A systematically derived overview of the non-ubiquitous pathways and genes that define the molecular and genetic signature of the healthy trabecular meshwork

Ilona Liesenborghs; Johannes S A G Schouten; Martina Kutmon; Theo G M F Gorgels; Chris T Evelo; Wouter H G Hubens; Henny J M Beckers; Carroll A B Webers; Lars M T Eijssen

doi:10.1016/j.ygeno.2022.110280

A systematically derived overview of the non-ubiquitous pathways and genes that define the molecular and genetic signature of the healthy trabecular meshwork

Ilona Liesenborghs^*, Johannes S A G Schouten, Martina Kutmon, Theo G M F Gorgels, Chris T Evelo, Wouter H G Hubens, Henny J M Beckers, Carroll A B Webers, Lars M T Eijssen

^*Corresponding author for this work

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

Abstract

PURPOSE: The trabecular meshwork (TM) is situated in the most frontal part of the eye and is thought to play an important role in the regulation of the eye pressure. However, this tissue is rather difficult to harvest for research. The purpose of this study is therefore to integrate the existing gene expression data of the healthy TM to increase sample size and identify its signature genes and pathways. This provides a robust reference for the study of molecular disease processes and supports the selection of candidate target genes for new treatments.

METHODS: A systematic search identified microarray data of healthy TM tissue. After quality control, datasets of low quality and deviating samples were excluded. Remaining individuals were jointly normalized and integrated into one database. The average gene expression of each tested gene over all individuals was calculated. The 25% genes with the highest average expression were identified as the most active genes in the healthy TM and used as input for pathway and network analysis. Additionally, ubiquitous pathways and genes were identified and excluded from the results. Lastly, we identified genes which are likely to be TM-specific.

RESULTS: The gene expression data of 44 individuals, obtained from 18 datasets, were jointly normalized. Ubiquitous genes (n = 688) and ubiquitous pathways (n = 73) were identified and excluded. Following, 1882 genes and 211 pathways were identified as the signature genes and pathways of the healthy TM. Pathway analysis revealed multiple molecular processes of which some were already known to be active in the TM, for example extracellular matrix and elastic fiber formation. Forty-six candidate TM-specific genes were identified. These consist mainly of pseudogenes or novel transcripts of which the function is unknown.

CONCLUSIONS: In this comprehensive meta-analysis we identified non-ubiquitous genes and pathways that form the signature of the functioning of the healthy TM. Additionally, 46 candidate TM-specific genes were identified. This method can also be used for other tissues that are difficult to obtain for study.

Original language	English
Article number	110280
Number of pages	12
Journal	Genomics
Volume	114
Issue number	2
Early online date	4 Feb 2022
DOIs	https://doi.org/10.1016/j.ygeno.2022.110280
Publication status	Published - Mar 2022

Keywords

CELLS
EXPRESSION PROFILE
EXTRACELLULAR-MATRIX
Gene expression
Healthy trabecular meshwork
KEGG
Microarray
Non-ubiquitous genes
Non-ubiquitous pathways
OPEN-ANGLE GLAUCOMA
PROTEIN EXPRESSION
PSEUDOGENES PSEUDO
Systematic meta-analysis
TRANSCRIPTOME
Transcriptomics
UPDATE

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10.1016/j.ygeno.2022.110280Licence: CC BY-NC-ND

Cite this

Liesenborghs, I., Schouten, J. S. A. G., Kutmon, M., Gorgels, T. G. M. F., Evelo, C. T., Hubens, W. H. G., Beckers, H. J. M., Webers, C. A. B., & Eijssen, L. M. T. (2022). A systematically derived overview of the non-ubiquitous pathways and genes that define the molecular and genetic signature of the healthy trabecular meshwork. Genomics, 114(2), Article 110280. https://doi.org/10.1016/j.ygeno.2022.110280

@article{6f53ad1a3e5045cc9ec23e3943588f9b,

title = "A systematically derived overview of the non-ubiquitous pathways and genes that define the molecular and genetic signature of the healthy trabecular meshwork",

abstract = "PURPOSE: The trabecular meshwork (TM) is situated in the most frontal part of the eye and is thought to play an important role in the regulation of the eye pressure. However, this tissue is rather difficult to harvest for research. The purpose of this study is therefore to integrate the existing gene expression data of the healthy TM to increase sample size and identify its signature genes and pathways. This provides a robust reference for the study of molecular disease processes and supports the selection of candidate target genes for new treatments.METHODS: A systematic search identified microarray data of healthy TM tissue. After quality control, datasets of low quality and deviating samples were excluded. Remaining individuals were jointly normalized and integrated into one database. The average gene expression of each tested gene over all individuals was calculated. The 25% genes with the highest average expression were identified as the most active genes in the healthy TM and used as input for pathway and network analysis. Additionally, ubiquitous pathways and genes were identified and excluded from the results. Lastly, we identified genes which are likely to be TM-specific.RESULTS: The gene expression data of 44 individuals, obtained from 18 datasets, were jointly normalized. Ubiquitous genes (n = 688) and ubiquitous pathways (n = 73) were identified and excluded. Following, 1882 genes and 211 pathways were identified as the signature genes and pathways of the healthy TM. Pathway analysis revealed multiple molecular processes of which some were already known to be active in the TM, for example extracellular matrix and elastic fiber formation. Forty-six candidate TM-specific genes were identified. These consist mainly of pseudogenes or novel transcripts of which the function is unknown.CONCLUSIONS: In this comprehensive meta-analysis we identified non-ubiquitous genes and pathways that form the signature of the functioning of the healthy TM. Additionally, 46 candidate TM-specific genes were identified. This method can also be used for other tissues that are difficult to obtain for study.",

