Deletion of LBR N-terminal domains recapitulates Pelger-Huet anomaly phenotypes in mouse without disrupting X chromosome inactivation
Abstract
Mutations in the gene encoding Lamin B receptor (LBR), a nuclear-membrane protein with sterol reductase activity, have been linked to rare human disorders. Phenotypes range from a benign blood disorder, such as Pelger-Huet anomaly (PHA), affecting the morphology and chromatin organization of white blood cells, to embryonic lethality as for Greenberg dysplasia (GRBGD). Existing PHA mouse models do not fully recapitulate the human phenotypes, hindering efforts to understand the molecular etiology of this disorder. Here we show, using CRISPR/Cas-9 gene editing technology, that a 236bp N-terminal deletion in the mouse Lbr gene, generating a protein missing the N-terminal domains of LBR, presents a superior model of human PHA. Further, we address recent reports of a link between Lbr and defects in X chromosome inactivation (XCI) and show that our mouse mutant displays minor X chromosome inactivation defects that do not lead to any overt phenotypes in vivo. We suggest that our N-terminal deletion model provides a valuable pre-clinical tool to the research community and will aid in further understanding the etiology of PHA and the diverse functions of LBR.
Additional Information
© The Author(s) 2021. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/. Received 28 April 2020; Accepted 24 February 2021; Published 12 April 2021. We would like to thank Phil Avner for his incredible generosity, support and long-term mentorship. We want also to thank all the members of the Avner and the Hoffmann groups, Tom Vulliamy, Guifeng Wei, Greta Pintacuda, Giuseppe Trigiante, and Gian Tartaglia for critical reading of the manuscript. Paolo Fruscoloni and Tiziana Orisini for help with the micro-CT acquisitions. Inderjeet Dokal, Christophe Lancrin, and his group for help with the blood analysis. Andreas Buness for initial work on the data analysis. We would like to thank Mitch Guttman for initial discussion of this project and continous support. Monica Di Giacomo for initial work on this project. Olga Boruc, Danilo Pugliese, Stefano Tatti, and all the members of the EMBL-Rome animal house for continuous support toward this project. We would like to thank Frank Stein and Mandy Rettel from the EMBL Proteomic Core facility for their help with the mass-spectrometry experiments. A.C. is funded by a Rett Syndrome Research Trust (RSRT), BARTS CHARITY grants, and intramural QMUL support. This work has been co-funded by EMBL grants. This paper is in memory of Prof. Maurizio D'Esposito, an outstanding scientist, a mentor, and a friend. Data availability: Next-generation sequencing data has been deposited in GEO, access number: GSE165447. Differentially expressed genes are available in Supplementary Data 1. All source data underlying the graphs and charts presented in the main figures are available in Supplementary Data 2. Sequences for primers used in this study are available in Supplementary Data 3. Mass-spectrometry data has been deposited in the PRIDE database, accession number: PXD024111. All data is available upon request. Author Contributions: A.C. thought and designed this work. A.N.Y., E.P. and N.R.B. performed most of the experiments. A.C., A.H., B.M.M. and A.L. also contributed experimentally to the paper. In particular, A.C. designed the guides for the generation of the NT-KO (and other mutants), prepared the reagents for the microinjections and did the initial characterization of the mutant lines, with technical support from A.L. A.Y. performed all the experiments/scoring/statistics shown in the paper for the selected animal model. N.B.R. performed all the experiments in differentiating ES cells (with A.C.), and all shown western blots. E.P. performed all the histology sections and helped with the tissue preparation for all experiments performed in the selected mouse model. N.P. performed the bioinformatic analysis and statistical analysis. A.N.Y. performed the basic statistical analysis (with N.P.). J.W.J. provided the theoretical input in the initial stages of the project. B.M.M. helped with the microscopic analysis and Lamina-Xi distance quantifications. A.C. and A.N.Y. wrote the paper. T.G. and A.C. acted as senior authors for data interpretation. The final manuscript is the result of teamwork. The authors declare no competing interests.Attached Files
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Additional details
- Eprint ID
- 108767
- Resolver ID
- CaltechAUTHORS:20210420-074835493
- Rett Syndrome Research Trust
- BARTS CHARITY
- Queen Mary University of London
- European Molecular Biology Laboratory (EMBL)
- Created
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2021-04-23Created from EPrint's datestamp field
- Updated
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2021-04-23Created from EPrint's last_modified field