Dysfunctional one-carbon metabolism identifies vitamins B6, B9, B12, and choline as neuroprotective in glaucoma

James R. Tribble; Vickie H.Y. Wong; Kelsey V. Stuart; Glyn Chidlow; Alan Nicol; Anne Rombaut; Alessandro Rabiolo; Anh Hoang; Pei Ying Lee; Carola Rutigliani; Tim J. Enz; Alessio Canovai; Emma Lardner; Gustav Stålhammar; Christine T.O. Nguyen; David F. Garway-Heath; Robert J. Casson; Anthony P. Khawaja; Bang V. Bui; Pete A. Williams

doi:10.1016/j.xcrm.2025.102127

Dysfunctional one-carbon metabolism identifies vitamins B₆, B₉, B₁₂, and choline as neuroprotective in glaucoma

James R. Tribble
, Vickie H.Y. Wong
, Kelsey V. Stuart
, Glyn Chidlow
, Alan Nicol
, Anne Rombaut
, Alessandro Rabiolo
, Anh Hoang
, Pei Ying Lee
, Carola Rutigliani
, Tim J. Enz
, Alessio Canovai
, Emma Lardner
, Gustav Stålhammar
, Christine T.O. Nguyen
, David F. Garway-Heath
, Robert J. Casson
, Anthony P. Khawaja
, Bang V. Bui
, Pete A. Williams

Department of Health Sciences

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

Abstract

Glaucoma, characterized by the loss of retinal ganglion cells (RGCs), is a leading cause of blindness for which there are no neuroprotective therapies. To explore observations of elevated homocysteine in glaucoma, we elevate vitreous homocysteine, which increases RGC death by 6% following ocular hypertension. Genetic association with higher homocysteine does not affect glaucoma-associated outcomes from the UK Biobank and serum homocysteine levels have no effect on glaucomatous visual field progression. This supports a hypothesis in which elevated homocysteine is a pathogenic, rather than causative, feature of glaucoma. Further exploration of homocysteine metabolism in glaucoma animal models demonstrates early and sustained dysregulation of genes involved in one-carbon metabolism and the interaction of essential cofactors and precursors (B₆, B₉, B₁₂, and choline) in whole retina and optic nerve head and RGCs. Supplementing these provides neuroprotection in an acute model and prevents neurodegeneration and protects visual function in a chronic model of glaucoma.

Original language	English
Article number	102127
Journal	Cell Reports Medicine
Volume	6
Issue number	5
DOIs	https://doi.org/10.1016/j.xcrm.2025.102127
Publication status	Published - 20 May 2025

Keywords

B vitamin
electroretinogram
homocysteine
neuroprotection
retinal ganglion cell

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10.1016/j.xcrm.2025.102127

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Tribble, J. R., Wong, V. H. Y., Stuart, K. V., Chidlow, G., Nicol, A., Rombaut, A., Rabiolo, A., Hoang, A., Lee, P. Y., Rutigliani, C., Enz, T. J., Canovai, A., Lardner, E., Stålhammar, G., Nguyen, C. T. O., Garway-Heath, D. F., Casson, R. J., Khawaja, A. P., Bui, B. V., & Williams, P. A. (2025). Dysfunctional one-carbon metabolism identifies vitamins B₆, B₉, B₁₂, and choline as neuroprotective in glaucoma. Cell Reports Medicine, 6(5), Article 102127. https://doi.org/10.1016/j.xcrm.2025.102127

@article{2fc5d3989cfa4f58b6a0a151c241d237,

title = "Dysfunctional one-carbon metabolism identifies vitamins B6, B9, B12, and choline as neuroprotective in glaucoma",

abstract = "Glaucoma, characterized by the loss of retinal ganglion cells (RGCs), is a leading cause of blindness for which there are no neuroprotective therapies. To explore observations of elevated homocysteine in glaucoma, we elevate vitreous homocysteine, which increases RGC death by 6\% following ocular hypertension. Genetic association with higher homocysteine does not affect glaucoma-associated outcomes from the UK Biobank and serum homocysteine levels have no effect on glaucomatous visual field progression. This supports a hypothesis in which elevated homocysteine is a pathogenic, rather than causative, feature of glaucoma. Further exploration of homocysteine metabolism in glaucoma animal models demonstrates early and sustained dysregulation of genes involved in one-carbon metabolism and the interaction of essential cofactors and precursors (B6, B9, B12, and choline) in whole retina and optic nerve head and RGCs. Supplementing these provides neuroprotection in an acute model and prevents neurodegeneration and protects visual function in a chronic model of glaucoma.",

keywords = "B vitamin, electroretinogram, homocysteine, neuroprotection, retinal ganglion cell",

author = "Tribble, \{James R.\} and Wong, \{Vickie H.Y.\} and Stuart, \{Kelsey V.\} and Glyn Chidlow and Alan Nicol and Anne Rombaut and Alessandro Rabiolo and Anh Hoang and Lee, \{Pei Ying\} and Carola Rutigliani and Enz, \{Tim J.\} and Alessio Canovai and Emma Lardner and Gustav St{\aa}lhammar and Nguyen, \{Christine T.O.\} and Garway-Heath, \{David F.\} and Casson, \{Robert J.\} and Khawaja, \{Anthony P.\} and Bui, \{Bang V.\} and Williams, \{Pete A.\}",

