Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology

Monika A. Waszczuk; Nicholas R. Eaton; Robert F. Krueger; Alexander J. Shackman; Irwin D. Waldman; David H. Zald; Benjamin B. Lahey; Christopher J. Patrick; Christopher C. Conway; Johan Ormel; Steven E. Hyman; Eiko I. Fried; Miriam K. Forbes; Anna R. Docherty; Robert R. Althoff; Bo Bach; Michael Chmielewski; Colin G. DeYoung; Kelsie T. Forbush; Michael Hallquist; Christopher J. Hopwood; Masha Y. Ivanova; Katherine G. Jonas; Robert D. Latzman; Kristian E. Markon; Stephanie N. Mullins-Sweatt; Aaron L. Pincus; Ulrich Reininghaus; Susan C. South; Jennifer L. Tackett; David Watson; Aidan G.C. Wright; Roman Kotov

doi:10.1037/abn0000486

Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology

Monika A. Waszczuk, Nicholas R. Eaton, Robert F. Krueger, Alexander J. Shackman, Irwin D. Waldman, David H. Zald, Benjamin B. Lahey, Christopher J. Patrick, Christopher C. Conway, Johan Ormel, Steven E. Hyman, Eiko I. Fried, Miriam K. Forbes, Anna R. Docherty, Robert R. Althoff, Bo Bach, Michael Chmielewski, Colin G. DeYoung, Kelsie T. Forbush, Michael HallquistChristopher J. Hopwood, Masha Y. Ivanova, Katherine G. Jonas, Robert D. Latzman, Kristian E. Markon, Stephanie N. Mullins-Sweatt, Aaron L. Pincus, Ulrich Reininghaus, Susan C. South, Jennifer L. Tackett, David Watson, Aidan G.C. Wright, Roman Kotov

Psychology (Twin Cities)

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

69 Scopus citations

Abstract

Genetic discovery in psychiatry and clinical psychology is hindered by suboptimal phenotypic definitions. We argue that the hierarchical, dimensional, and data-driven classification system proposed by the Hierarchical Taxonomy of Psychopathology (HiTOP) consortium provides a more effective approach to identifying genes that underlie mental disorders, and to studying psychiatric etiology, than current diagnostic categories. Specifically, genes are expected to operate at different levels of the HiTOP hierarchy, with some highly pleiotropic genes influencing higher order psychopathology (e.g., the general factor), whereas other genes conferring more specific risk for individual spectra (e.g., internalizing), subfactors (e.g., fear disorders), or narrow symptoms (e.g., mood instability). We propose that the HiTOP model aligns well with the current understanding of the higher order genetic structure of psychopathology that has emerged from a large body of family and twin studies. We also discuss the convergence between the HiTOP model and findings from recent molecular studies of psychopathology indicating broad genetic pleiotropy, such as cross-disorder SNP-based shared genetic covariance and polygenic risk scores, and we highlight molecular genetic studies that have successfully redefined phenotypes to enhance precision and statistical power. Finally, we suggest how to integrate a HiTOP approach into future molecular genetic research, including quantitative and hierarchical assessment tools for future data-collection and recommendations concerning phenotypic analyses.

Original language	English (US)
Journal	Journal of abnormal psychology
DOIs	https://doi.org/10.1037/abn0000486
State	Accepted/In press - 2019

Bibliographical note

Publisher Copyright:
© 2019 American Psychological Association.

Keywords

Behavior genetics
Comorbidity
General factor
Molecular genetics
Nosology

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10.1037/abn0000486

Cite this

Waszczuk, M. A., Eaton, N. R., Krueger, R. F., Shackman, A. J., Waldman, I. D., Zald, D. H., Lahey, B. B., Patrick, C. J., Conway, C. C., Ormel, J., Hyman, S. E., Fried, E. I., Forbes, M. K., Docherty, A. R., Althoff, R. R., Bach, B., Chmielewski, M., DeYoung, C. G., Forbush, K. T., ... Kotov, R. (Accepted/In press). Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology. Journal of abnormal psychology. https://doi.org/10.1037/abn0000486

