TY - JOUR
T1 - Genome-wide screening reveals the genetic basis of mammalian embryonic eye development
AU - The International Mouse Phenotyping Consortium
AU - Chee, Justine M.
AU - Lanoue, Louise
AU - Clary, Dave
AU - Higgins, Kendall
AU - Bower, Lynette
AU - Flenniken, Ann
AU - Guo, Ruolin
AU - Adams, David J.
AU - Bosch, Fatima
AU - Braun, Robert E.
AU - Brown, Steve D.M.
AU - Chin, H. J.Genie
AU - Dickinson, Mary E.
AU - Hsu, Chih Wei
AU - Dobbie, Michael
AU - Gao, Xiang
AU - Galande, Sanjeev
AU - Grobler, Anne
AU - Heaney, Jason D.
AU - Herault, Yann
AU - de Angelis, Martin Hrabe
AU - Mammano, Fabio
AU - Nutter, Lauryl M.J.
AU - Parkinson, Helen
AU - Qin, Chuan
AU - Shiroishi, Toshi
AU - Sedlacek, Radislav
AU - Seong, J. K.
AU - Xu, Ying
AU - Ackert-Bicknell, Cheryl
AU - Adams, Douglas
AU - Adoum, Anne Tounsia
AU - Aguilar-Pimentel, Juan A.
AU - Akoma, Uchechukwu
AU - Ali-Hadji, Dalila
AU - Amarie, Oana V.
AU - André, Philippe
AU - Auburtin, Aurelie
AU - Bam’Hamed, Chaouki
AU - Beckers, Johannes
AU - Beig, Joachim
AU - Berberovic, Zorana
AU - Bezginov, Alexandr
AU - Birling, Marie Christine
AU - Boroviak, Katharina
AU - Bottomley, Joanna
AU - Bürger, Antje
AU - Busch, Dirk H.
AU - Butterfield, Natalie C.
AU - Wurst, Wolfgang
N1 - Publisher Copyright:
© 2023, The Author(s).
PY - 2023/12
Y1 - 2023/12
N2 - Background: Microphthalmia, anophthalmia, and coloboma (MAC) spectrum disease encompasses a group of eye malformations which play a role in childhood visual impairment. Although the predominant cause of eye malformations is known to be heritable in nature, with 80% of cases displaying loss-of-function mutations in the ocular developmental genes OTX2 or SOX2, the genetic abnormalities underlying the remaining cases of MAC are incompletely understood. This study intended to identify the novel genes and pathways required for early eye development. Additionally, pathways involved in eye formation during embryogenesis are also incompletely understood. This study aims to identify the novel genes and pathways required for early eye development through systematic forward screening of the mammalian genome. Results: Query of the International Mouse Phenotyping Consortium (IMPC) database (data release 17.0, August 01, 2022) identified 74 unique knockout lines (genes) with genetically associated eye defects in mouse embryos. The vast majority of eye abnormalities were small or absent eyes, findings most relevant to MAC spectrum disease in humans. A literature search showed that 27 of the 74 lines had previously published knockout mouse models, of which only 15 had ocular defects identified in the original publications. These 12 previously published gene knockouts with no reported ocular abnormalities and the 47 unpublished knockouts with ocular abnormalities identified by the IMPC represent 59 genes not previously associated with early eye development in mice. Of these 59, we identified 19 genes with a reported human eye phenotype. Overall, mining of the IMPC data yielded 40 previously unimplicated genes linked to mammalian eye development. Bioinformatic analysis showed that several of the IMPC genes colocalized to several protein anabolic and pluripotency pathways in early eye development. Of note, our analysis suggests that the serine-glycine pathway producing glycine, a mitochondrial one-carbon donator to folate one-carbon metabolism (FOCM), is essential for eye formation. Conclusions: Using genome-wide phenotype screening of single-gene knockout mouse lines, STRING analysis, and bioinformatic methods, this study identified genes heretofore unassociated with MAC phenotypes providing models to research novel molecular and cellular mechanisms involved in eye development. These findings have the potential to hasten the diagnosis and treatment of this congenital blinding disease.
AB - Background: Microphthalmia, anophthalmia, and coloboma (MAC) spectrum disease encompasses a group of eye malformations which play a role in childhood visual impairment. Although the predominant cause of eye malformations is known to be heritable in nature, with 80% of cases displaying loss-of-function mutations in the ocular developmental genes OTX2 or SOX2, the genetic abnormalities underlying the remaining cases of MAC are incompletely understood. This study intended to identify the novel genes and pathways required for early eye development. Additionally, pathways involved in eye formation during embryogenesis are also incompletely understood. This study aims to identify the novel genes and pathways required for early eye development through systematic forward screening of the mammalian genome. Results: Query of the International Mouse Phenotyping Consortium (IMPC) database (data release 17.0, August 01, 2022) identified 74 unique knockout lines (genes) with genetically associated eye defects in mouse embryos. The vast majority of eye abnormalities were small or absent eyes, findings most relevant to MAC spectrum disease in humans. A literature search showed that 27 of the 74 lines had previously published knockout mouse models, of which only 15 had ocular defects identified in the original publications. These 12 previously published gene knockouts with no reported ocular abnormalities and the 47 unpublished knockouts with ocular abnormalities identified by the IMPC represent 59 genes not previously associated with early eye development in mice. Of these 59, we identified 19 genes with a reported human eye phenotype. Overall, mining of the IMPC data yielded 40 previously unimplicated genes linked to mammalian eye development. Bioinformatic analysis showed that several of the IMPC genes colocalized to several protein anabolic and pluripotency pathways in early eye development. Of note, our analysis suggests that the serine-glycine pathway producing glycine, a mitochondrial one-carbon donator to folate one-carbon metabolism (FOCM), is essential for eye formation. Conclusions: Using genome-wide phenotype screening of single-gene knockout mouse lines, STRING analysis, and bioinformatic methods, this study identified genes heretofore unassociated with MAC phenotypes providing models to research novel molecular and cellular mechanisms involved in eye development. These findings have the potential to hasten the diagnosis and treatment of this congenital blinding disease.
KW - CPLANE
KW - Eye development
KW - IMPC
KW - MAC spectrum
KW - Mouse
KW - Serine-glycine biosynthesis
UR - http://www.scopus.com/inward/record.url?scp=85147454404&partnerID=8YFLogxK
U2 - 10.1186/s12915-022-01475-0
DO - 10.1186/s12915-022-01475-0
M3 - Article
C2 - 36737727
AN - SCOPUS:85147454404
SN - 1741-7007
VL - 21
JO - BMC Biology
JF - BMC Biology
IS - 1
M1 - 22
ER -