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

year = "2025",

month = may,

day = "20",

doi = "10.1016/j.xcrm.2025.102127",

language = "English",

volume = "6",

journal = "Cell Reports Medicine",

issn = "2666-3791",

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Tribble, JR, Wong, VHY, Stuart, KV, Chidlow, G, Nicol, A, Rombaut, A, Rabiolo, A, Hoang, A, Lee, PY, Rutigliani, C, Enz, TJ, Canovai, A, Lardner, E, Stålhammar, G, Nguyen, CTO, Garway-Heath, DF, Casson, RJ, Khawaja, AP, Bui, BV & Williams, PA 2025, 'Dysfunctional one-carbon metabolism identifies vitamins B₆, B₉, B₁₂, and choline as neuroprotective in glaucoma', Cell Reports Medicine, vol. 6, no. 5, 102127. https://doi.org/10.1016/j.xcrm.2025.102127

TY - JOUR

T1 - Dysfunctional one-carbon metabolism identifies vitamins B6, B9, B12, and choline as neuroprotective in glaucoma

AU - Tribble, James R.

AU - Wong, Vickie H.Y.

AU - Stuart, Kelsey V.

AU - Chidlow, Glyn

AU - Nicol, Alan

AU - Rombaut, Anne

AU - Rabiolo, Alessandro

AU - Hoang, Anh

AU - Lee, Pei Ying

AU - Rutigliani, Carola

AU - Enz, Tim J.

AU - Canovai, Alessio

AU - Lardner, Emma

AU - Stålhammar, Gustav

AU - Nguyen, Christine T.O.

AU - Garway-Heath, David F.

AU - Casson, Robert J.

AU - Khawaja, Anthony P.

AU - Bui, Bang V.

AU - Williams, Pete A.

PY - 2025/5/20

Y1 - 2025/5/20

N2 - Glaucoma, characterized by the loss of retinal ganglion cells (RGCs), is a leading cause of blindness for which there are no neuroprotective therapies. To explore observations of elevated homocysteine in glaucoma, we elevate vitreous homocysteine, which increases RGC death by 6% following ocular hypertension. Genetic association with higher homocysteine does not affect glaucoma-associated outcomes from the UK Biobank and serum homocysteine levels have no effect on glaucomatous visual field progression. This supports a hypothesis in which elevated homocysteine is a pathogenic, rather than causative, feature of glaucoma. Further exploration of homocysteine metabolism in glaucoma animal models demonstrates early and sustained dysregulation of genes involved in one-carbon metabolism and the interaction of essential cofactors and precursors (B6, B9, B12, and choline) in whole retina and optic nerve head and RGCs. Supplementing these provides neuroprotection in an acute model and prevents neurodegeneration and protects visual function in a chronic model of glaucoma.

AB - Glaucoma, characterized by the loss of retinal ganglion cells (RGCs), is a leading cause of blindness for which there are no neuroprotective therapies. To explore observations of elevated homocysteine in glaucoma, we elevate vitreous homocysteine, which increases RGC death by 6% following ocular hypertension. Genetic association with higher homocysteine does not affect glaucoma-associated outcomes from the UK Biobank and serum homocysteine levels have no effect on glaucomatous visual field progression. This supports a hypothesis in which elevated homocysteine is a pathogenic, rather than causative, feature of glaucoma. Further exploration of homocysteine metabolism in glaucoma animal models demonstrates early and sustained dysregulation of genes involved in one-carbon metabolism and the interaction of essential cofactors and precursors (B6, B9, B12, and choline) in whole retina and optic nerve head and RGCs. Supplementing these provides neuroprotection in an acute model and prevents neurodegeneration and protects visual function in a chronic model of glaucoma.

KW - B vitamin

KW - electroretinogram

KW - homocysteine

KW - neuroprotection

KW - retinal ganglion cell

UR - https://www.scopus.com/pages/publications/105004951455

U2 - 10.1016/j.xcrm.2025.102127

DO - 10.1016/j.xcrm.2025.102127

M3 - Article

SN - 2666-3791

VL - 6

JO - Cell Reports Medicine

JF - Cell Reports Medicine

IS - 5

M1 - 102127

ER -

Dysfunctional one-carbon metabolism identifies vitamins B₆, B₉, B₁₂, and choline as neuroprotective in glaucoma

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Keywords

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