Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin

Isabelle Boothman; Lisa M. Clayton; Mark McCormack; Alexandra Mc Kibben Driscoll; Remi Stevelink; Patrick Moloney; Roland Krause; Wolfram S. Kunz; Sarah Diehl; Terence J. O’Brien; Graeme J. Sills; Gerrit Jan de Haan; Federico Zara; Bobby P. Koeleman; Chantal Depondt; Anthony G. Marson; Hreinn Stefansson; Kari Stefansson; John Craig; Michael R. Johnson; Pasquale Striano; Holger Lerche; Simon J. Furney; Norman Delanty; Sanjay M. Sisodiya; Gianpiero L. Cavalleri

doi:10.3389/fnins.2023.1156362

Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin

Isabelle Boothman, Lisa M. Clayton, Mark McCormack, Alexandra Mc Kibben Driscoll, Remi Stevelink, Patrick Moloney, Roland Krause, Wolfram S. Kunz, Sarah Diehl, Terence J. O’Brien, Graeme J. Sills, Gerrit Jan de Haan, Federico Zara, Bobby P. Koeleman, Chantal Depondt, Anthony G. Marson, Hreinn Stefansson, Kari Stefansson, John Craig, Michael R. JohnsonPasquale Striano, Holger Lerche, Simon J. Furney, Norman Delanty, Sanjay M. Sisodiya, Gianpiero L. Cavalleri^*

^*Corresponding author for this work

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

Abstract

Background: The anti-seizure medication vigabatrin (VGB) is effective for controlling seizures, especially infantile spasms. However, use is limited by VGB-associated visual field loss (VAVFL). The mechanisms by which VGB causes VAVFL remains unknown. Average peripapillary retinal nerve fibre layer (ppRNFL) thickness correlates with the degree of visual field loss (measured by mean radial degrees). Duration of VGB exposure, maximum daily VGB dose, and male sex are associated with ppRNFL thinning. Here we test the hypothesis that common genetic variation is a predictor of ppRNFL thinning in VGB exposed individuals. Identifying pharmacogenomic predictors of ppRNFL thinning in VGB exposed individuals could potentially enable safe prescribing of VGB and broader use of a highly effective drug. Methods: Optical coherence topography (OCT) and GWAS data were processed from VGB-exposed individuals (n = 71) recruited through the EpiPGX Consortium. We conducted quantitative GWAS analyses for the following OCT measurements: (1) average ppRNFL, (2) inferior quadrant, (3) nasal quadrant, (4) superior quadrant, (5) temporal quadrant, (6) inferior nasal sector, (7) nasal inferior sector, (8) superior nasal sector, and (9) nasal superior sector. Using the summary statistics from the GWAS analyses we conducted gene-based testing using VEGAS2. We conducted nine different PRS analyses using the OCT measurements. To determine if VGB-exposed individuals were predisposed to having a thinner RNFL, we calculated their polygenic burden for retinal thickness. PRS alleles for retinal thickness were calculated using published summary statistics from a large-scale GWAS of inner retinal morphology using the OCT images of UK Biobank participants. Results: The GWAS analyses did not identify a significant association after correction for multiple testing. Similarly, the gene-based and PRS analyses did not reveal a significant association that survived multiple testing. Conclusion: We set out to identify common genetic predictors for VGB induced ppRNFL thinning. Results suggest that large-effect common genetic predictors are unlikely to exist for ppRNFL thinning (as a marker of VAVFL). Sample size was a limitation of this study. However, further recruitment is a challenge as VGB is rarely used today because of this adverse reaction. Rare variants may be predictors of this adverse drug reaction and were not studied here.

Original language	English
Article number	1156362
Journal	Frontiers in Neuroscience
Volume	17
DOIs	https://doi.org/10.3389/fnins.2023.1156362
Publication status	Published - 2023

Keywords

adverse drug reaction
epilepsy
genome wide association study
polygenic risk score
retina

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Boothman, I., Clayton, L. M., McCormack, M., Driscoll, A. M. K., Stevelink, R., Moloney, P., Krause, R., Kunz, W. S., Diehl, S., O’Brien, T. J., Sills, G. J., de Haan, G. J., Zara, F., Koeleman, B. P., Depondt, C., Marson, A. G., Stefansson, H., Stefansson, K., Craig, J., ... Cavalleri, G. L. (2023). Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin. Frontiers in Neuroscience, 17, Article 1156362. https://doi.org/10.3389/fnins.2023.1156362

