Julie A Jurgens, Paola M Matos Ruiz, Jessica King, Emma E Foster, Lindsay Berube, Wai-Man Chan, Brenda J Barry, Raehoon Jeong, Elisabeth Rothman, Mary C Whitman, Sarah MacKinnon, Cristina Rivera-Quiles, Brandon M Pratt, Teresa Easterbrooks, Fiona M Mensching, Silvio Alessandro Di Gioia, Lynn Pais, Eleina M England, Teresa de Berardinis, Adriano Magli, Feray Koc, Kazuhide Asakawa, Koichi Kawakami, Anne O'Donnell-Luria, David G Hunter, Caroline D Robson, Martha L Bulyk, Elizabeth C Engle
{"title":"利用人类测序、斑马鱼筛选和蛋白质结合微阵列鉴定眼部先天性颅运动神经元疾病的基因。","authors":"Julie A Jurgens, Paola M Matos Ruiz, Jessica King, Emma E Foster, Lindsay Berube, Wai-Man Chan, Brenda J Barry, Raehoon Jeong, Elisabeth Rothman, Mary C Whitman, Sarah MacKinnon, Cristina Rivera-Quiles, Brandon M Pratt, Teresa Easterbrooks, Fiona M Mensching, Silvio Alessandro Di Gioia, Lynn Pais, Eleina M England, Teresa de Berardinis, Adriano Magli, Feray Koc, Kazuhide Asakawa, Koichi Kawakami, Anne O'Donnell-Luria, David G Hunter, Caroline D Robson, Martha L Bulyk, Elizabeth C Engle","doi":"10.1167/iovs.66.3.62","DOIUrl":null,"url":null,"abstract":"<p><strong>Purpose: </strong>To functionally evaluate novel human sequence-derived candidate genes and variants for unsolved ocular congenital cranial dysinnervation disorders (oCCDDs).</p><p><strong>Methods: </strong>Through exome and genome sequencing of a genetically unsolved human oCCDD cohort, we previously reported the identification of variants in many candidate genes. Here, we describe a parallel study that prioritized a subset of these genes (43 human genes, 57 zebrafish genes) using a G0 CRISPR/Cas9-based knockout assay in zebrafish and generated F2 germline mutants for 17. We tested the functionality of variants of uncertain significance in known and novel candidate transcription factor-encoding genes through protein binding microarrays.</p><p><strong>Results: </strong>We first demonstrated the feasibility of the G0 screen by targeting known oCCDD genes phox2a and mafba. Approximately 70% to 90% of gene-targeted G0 zebrafish embryos recapitulated germline homozygous null-equivalent phenotypes. Using this approach, we then identified three novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) with putative contributions to human and zebrafish cranial motor development. In addition, protein binding microarrays demonstrated reduced or abolished DNA binding of human variants of uncertain significance in known and novel sequence-derived transcription factors PHOX2A (p.(Trp137Cys)), MAFB (p.(Glu223Lys)), and OLIG2 (p.(Arg156Leu)).</p><p><strong>Conclusions: </strong>This study nominates three strong novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) and supports the functionality and putative pathogenicity of transcription factor candidate variants PHOX2A p.(Trp137Cys), MAFB p.(Glu223Lys), and OLIG2 p.(Arg156Leu). Our findings support that G0 loss-of-function screening in zebrafish can be coupled with human sequence analysis and protein binding microarrays to aid in prioritizing oCCDD candidate genes/variants.</p>","PeriodicalId":14620,"journal":{"name":"Investigative ophthalmology & visual science","volume":"66 3","pages":"62"},"PeriodicalIF":5.0000,"publicationDate":"2025-03-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11956743/pdf/","citationCount":"0","resultStr":"{\"title\":\"Gene Identification for Ocular Congenital Cranial Motor Neuron Disorders Using Human Sequencing, Zebrafish Screening, and Protein Binding Microarrays.\",\"authors\":\"Julie A Jurgens, Paola M Matos Ruiz, Jessica King, Emma E Foster, Lindsay Berube, Wai-Man Chan, Brenda J Barry, Raehoon Jeong, Elisabeth Rothman, Mary C Whitman, Sarah MacKinnon, Cristina Rivera-Quiles, Brandon M Pratt, Teresa Easterbrooks, Fiona M Mensching, Silvio Alessandro Di Gioia, Lynn Pais, Eleina M England, Teresa de Berardinis, Adriano Magli, Feray Koc, Kazuhide Asakawa, Koichi Kawakami, Anne O'Donnell-Luria, David G Hunter, Caroline D Robson, Martha L Bulyk, Elizabeth C Engle\",\"doi\":\"10.1167/iovs.66.3.62\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>To functionally evaluate novel human sequence-derived candidate genes and variants for unsolved ocular congenital cranial dysinnervation disorders (oCCDDs).