Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease

Alexandra C Martin-Geary; Alexander J M Blakes; Ruebena Dawes; Scott D Findlay; Jenny Lord; Susan Walker; Jonathan Talbot-Martin; Nechama Wieder; Elston N D'Souza; Maria Fernandes; Sarah Hilton; Nayana Lahiri; Christopher Campbell; Sarah Jenkinson; Christian G E L DeGoede; Emily R Anderson; Christopher B Burge; Stephan J Sanders; Jamie Ellingford; Diana Baralle; Siddharth Banka; Nicola Whiffin

doi:10.1101/2023.09.12.23295416

Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease

Alexandra C Martin-Geary, Alexander J M Blakes, Ruebena Dawes, Scott D Findlay, Jenny Lord, Susan Walker, Jonathan Talbot-Martin, Nechama Wieder, Elston N D'Souza, Maria Fernandes, Sarah Hilton, Nayana Lahiri, Christopher Campbell, Sarah Jenkinson, Christian G E L DeGoede, Emily R Anderson, Christopher B Burge, Stephan J Sanders, Jamie Ellingford, Diana BaralleSiddharth Banka, Nicola Whiffin

Division of Evolution, Infection and Genomics

Research output: Preprint/Working paper › Preprint

Abstract

BACKGROUND: Both promoters and untranslated regions (UTRs) have critical regulatory roles, yet variants in these regions are largely excluded from clinical genetic testing due to difficulty in interpreting pathogenicity. The extent to which these regions may harbour diagnoses for individuals with rare disease is currently unknown.

METHODS: We present a framework for the identification and annotation of potentially deleterious proximal promoter and UTR variants in known dominant disease genes. We use this framework to annotate de novo variants (DNVs) in 8,040 undiagnosed individuals in the Genomics England 100,000 genomes project, which were subject to strict region-based filtering, clinical review, and validation studies where possible. In addition, we performed region and variant annotation-based burden testing in 7,862 unrelated probands against matched unaffected controls.

RESULTS: We prioritised eleven DNVs and identified an additional variant overlapping one of the eleven. Ten of these twelve variants (82%) are in genes that are a strong match to the individual's phenotype and six had not previously been identified. Through burden testing, we did not observe a significant enrichment of potentially deleterious promoter and/or UTR variants in individuals with rare disease collectively across any of our region or variant annotations.

CONCLUSIONS: Overall, we demonstrate the value of screening promoters and UTRs to uncover additional diagnoses for previously undiagnosed individuals with rare disease and provide a framework for doing so without dramatically increasing interpretation burden.

Original language	English
Publisher	Cold Spring Harbor Laboratory Press
DOIs	https://doi.org/10.1101/2023.09.12.23295416
Publication status	Published - 12 Sept 2023

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Name	medRxiv
Publisher	Cold Spring Harbor Laboratory Press

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10.1101/2023.09.12.23295416Licence: CC BY

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Martin-Geary, A. C., Blakes, A. J. M., Dawes, R., Findlay, S. D., Lord, J., Walker, S., Talbot-Martin, J., Wieder, N., D'Souza, E. N., Fernandes, M., Hilton, S., Lahiri, N., Campbell, C., Jenkinson, S., DeGoede, C. G. E. L., Anderson, E. R., Burge, C. B., Sanders, S. J., Ellingford, J., ... Whiffin, N. (2023). Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease. (medRxiv). Cold Spring Harbor Laboratory Press. https://doi.org/10.1101/2023.09.12.23295416

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title = "Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease",

abstract = "BACKGROUND: Both promoters and untranslated regions (UTRs) have critical regulatory roles, yet variants in these regions are largely excluded from clinical genetic testing due to difficulty in interpreting pathogenicity. The extent to which these regions may harbour diagnoses for individuals with rare disease is currently unknown.METHODS: We present a framework for the identification and annotation of potentially deleterious proximal promoter and UTR variants in known dominant disease genes. We use this framework to annotate de novo variants (DNVs) in 8,040 undiagnosed individuals in the Genomics England 100,000 genomes project, which were subject to strict region-based filtering, clinical review, and validation studies where possible. In addition, we performed region and variant annotation-based burden testing in 7,862 unrelated probands against matched unaffected controls. RESULTS: We prioritised eleven DNVs and identified an additional variant overlapping one of the eleven. Ten of these twelve variants (82%) are in genes that are a strong match to the individual's phenotype and six had not previously been identified. Through burden testing, we did not observe a significant enrichment of potentially deleterious promoter and/or UTR variants in individuals with rare disease collectively across any of our region or variant annotations.CONCLUSIONS: Overall, we demonstrate the value of screening promoters and UTRs to uncover additional diagnoses for previously undiagnosed individuals with rare disease and provide a framework for doing so without dramatically increasing interpretation burden.",