keywords = "CELLS, EXPRESSION PROFILE, EXTRACELLULAR-MATRIX, Gene expression, Healthy trabecular meshwork, KEGG, Microarray, Non-ubiquitous genes, Non-ubiquitous pathways, OPEN-ANGLE GLAUCOMA, PROTEIN EXPRESSION, PSEUDOGENES PSEUDO, Systematic meta-analysis, TRANSCRIPTOME, Transcriptomics, UPDATE",

author = "Ilona Liesenborghs and Schouten, {Johannes S A G} and Martina Kutmon and Gorgels, {Theo G M F} and Evelo, {Chris T} and Hubens, {Wouter H G} and Beckers, {Henny J M} and Webers, {Carroll A B} and Eijssen, {Lars M T}",

year = "2022",

month = mar,

doi = "10.1016/j.ygeno.2022.110280",

language = "English",

volume = "114",

journal = "Genomics",

issn = "0888-7543",

publisher = "Academic Press Inc.",

number = "2",

}

TY - JOUR

T1 - A systematically derived overview of the non-ubiquitous pathways and genes that define the molecular and genetic signature of the healthy trabecular meshwork

AU - Liesenborghs, Ilona

AU - Schouten, Johannes S A G

AU - Kutmon, Martina

AU - Gorgels, Theo G M F

AU - Evelo, Chris T

AU - Hubens, Wouter H G

AU - Beckers, Henny J M

AU - Webers, Carroll A B

AU - Eijssen, Lars M T

PY - 2022/3

Y1 - 2022/3

N2 - PURPOSE: The trabecular meshwork (TM) is situated in the most frontal part of the eye and is thought to play an important role in the regulation of the eye pressure. However, this tissue is rather difficult to harvest for research. The purpose of this study is therefore to integrate the existing gene expression data of the healthy TM to increase sample size and identify its signature genes and pathways. This provides a robust reference for the study of molecular disease processes and supports the selection of candidate target genes for new treatments.METHODS: A systematic search identified microarray data of healthy TM tissue. After quality control, datasets of low quality and deviating samples were excluded. Remaining individuals were jointly normalized and integrated into one database. The average gene expression of each tested gene over all individuals was calculated. The 25% genes with the highest average expression were identified as the most active genes in the healthy TM and used as input for pathway and network analysis. Additionally, ubiquitous pathways and genes were identified and excluded from the results. Lastly, we identified genes which are likely to be TM-specific.RESULTS: The gene expression data of 44 individuals, obtained from 18 datasets, were jointly normalized. Ubiquitous genes (n = 688) and ubiquitous pathways (n = 73) were identified and excluded. Following, 1882 genes and 211 pathways were identified as the signature genes and pathways of the healthy TM. Pathway analysis revealed multiple molecular processes of which some were already known to be active in the TM, for example extracellular matrix and elastic fiber formation. Forty-six candidate TM-specific genes were identified. These consist mainly of pseudogenes or novel transcripts of which the function is unknown.CONCLUSIONS: In this comprehensive meta-analysis we identified non-ubiquitous genes and pathways that form the signature of the functioning of the healthy TM. Additionally, 46 candidate TM-specific genes were identified. This method can also be used for other tissues that are difficult to obtain for study.

AB - PURPOSE: The trabecular meshwork (TM) is situated in the most frontal part of the eye and is thought to play an important role in the regulation of the eye pressure. However, this tissue is rather difficult to harvest for research. The purpose of this study is therefore to integrate the existing gene expression data of the healthy TM to increase sample size and identify its signature genes and pathways. This provides a robust reference for the study of molecular disease processes and supports the selection of candidate target genes for new treatments.METHODS: A systematic search identified microarray data of healthy TM tissue. After quality control, datasets of low quality and deviating samples were excluded. Remaining individuals were jointly normalized and integrated into one database. The average gene expression of each tested gene over all individuals was calculated. The 25% genes with the highest average expression were identified as the most active genes in the healthy TM and used as input for pathway and network analysis. Additionally, ubiquitous pathways and genes were identified and excluded from the results. Lastly, we identified genes which are likely to be TM-specific.RESULTS: The gene expression data of 44 individuals, obtained from 18 datasets, were jointly normalized. Ubiquitous genes (n = 688) and ubiquitous pathways (n = 73) were identified and excluded. Following, 1882 genes and 211 pathways were identified as the signature genes and pathways of the healthy TM. Pathway analysis revealed multiple molecular processes of which some were already known to be active in the TM, for example extracellular matrix and elastic fiber formation. Forty-six candidate TM-specific genes were identified. These consist mainly of pseudogenes or novel transcripts of which the function is unknown.CONCLUSIONS: In this comprehensive meta-analysis we identified non-ubiquitous genes and pathways that form the signature of the functioning of the healthy TM. Additionally, 46 candidate TM-specific genes were identified. This method can also be used for other tissues that are difficult to obtain for study.

KW - CELLS

KW - EXPRESSION PROFILE

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KW - Gene expression

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KW - KEGG

KW - Microarray

KW - Non-ubiquitous genes

KW - Non-ubiquitous pathways

KW - OPEN-ANGLE GLAUCOMA

KW - PROTEIN EXPRESSION

KW - PSEUDOGENES PSEUDO

KW - Systematic meta-analysis

KW - TRANSCRIPTOME

KW - Transcriptomics

KW - UPDATE

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DO - 10.1016/j.ygeno.2022.110280

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SN - 0888-7543

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JO - Genomics

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