</p><p><strong>Methods: </strong>Through exome and genome sequencing of a genetically unsolved human oCCDD cohort, we previously reported the identification of variants in many candidate genes. Here, we describe a parallel study that prioritized a subset of these genes (43 human genes, 57 zebrafish genes) using a G0 CRISPR/Cas9-based knockout assay in zebrafish and generated F2 germline mutants for 17. We tested the functionality of variants of uncertain significance in known and novel candidate transcription factor-encoding genes through protein binding microarrays.</p><p><strong>Results: </strong>We first demonstrated the feasibility of the G0 screen by targeting known oCCDD genes phox2a and mafba. Approximately 70% to 90% of gene-targeted G0 zebrafish embryos recapitulated germline homozygous null-equivalent phenotypes. Using this approach, we then identified three novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) with putative contributions to human and zebrafish cranial motor development. In addition, protein binding microarrays demonstrated reduced or abolished DNA binding of human variants of uncertain significance in known and novel sequence-derived transcription factors PHOX2A (p.(Trp137Cys)), MAFB (p.(Glu223Lys)), and OLIG2 (p.(Arg156Leu)).</p><p><strong>Conclusions: </strong>This study nominates three strong novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) and supports the functionality and putative pathogenicity of transcription factor candidate variants PHOX2A p.(Trp137Cys), MAFB p.(Glu223Lys), and OLIG2 p.(Arg156Leu). 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Gene Identification for Ocular Congenital Cranial Motor Neuron Disorders Using Human Sequencing, Zebrafish Screening, and Protein Binding Microarrays.
Purpose: To functionally evaluate novel human sequence-derived candidate genes and variants for unsolved ocular congenital cranial dysinnervation disorders (oCCDDs).
Methods: Through exome and genome sequencing of a genetically unsolved human oCCDD cohort, we previously reported the identification of variants in many candidate genes. Here, we describe a parallel study that prioritized a subset of these genes (43 human genes, 57 zebrafish genes) using a G0 CRISPR/Cas9-based knockout assay in zebrafish and generated F2 germline mutants for 17. We tested the functionality of variants of uncertain significance in known and novel candidate transcription factor-encoding genes through protein binding microarrays.
Results: We first demonstrated the feasibility of the G0 screen by targeting known oCCDD genes phox2a and mafba. Approximately 70% to 90% of gene-targeted G0 zebrafish embryos recapitulated germline homozygous null-equivalent phenotypes. Using this approach, we then identified three novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) with putative contributions to human and zebrafish cranial motor development. In addition, protein binding microarrays demonstrated reduced or abolished DNA binding of human variants of uncertain significance in known and novel sequence-derived transcription factors PHOX2A (p.(Trp137Cys)), MAFB (p.(Glu223Lys)), and OLIG2 (p.(Arg156Leu)).
Conclusions: This study nominates three strong novel candidate oCCDD genes (SEMA3F, OLIG2, and FRMD4B) and supports the functionality and putative pathogenicity of transcription factor candidate variants PHOX2A p.(Trp137Cys), MAFB p.(Glu223Lys), and OLIG2 p.(Arg156Leu). Our findings support that G0 loss-of-function screening in zebrafish can be coupled with human sequence analysis and protein binding microarrays to aid in prioritizing oCCDD candidate genes/variants.
期刊介绍:
Investigative Ophthalmology & Visual Science (IOVS), published as ready online, is a peer-reviewed academic journal of the Association for Research in Vision and Ophthalmology (ARVO). IOVS features original research, mostly pertaining to clinical and laboratory ophthalmology and vision research in general.
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