PUBLICATION

Crispant analysis in zebrafish as a tool for rapid functional screening of disease-causing genes for bone fragility

Authors

Debaenst, S., Jarayseh, T., De Saffel, H., Bek, J.W., Boone, M., Josipovic, I., Kibleur, P., Kwon, R.Y., Coucke, P.J., Willaert, A.

ID

ZDB-PUB-250116-11

Date

2025

Source

eLIFE 13: (Journal)

Registered Authors

Coucke, Paul, De Saffel, Hanna, Kwon, Ronald, Willaert, Andy

Keywords

Crispants, Danio rerio, genetics, genomics, zebrafish

MeSH Terms

Zebrafish Proteins/genetics
Zebrafish Proteins/metabolism
Disease Models, Animal
Bone Density/genetics
Osteogenesis Imperfecta/genetics
Phenotype
Animals
High-Throughput Nucleotide Sequencing
CRISPR-Cas Systems
Zebrafish*/genetics

PubMed

39817421 Full text @ Elife

Abstract

Heritable fragile bone disorders (FBDs), ranging from multifactorial to rare monogenic conditions, are characterized by an elevated fracture risk. Validating causative genes and understanding their mechanisms remain challenging. We assessed a semi-high throughput zebrafish screening platform for rapid in vivo functional testing of candidate FBD genes. Six genes linked to severe recessive osteogenesis imperfecta (OI) and four associated with bone mineral density (BMD) from genome-wide association studies were analyzed. Using CRISPR/Cas9-based crispant screening in F0 mosaic founder zebrafish, Next-generation sequencing confirmed high indel efficiency (mean 88%), mimicking stable knock-out models. Skeletal phenotyping at 7, 14, and 90 days post-fertilization (dpf) using microscopy, Alizarin Red S staining, and microCT was performed. Larval crispants showed variable osteoblast and mineralization phenotypes, while adult crispants displayed consistent skeletal defects, including malformed neural and haemal arches, vertebral fractures and fusions, and altered bone volume and density. In addition, aldh7a1 and mbtps2 crispants experienced increased mortality due to severe skeletal deformities. RT-qPCR revealed differential expression of osteogenic markers bglap and col1a1a, highlighting their biomarker potential. Our results establish zebrafish crispant screening as a robust tool for FBD gene validation, combining skeletal and molecular analyses across developmental stages to uncover novel insights into gene functions in bone biology.

Genes / Markers

Figures

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Expression

Phenotype

Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Debaenst et al., 2025 ZDB-PUB-250116-11 PMID:39817421

Crispant analysis in zebrafish as a tool for rapid functional screening of disease-causing genes for bone fragility

Debaenst et al., 2025

ZDB-PUB-250116-11
PMID:39817421