Waszczuk, MA, Eaton, NR, Krueger, RF, Shackman, AJ, Waldman, ID, Zald, DH, Lahey, BB, Patrick, CJ, Conway, CC, Ormel, J, Hyman, SE, Fried, EI, Forbes, MK, Docherty, AR, Althoff, RR, Bach, B, Chmielewski, M, DeYoung, CG, Forbush, KT, Hallquist, M, Hopwood, CJ, Ivanova, MY, Jonas, KG, Latzman, RD, Markon, KE, Mullins-Sweatt, SN, Pincus, AL, Reininghaus, U, South, SC, Tackett, JL, Watson, D, Wright, AGC & Kotov, R 2019, 'Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology', Journal of abnormal psychology. https://doi.org/10.1037/abn0000486

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title = "Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology",

abstract = "Genetic discovery in psychiatry and clinical psychology is hindered by suboptimal phenotypic definitions. We argue that the hierarchical, dimensional, and data-driven classification system proposed by the Hierarchical Taxonomy of Psychopathology (HiTOP) consortium provides a more effective approach to identifying genes that underlie mental disorders, and to studying psychiatric etiology, than current diagnostic categories. Specifically, genes are expected to operate at different levels of the HiTOP hierarchy, with some highly pleiotropic genes influencing higher order psychopathology (e.g., the general factor), whereas other genes conferring more specific risk for individual spectra (e.g., internalizing), subfactors (e.g., fear disorders), or narrow symptoms (e.g., mood instability). We propose that the HiTOP model aligns well with the current understanding of the higher order genetic structure of psychopathology that has emerged from a large body of family and twin studies. We also discuss the convergence between the HiTOP model and findings from recent molecular studies of psychopathology indicating broad genetic pleiotropy, such as cross-disorder SNP-based shared genetic covariance and polygenic risk scores, and we highlight molecular genetic studies that have successfully redefined phenotypes to enhance precision and statistical power. Finally, we suggest how to integrate a HiTOP approach into future molecular genetic research, including quantitative and hierarchical assessment tools for future data-collection and recommendations concerning phenotypic analyses.",

keywords = "Behavior genetics, Comorbidity, General factor, Molecular genetics, Nosology",

author = "Waszczuk, {Monika A.} and Eaton, {Nicholas R.} and Krueger, {Robert F.} and Shackman, {Alexander J.} and Waldman, {Irwin D.} and Zald, {David H.} and Lahey, {Benjamin B.} and Patrick, {Christopher J.} and Conway, {Christopher C.} and Johan Ormel and Hyman, {Steven E.} and Fried, {Eiko I.} and Forbes, {Miriam K.} and Docherty, {Anna R.} and Althoff, {Robert R.} and Bo Bach and Michael Chmielewski and DeYoung, {Colin G.} and Forbush, {Kelsie T.} and Michael Hallquist and Hopwood, {Christopher J.} and Ivanova, {Masha Y.} and Jonas, {Katherine G.} and Latzman, {Robert D.} and Markon, {Kristian E.} and Mullins-Sweatt, {Stephanie N.} and Pincus, {Aaron L.} and Ulrich Reininghaus and South, {Susan C.} and Tackett, {Jennifer L.} and David Watson and Wright, {Aidan G.C.} and Roman Kotov",

note = "Publisher Copyright: {\textcopyright} 2019 American Psychological Association.",

year = "2019",

doi = "10.1037/abn0000486",

language = "English (US)",

journal = "Journal of abnormal psychology",

issn = "0021-843X",

publisher = "American Psychological Association",

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TY - JOUR

T1 - Redefining Phenotypes to Advance Psychiatric Genetics

T2 - Implications From Hierarchical Taxonomy of Psychopathology

AU - Waszczuk, Monika A.

AU - Eaton, Nicholas R.

AU - Krueger, Robert F.

AU - Shackman, Alexander J.

AU - Waldman, Irwin D.

AU - Zald, David H.

AU - Lahey, Benjamin B.

AU - Patrick, Christopher J.

AU - Conway, Christopher C.

