Back to Search Start Over

Saturation mutagenesis defines novel mouse models of severe spine deformity

Authors :
Rios, Jonathan J.
Denton, Kristin
Yu, Hao
Manickam, Kandamurugu
Garner, Shannon
Russell, Jamie
Ludwig, Sara
Rosenfeld, Jill A.
Liu, Pengfei
Munch, Jake
Sucato, Daniel J.
Beutler, Bruce
Wise, Carol A.
Source :
Disease Models and Mechanisms; June 2021, Vol. 14 Issue: 6 pdmm048901-dmm048901, 1p
Publication Year :
2021

Abstract

Embryonic formation and patterning of the vertebrate spinal column requires coordination of many molecular cues. After birth, the integrity of the spine is impacted by developmental abnormalities of the skeletal, muscular and nervous systems, which may result in deformities, such as kyphosis and scoliosis. We sought to identify novel genetic mouse models of severe spine deformity by implementing in vivo skeletal radiography as part of a high-throughput saturation mutagenesis screen. We report selected examples of genetic mouse models following radiographic screening of 54,497 mice from 1275 pedigrees. An estimated 30.44% of autosomal genes harbored predicted damaging alleles examined twice or more in the homozygous state. Of the 1275 pedigrees screened, 7.4% presented with severe spine deformity developing in multiple mice, and of these, meiotic mapping implicated N-ethyl-N-nitrosourea alleles in 21% of pedigrees. Our study provides proof of concept that saturation mutagenesis is capable of discovering novel mouse models of human disease, including conditions with skeletal, neural and neuromuscular pathologies. Furthermore, we report a mouse model of skeletal disease, including severe spine deformity, caused by recessive mutation in Scube3. By integrating results with a human clinical exome database, we identified a patient with undiagnosed skeletal disease who harbored recessive mutations in SCUBE3, and we demonstrated that disease-associated mutations are associated with reduced transactivation of Smad signaling in vitro. All radiographic results and mouse models are made publicly available through the Mutagenetix online database with the goal of advancing understanding of spine development and discovering novel mouse models of human disease.

Details

Language :
English
ISSN :
17548403 and 17548411
Volume :
14
Issue :
6
Database :
Supplemental Index
Journal :
Disease Models and Mechanisms
Publication Type :
Periodical
Accession number :
ejs59035945
Full Text :
https://doi.org/10.1242/dmm.048901