Rothmund-Thomson syndrome-like RECQL4 truncating mutations cause a haploinsufficient low-bone-mass phenotype in mice
Journal article
Castillo-Tandazo, Wilson, Frazier, Ann E., Sims, Natalie A., Smeets, Monique F. and Walkley, Carl R.. (2021). Rothmund-Thomson syndrome-like RECQL4 truncating mutations cause a haploinsufficient low-bone-mass phenotype in mice. Molecular and Cellular Biology. 41(3), pp. Article e00590-20. https://doi.org/10.1128/MCB.00590-20
Authors | Castillo-Tandazo, Wilson, Frazier, Ann E., Sims, Natalie A., Smeets, Monique F. and Walkley, Carl R. |
---|---|
Abstract | Rothmund-Thomson syndrome (RTS) is an autosomal recessive disorder characterized by defects in the skeletal system, such as bone hypoplasia, short stature, low bone mass, and an increased incidence of osteosarcoma. RTS type 2 patients have germ line compound biallelic protein-truncating mutations of RECQL4. As existing murine models employ Recql4 null alleles, we have attempted to more accurately model RTS by generating mice with patient-mimicking truncating Recql4 mutations. Truncating mutations impaired the stability and subcellular localization of RECQL4 and resulted in homozygous embryonic lethality and a haploinsufficient low-bone mass phenotype. Combination of a truncating mutation with a conditional Recql4 null allele demonstrated that the skeletal defects were intrinsic to the osteoblast lineage. However, the truncating mutations did not promote tumorigenesis. We utilized murine Recql4 null cells to assess the impact of human RECQL4 mutations using an in vitro complementation assay. While some mutations created unstable protein products, others altered subcellular localization of the protein. Interestingly, the severity of the phenotypes correlated with the extent of protein truncation. Collectively, our results reveal that truncating RECQL4 mutations in mice lead to an osteoporosis-like phenotype through defects in early osteoblast progenitors and identify RECQL4 gene dosage as a novel regulator of bone mass. |
Keywords | Rothmund-Thomson syndrome; RECQL4; RecQ; osteoporosis; osteosarcoma; mouse models; familial cancer syndrome; myeloid cells; osteoblast; tumor suppressor |
Year | 2021 |
Journal | Molecular and Cellular Biology |
Journal citation | 41 (3), pp. Article e00590-20 |
Publisher | American Society for Microbiology |
ISSN | 0270-7306 |
Digital Object Identifier (DOI) | https://doi.org/10.1128/MCB.00590-20 |
Scopus EID | 2-s2.0-85103096488 |
Open access | Published as green open access |
Page range | 1-18 |
Funder | Congressionally Directed Medical Research Programs (CDMRP), Department of Defense |
National Health and Medical Research Council (NHMRC) | |
University of Melbourne | |
Victorian Cancer Agency | |
Mito Foundation | |
Australian Phenomics Network | |
National Collaborative Research Infrastructure Strategy (NCRIS), Australian Government | |
Super Science Initiative, Australian Government | |
Operational Infrastructure Support (OIS) Program, Victorian Government | |
Author's accepted manuscript | License File Access Level Open |
Publisher's version | License All rights reserved File Access Level Controlled |
Output status | Published |
Publication dates | |
Online | 23 Feb 2021 |
Publication process dates | |
Accepted | 17 Dec 2020 |
Deposited | 22 Nov 2021 |
Grant ID | W81XWH-15-1- 0315 |
1102004 | |
MCRF15015 |
https://acuresearchbank.acu.edu.au/item/8x1y3/rothmund-thomson-syndrome-like-recql4-truncating-mutations-cause-a-haploinsufficient-low-bone-mass-phenotype-in-mice
Download files
Author's accepted manuscript
AM_Castillo-Tandazo_2021_Rothmund-Thomson_Syndrome-like_RECQL4_truncating.pdf | |
License: CC BY 4.0 | |
File access level: Open |
Restricted files
Publisher's version
74
total views40
total downloads5
views this month1
downloads this month