AU - Ormel, Johan

AU - Hyman, Steven E.

AU - Fried, Eiko I.

AU - Forbes, Miriam K.

AU - Docherty, Anna R.

AU - Althoff, Robert R.

AU - Bach, Bo

AU - Chmielewski, Michael

AU - DeYoung, Colin G.

AU - Forbush, Kelsie T.

AU - Hallquist, Michael

AU - Hopwood, Christopher J.

AU - Ivanova, Masha Y.

AU - Jonas, Katherine G.

AU - Latzman, Robert D.

AU - Markon, Kristian E.

AU - Mullins-Sweatt, Stephanie N.

AU - Pincus, Aaron L.

AU - Reininghaus, Ulrich

AU - South, Susan C.

AU - Tackett, Jennifer L.

AU - Watson, David

AU - Wright, Aidan G.C.

AU - Kotov, Roman

PY - 2019

Y1 - 2019

N2 - Genetic discovery in psychiatry and clinical psychology is hindered by suboptimal phenotypic definitions. We argue that the hierarchical, dimensional, and data-driven classification system proposed by the Hierarchical Taxonomy of Psychopathology (HiTOP) consortium provides a more effective approach to identifying genes that underlie mental disorders, and to studying psychiatric etiology, than current diagnostic categories. Specifically, genes are expected to operate at different levels of the HiTOP hierarchy, with some highly pleiotropic genes influencing higher order psychopathology (e.g., the general factor), whereas other genes conferring more specific risk for individual spectra (e.g., internalizing), subfactors (e.g., fear disorders), or narrow symptoms (e.g., mood instability). We propose that the HiTOP model aligns well with the current understanding of the higher order genetic structure of psychopathology that has emerged from a large body of family and twin studies. We also discuss the convergence between the HiTOP model and findings from recent molecular studies of psychopathology indicating broad genetic pleiotropy, such as cross-disorder SNP-based shared genetic covariance and polygenic risk scores, and we highlight molecular genetic studies that have successfully redefined phenotypes to enhance precision and statistical power. Finally, we suggest how to integrate a HiTOP approach into future molecular genetic research, including quantitative and hierarchical assessment tools for future data-collection and recommendations concerning phenotypic analyses.

AB - Genetic discovery in psychiatry and clinical psychology is hindered by suboptimal phenotypic definitions. We argue that the hierarchical, dimensional, and data-driven classification system proposed by the Hierarchical Taxonomy of Psychopathology (HiTOP) consortium provides a more effective approach to identifying genes that underlie mental disorders, and to studying psychiatric etiology, than current diagnostic categories. Specifically, genes are expected to operate at different levels of the HiTOP hierarchy, with some highly pleiotropic genes influencing higher order psychopathology (e.g., the general factor), whereas other genes conferring more specific risk for individual spectra (e.g., internalizing), subfactors (e.g., fear disorders), or narrow symptoms (e.g., mood instability). We propose that the HiTOP model aligns well with the current understanding of the higher order genetic structure of psychopathology that has emerged from a large body of family and twin studies. We also discuss the convergence between the HiTOP model and findings from recent molecular studies of psychopathology indicating broad genetic pleiotropy, such as cross-disorder SNP-based shared genetic covariance and polygenic risk scores, and we highlight molecular genetic studies that have successfully redefined phenotypes to enhance precision and statistical power. Finally, we suggest how to integrate a HiTOP approach into future molecular genetic research, including quantitative and hierarchical assessment tools for future data-collection and recommendations concerning phenotypic analyses.

KW - Behavior genetics

KW - Comorbidity

KW - General factor

KW - Molecular genetics

KW - Nosology

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U2 - 10.1037/abn0000486

DO - 10.1037/abn0000486

M3 - Article

C2 - 31804095

AN - SCOPUS:85076380382

SN - 0021-843X

JO - Journal of abnormal psychology

JF - Journal of abnormal psychology

ER -

Redefining Phenotypes to Advance Psychiatric Genetics: Implications From Hierarchical Taxonomy of Psychopathology

Abstract

Bibliographical note

Keywords

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