@article{b085c948202f4a2190f0ea1eae2b8730,

title = "Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin",

abstract = "Background: The anti-seizure medication vigabatrin (VGB) is effective for controlling seizures, especially infantile spasms. However, use is limited by VGB-associated visual field loss (VAVFL). The mechanisms by which VGB causes VAVFL remains unknown. Average peripapillary retinal nerve fibre layer (ppRNFL) thickness correlates with the degree of visual field loss (measured by mean radial degrees). Duration of VGB exposure, maximum daily VGB dose, and male sex are associated with ppRNFL thinning. Here we test the hypothesis that common genetic variation is a predictor of ppRNFL thinning in VGB exposed individuals. Identifying pharmacogenomic predictors of ppRNFL thinning in VGB exposed individuals could potentially enable safe prescribing of VGB and broader use of a highly effective drug. Methods: Optical coherence topography (OCT) and GWAS data were processed from VGB-exposed individuals (n = 71) recruited through the EpiPGX Consortium. We conducted quantitative GWAS analyses for the following OCT measurements: (1) average ppRNFL, (2) inferior quadrant, (3) nasal quadrant, (4) superior quadrant, (5) temporal quadrant, (6) inferior nasal sector, (7) nasal inferior sector, (8) superior nasal sector, and (9) nasal superior sector. Using the summary statistics from the GWAS analyses we conducted gene-based testing using VEGAS2. We conducted nine different PRS analyses using the OCT measurements. To determine if VGB-exposed individuals were predisposed to having a thinner RNFL, we calculated their polygenic burden for retinal thickness. PRS alleles for retinal thickness were calculated using published summary statistics from a large-scale GWAS of inner retinal morphology using the OCT images of UK Biobank participants. Results: The GWAS analyses did not identify a significant association after correction for multiple testing. Similarly, the gene-based and PRS analyses did not reveal a significant association that survived multiple testing. Conclusion: We set out to identify common genetic predictors for VGB induced ppRNFL thinning. Results suggest that large-effect common genetic predictors are unlikely to exist for ppRNFL thinning (as a marker of VAVFL). Sample size was a limitation of this study. However, further recruitment is a challenge as VGB is rarely used today because of this adverse reaction. Rare variants may be predictors of this adverse drug reaction and were not studied here.",

keywords = "adverse drug reaction, epilepsy, genome wide association study, polygenic risk score, retina",

author = "Isabelle Boothman and Clayton, {Lisa M.} and Mark McCormack and Driscoll, {Alexandra Mc Kibben} and Remi Stevelink and Patrick Moloney and Roland Krause and Kunz, {Wolfram S.} and Sarah Diehl and O{\textquoteright}Brien, {Terence J.} and Sills, {Graeme J.} and {de Haan}, {Gerrit Jan} and Federico Zara and Koeleman, {Bobby P.} and Chantal Depondt and Marson, {Anthony G.} and Hreinn Stefansson and Kari Stefansson and John Craig and Johnson, {Michael R.} and Pasquale Striano and Holger Lerche and Furney, {Simon J.} and Norman Delanty and Sisodiya, {Sanjay M.} and Cavalleri, {Gianpiero L.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 Boothman, Clayton, McCormack, Driscoll, Stevelink, Moloney, Krause, Kunz, Diehl, O{\textquoteright}Brien, Sills, de Haan, Zara, Koeleman, Depondt, Marson, Stefansson, Stefansson, Craig, Johnson, Striano, Lerche, Furney, Delanty, Consortium, Sisodiya and Cavalleri.",

year = "2023",

doi = "10.3389/fnins.2023.1156362",

language = "English",

volume = "17",

journal = "Frontiers in Neuroscience",

issn = "1662-4548",

publisher = "Frontiers Media S. A.",

}

Boothman, I, Clayton, LM, McCormack, M, Driscoll, AMK, Stevelink, R, Moloney, P, Krause, R, Kunz, WS, Diehl, S, O’Brien, TJ, Sills, GJ, de Haan, GJ, Zara, F, Koeleman, BP, Depondt, C, Marson, AG, Stefansson, H, Stefansson, K, Craig, J, Johnson, MR, Striano, P, Lerche, H, Furney, SJ, Delanty, N, Sisodiya, SM & Cavalleri, GL 2023, 'Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin', Frontiers in Neuroscience, vol. 17, 1156362. https://doi.org/10.3389/fnins.2023.1156362

TY - JOUR

T1 - Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin

AU - Boothman, Isabelle

AU - Clayton, Lisa M.

AU - McCormack, Mark

AU - Driscoll, Alexandra Mc Kibben

AU - Stevelink, Remi

AU - Moloney, Patrick

AU - Krause, Roland

AU - Kunz, Wolfram S.

AU - Diehl, Sarah

AU - O’Brien, Terence J.

AU - Sills, Graeme J.

AU - de Haan, Gerrit Jan

AU - Zara, Federico

AU - Koeleman, Bobby P.

AU - Depondt, Chantal

AU - Marson, Anthony G.

AU - Stefansson, Hreinn

AU - Stefansson, Kari

AU - Craig, John

AU - Johnson, Michael R.

AU - Striano, Pasquale

AU - Lerche, Holger

AU - Furney, Simon J.

AU - Delanty, Norman

AU - Sisodiya, Sanjay M.

AU - Cavalleri, Gianpiero L.

N1 - Publisher Copyright: Copyright © 2023 Boothman, Clayton, McCormack, Driscoll, Stevelink, Moloney, Krause, Kunz, Diehl, O’Brien, Sills, de Haan, Zara, Koeleman, Depondt, Marson, Stefansson, Stefansson, Craig, Johnson, Striano, Lerche, Furney, Delanty, Consortium, Sisodiya and Cavalleri.