author = "Martin-Geary, {Alexandra C} and Blakes, {Alexander J M} and Ruebena Dawes and Findlay, {Scott D} and Jenny Lord and Susan Walker and Jonathan Talbot-Martin and Nechama Wieder and D'Souza, {Elston N} and Maria Fernandes and Sarah Hilton and Nayana Lahiri and Christopher Campbell and Sarah Jenkinson and DeGoede, {Christian G E L} and Anderson, {Emily R} and Burge, {Christopher B} and Sanders, {Stephan J} and Jamie Ellingford and Diana Baralle and Siddharth Banka and Nicola Whiffin",

year = "2023",

month = sep,

day = "12",

doi = "10.1101/2023.09.12.23295416",

language = "English",

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Martin-Geary, AC, Blakes, AJM, Dawes, R, Findlay, SD, Lord, J, Walker, S, Talbot-Martin, J, Wieder, N, D'Souza, EN, Fernandes, M, Hilton, S, Lahiri, N, Campbell, C, Jenkinson, S, DeGoede, CGEL, Anderson, ER, Burge, CB, Sanders, SJ, Ellingford, J, Baralle, D, Banka, S & Whiffin, N 2023 'Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease' medRxiv, Cold Spring Harbor Laboratory Press. https://doi.org/10.1101/2023.09.12.23295416

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T1 - Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease

AU - Martin-Geary, Alexandra C

AU - Blakes, Alexander J M

AU - Dawes, Ruebena

AU - Findlay, Scott D

AU - Lord, Jenny

AU - Walker, Susan

AU - Talbot-Martin, Jonathan

AU - Wieder, Nechama

AU - D'Souza, Elston N

AU - Fernandes, Maria

AU - Hilton, Sarah

AU - Lahiri, Nayana

AU - Campbell, Christopher

AU - Jenkinson, Sarah

AU - DeGoede, Christian G E L

AU - Anderson, Emily R

AU - Burge, Christopher B

AU - Sanders, Stephan J

AU - Ellingford, Jamie

AU - Baralle, Diana

AU - Banka, Siddharth

AU - Whiffin, Nicola

PY - 2023/9/12

Y1 - 2023/9/12

N2 - BACKGROUND: Both promoters and untranslated regions (UTRs) have critical regulatory roles, yet variants in these regions are largely excluded from clinical genetic testing due to difficulty in interpreting pathogenicity. The extent to which these regions may harbour diagnoses for individuals with rare disease is currently unknown.METHODS: We present a framework for the identification and annotation of potentially deleterious proximal promoter and UTR variants in known dominant disease genes. We use this framework to annotate de novo variants (DNVs) in 8,040 undiagnosed individuals in the Genomics England 100,000 genomes project, which were subject to strict region-based filtering, clinical review, and validation studies where possible. In addition, we performed region and variant annotation-based burden testing in 7,862 unrelated probands against matched unaffected controls. RESULTS: We prioritised eleven DNVs and identified an additional variant overlapping one of the eleven. Ten of these twelve variants (82%) are in genes that are a strong match to the individual's phenotype and six had not previously been identified. Through burden testing, we did not observe a significant enrichment of potentially deleterious promoter and/or UTR variants in individuals with rare disease collectively across any of our region or variant annotations.CONCLUSIONS: Overall, we demonstrate the value of screening promoters and UTRs to uncover additional diagnoses for previously undiagnosed individuals with rare disease and provide a framework for doing so without dramatically increasing interpretation burden.

AB - BACKGROUND: Both promoters and untranslated regions (UTRs) have critical regulatory roles, yet variants in these regions are largely excluded from clinical genetic testing due to difficulty in interpreting pathogenicity. The extent to which these regions may harbour diagnoses for individuals with rare disease is currently unknown.METHODS: We present a framework for the identification and annotation of potentially deleterious proximal promoter and UTR variants in known dominant disease genes. We use this framework to annotate de novo variants (DNVs) in 8,040 undiagnosed individuals in the Genomics England 100,000 genomes project, which were subject to strict region-based filtering, clinical review, and validation studies where possible. In addition, we performed region and variant annotation-based burden testing in 7,862 unrelated probands against matched unaffected controls. RESULTS: We prioritised eleven DNVs and identified an additional variant overlapping one of the eleven. Ten of these twelve variants (82%) are in genes that are a strong match to the individual's phenotype and six had not previously been identified. Through burden testing, we did not observe a significant enrichment of potentially deleterious promoter and/or UTR variants in individuals with rare disease collectively across any of our region or variant annotations.CONCLUSIONS: Overall, we demonstrate the value of screening promoters and UTRs to uncover additional diagnoses for previously undiagnosed individuals with rare disease and provide a framework for doing so without dramatically increasing interpretation burden.

U2 - 10.1101/2023.09.12.23295416

DO - 10.1101/2023.09.12.23295416

M3 - Preprint

C2 - 37745552

T3 - medRxiv

BT - Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease

PB - Cold Spring Harbor Laboratory Press

ER -

Systematic identification of disease-causing promoter and untranslated region variants in 8,040 undiagnosed individuals with rare disease

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