of over 700,000 participants from 21 studies contributing clinical data on dental caries experience and periodontitis. We outline the methodological challenges of combining data from heterogeneous populations, as well as the data reduction problem in resolving detailed clinical examination records into tractable phenotypes, and describe a strategy that addresses this. Specifically, we propose a 3-tiered phenotyping approach aimed at leveraging both the large sample size in the consortium and the detailed clinical information available in some studies, wherein binary, severity-encompassing, and “precision,” data-driven clinical traits are employed. As an illustration of the use of data-driven traits across multiple cohorts, we present an application of dental caries experience data harmonization in 8 participating studies (N = 55,143) using previously developed permanent dentition tooth surface–level dental caries pattern traits. We demonstrate that these clinical patterns are transferable across multiple cohorts, have similar relative contributions within each study, and thus are prime targets for genetic interrogation in the expanded and diverse multiethnic sample of GLIDE2. We anticipate that results from GLIDE2 will decisively advance the knowledge base of mechanisms at play in oral, dental, and craniofacial health and disease and further catalyze international collaboration and data and resource sharing in genomics research.

UR - http://www.scopus.com/inward/record.url?scp=85137232298&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85137232298&partnerID=8YFLogxK

U2 - 10.1177/00220345221109775

DO - 10.1177/00220345221109775

M3 - Article

C2 - 36000800

AN - SCOPUS:85137232298

SN - 0022-0345

VL - 101

SP - 1408

EP - 1416

JO - Journal of Dental Research

JF - Journal of Dental Research

IS - 11

ER -

Phenotype Harmonization in the GLIDE2 Oral Health Genomics Consortium

Resumen

Financiación

ASJC Scopus Subject Areas

ODS de las Naciones Unidas

Acceder al documento

Otros archivos y enlaces

Huella

Citar esto