PY - 2023

Y1 - 2023

N2 - Background: The anti-seizure medication vigabatrin (VGB) is effective for controlling seizures, especially infantile spasms. However, use is limited by VGB-associated visual field loss (VAVFL). The mechanisms by which VGB causes VAVFL remains unknown. Average peripapillary retinal nerve fibre layer (ppRNFL) thickness correlates with the degree of visual field loss (measured by mean radial degrees). Duration of VGB exposure, maximum daily VGB dose, and male sex are associated with ppRNFL thinning. Here we test the hypothesis that common genetic variation is a predictor of ppRNFL thinning in VGB exposed individuals. Identifying pharmacogenomic predictors of ppRNFL thinning in VGB exposed individuals could potentially enable safe prescribing of VGB and broader use of a highly effective drug. Methods: Optical coherence topography (OCT) and GWAS data were processed from VGB-exposed individuals (n = 71) recruited through the EpiPGX Consortium. We conducted quantitative GWAS analyses for the following OCT measurements: (1) average ppRNFL, (2) inferior quadrant, (3) nasal quadrant, (4) superior quadrant, (5) temporal quadrant, (6) inferior nasal sector, (7) nasal inferior sector, (8) superior nasal sector, and (9) nasal superior sector. Using the summary statistics from the GWAS analyses we conducted gene-based testing using VEGAS2. We conducted nine different PRS analyses using the OCT measurements. To determine if VGB-exposed individuals were predisposed to having a thinner RNFL, we calculated their polygenic burden for retinal thickness. PRS alleles for retinal thickness were calculated using published summary statistics from a large-scale GWAS of inner retinal morphology using the OCT images of UK Biobank participants. Results: The GWAS analyses did not identify a significant association after correction for multiple testing. Similarly, the gene-based and PRS analyses did not reveal a significant association that survived multiple testing. Conclusion: We set out to identify common genetic predictors for VGB induced ppRNFL thinning. Results suggest that large-effect common genetic predictors are unlikely to exist for ppRNFL thinning (as a marker of VAVFL). Sample size was a limitation of this study. However, further recruitment is a challenge as VGB is rarely used today because of this adverse reaction. Rare variants may be predictors of this adverse drug reaction and were not studied here.

AB - Background: The anti-seizure medication vigabatrin (VGB) is effective for controlling seizures, especially infantile spasms. However, use is limited by VGB-associated visual field loss (VAVFL). The mechanisms by which VGB causes VAVFL remains unknown. Average peripapillary retinal nerve fibre layer (ppRNFL) thickness correlates with the degree of visual field loss (measured by mean radial degrees). Duration of VGB exposure, maximum daily VGB dose, and male sex are associated with ppRNFL thinning. Here we test the hypothesis that common genetic variation is a predictor of ppRNFL thinning in VGB exposed individuals. Identifying pharmacogenomic predictors of ppRNFL thinning in VGB exposed individuals could potentially enable safe prescribing of VGB and broader use of a highly effective drug. Methods: Optical coherence topography (OCT) and GWAS data were processed from VGB-exposed individuals (n = 71) recruited through the EpiPGX Consortium. We conducted quantitative GWAS analyses for the following OCT measurements: (1) average ppRNFL, (2) inferior quadrant, (3) nasal quadrant, (4) superior quadrant, (5) temporal quadrant, (6) inferior nasal sector, (7) nasal inferior sector, (8) superior nasal sector, and (9) nasal superior sector. Using the summary statistics from the GWAS analyses we conducted gene-based testing using VEGAS2. We conducted nine different PRS analyses using the OCT measurements. To determine if VGB-exposed individuals were predisposed to having a thinner RNFL, we calculated their polygenic burden for retinal thickness. PRS alleles for retinal thickness were calculated using published summary statistics from a large-scale GWAS of inner retinal morphology using the OCT images of UK Biobank participants. Results: The GWAS analyses did not identify a significant association after correction for multiple testing. Similarly, the gene-based and PRS analyses did not reveal a significant association that survived multiple testing. Conclusion: We set out to identify common genetic predictors for VGB induced ppRNFL thinning. Results suggest that large-effect common genetic predictors are unlikely to exist for ppRNFL thinning (as a marker of VAVFL). Sample size was a limitation of this study. However, further recruitment is a challenge as VGB is rarely used today because of this adverse reaction. Rare variants may be predictors of this adverse drug reaction and were not studied here.

KW - adverse drug reaction

KW - epilepsy

KW - genome wide association study

KW - polygenic risk score

KW - retina

UR - http://www.scopus.com/inward/record.url?scp=85173599266&partnerID=8YFLogxK

U2 - 10.3389/fnins.2023.1156362

DO - 10.3389/fnins.2023.1156362

M3 - Article

AN - SCOPUS:85173599266

SN - 1662-4548

VL - 17

JO - Frontiers in Neuroscience

JF - Frontiers in Neuroscience

M1 - 1156362

ER -

Testing for pharmacogenomic predictors of ppRNFL thinning in individuals exposed to vigabatrin

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