TY - JOUR
T1 - Identification of novel coloboma candidate genes through conserved gene expression analyses across four vertebrate species
AU - Trejo-Reveles, Violeta
AU - Nicholas, Owen
AU - Chan, Ho Ching Brian
AU - Toms, Maria
AU - Schoenebeck, Jeffrey
AU - Moosajee, Mariya
AU - Rainger, Joe
N1 - Funding Information:
J.R. was supported by a UKRI Future leaders Fellowship (MR/S033165/1). B.H.C.C. and J.R. were supported by the Biotechnology and Biological Sciences Research Council (BBS/E/D/10002071). V.T.-R.’s doctoral studentship was awarded by the Mexican National Council of Science and Technology (CONACyT). M.M. was funded by the Wellcome Trust (205174/Z/16/Z), Moorfields Eye Charity and BIPOSA Research Award.
Funding Information:
We would like to thank the staff at the Greenwood Building (Roslin Institute) for chicken husbandry, Aara Patel and Jane Sowden (UCL) for sharing RNAseq data, and James Prendergast (Roslin Institute) for help with bioinformatics. This research was made possible through access to the data and findings generated by the 100,000 Genomes Project. The 100,000 Genomes Project is managed by Genomics England Limited (a wholly owned company of the Department of Health and Social Care). The 100,000 Genomes Project is funded by the National Institute for Health Research and NHS England. The Wellcome Trust, Cancer Research UK, and the Medical Research Council have also funded research infrastructure. The 100,000 Genomes Project uses data provided by patients and collected by the National Health Service as part of their care and support.
Publisher Copyright:
© 2023 by the authors.
PY - 2023/2/4
Y1 - 2023/2/4
N2 - Ocular coloboma (OC) is a failure of complete optic fissure closure during embryonic development and presents as a tissue defect along the proximal-distal axis of the ventral eye. It is classed as part of the clinical spectrum of structural eye malformations with microphthalmia and anophthalmia, collectively abbreviated to MAC. Despite deliberate attempts to identify causative variants in MAC, many patients remain without a genetic diagnosis. To reveal potential candidate genes, we utilised transcriptomes experimentally generated from embryonic eye tissues derived from humans, mice, zebrafish, and chicken at stages coincident with optic fissure closure. Our in-silico analyses found 10 genes with optic fissure-specific enriched expression:
ALDH1A3,
BMPR1B,
EMX2,
EPHB3,
NID1,
NTN1,
PAX2,
SMOC1,
TENM3, and
VAX1. In situ hybridization revealed that all 10 genes were broadly expressed ventrally in the developing eye but that only
PAX2 and
NTN1 were expressed in cells at the edges of the optic fissure margin. Of these conserved optic fissure genes,
EMX2,
NID1, and
EPHB3 have not previously been associated with human MAC cases. Targeted genetic manipulation in zebrafish embryos using CRISPR/Cas9 caused the developmental MAC phenotype for
emx2 and
ephb3. We analysed available whole genome sequencing datasets from MAC patients and identified a range of variants with plausible causality. In combination, our data suggest that expression of genes involved in ventral eye development is conserved across a range of vertebrate species and that
EMX2,
NID1, and
EPHB3 are candidate loci that warrant further functional analysis in the context of MAC and should be considered for sequencing in cohorts of patients with structural eye malformations.
AB - Ocular coloboma (OC) is a failure of complete optic fissure closure during embryonic development and presents as a tissue defect along the proximal-distal axis of the ventral eye. It is classed as part of the clinical spectrum of structural eye malformations with microphthalmia and anophthalmia, collectively abbreviated to MAC. Despite deliberate attempts to identify causative variants in MAC, many patients remain without a genetic diagnosis. To reveal potential candidate genes, we utilised transcriptomes experimentally generated from embryonic eye tissues derived from humans, mice, zebrafish, and chicken at stages coincident with optic fissure closure. Our in-silico analyses found 10 genes with optic fissure-specific enriched expression:
ALDH1A3,
BMPR1B,
EMX2,
EPHB3,
NID1,
NTN1,
PAX2,
SMOC1,
TENM3, and
VAX1. In situ hybridization revealed that all 10 genes were broadly expressed ventrally in the developing eye but that only
PAX2 and
NTN1 were expressed in cells at the edges of the optic fissure margin. Of these conserved optic fissure genes,
EMX2,
NID1, and
EPHB3 have not previously been associated with human MAC cases. Targeted genetic manipulation in zebrafish embryos using CRISPR/Cas9 caused the developmental MAC phenotype for
emx2 and
ephb3. We analysed available whole genome sequencing datasets from MAC patients and identified a range of variants with plausible causality. In combination, our data suggest that expression of genes involved in ventral eye development is conserved across a range of vertebrate species and that
EMX2,
NID1, and
EPHB3 are candidate loci that warrant further functional analysis in the context of MAC and should be considered for sequencing in cohorts of patients with structural eye malformations.
KW - Coloboma
KW - Microphthalmia
KW - Anophthalmia
KW - Optic fissure closure
KW - Eye development
U2 - 10.3390/biom13020293
DO - 10.3390/biom13020293
M3 - Article
C2 - 36830662
SN - 2218-273X
VL - 13
SP - 1
EP - 18
JO - Biomolecules
JF - Biomolecules
IS - 2
M1 - 293
ER -