Glutamine repeat variants in human RUNX2 associated with decreased femoral neck BMD, broadband ultrasound attenuation and target gene transactivation

Loading...
Thumbnail Image
File version
Author(s)
Morrison, Nigel A
Stephens, Alexandre A
Osato, Motomi
Polly, Patsie
Tan, Timothy C
Yamashita, Namiko
Doecke, James D
Pasco, Julie
Fozzard, Nicolette
Jones, Graeme
Ralston, Stuart H
Sambrook, Philip N
Prince, Richard L
Nicholson, Geoff C
Primary Supervisor
Other Supervisors
Editor(s)
Date
2012
Size

448122 bytes

File type(s)

application/pdf

Location
Abstract

RUNX2 is an essential transcription factor required for skeletal development and cartilage formation. Haploinsufficiency of RUNX2 leads to cleidocranial displaysia (CCD) a skeletal disorder characterised by gross dysgenesis of bones particularly those derived from intramembranous bone formation. A notable feature of the RUNX2 protein is the polyglutamine and polyalanine (23Q/17A) domain coded by a repeat sequence. Since none of the known mutations causing CCD characterised to date map in the glutamine repeat region, we hypothesised that Q-repeat mutations may be related to a more subtle bone phenotype. We screened subjects derived from four normal populations for Q-repeat variants. A total of 22 subjects were identified who were heterozygous for a wild type allele and a Q-repeat variant allele: (15Q, 16Q, 18Q and 30Q). Although not every subject had data for all measures, Q-repeat variants had a significant deficit in BMD with an average decrease of 0.7SD measured over 12 BMD-related parameters (p=0.005). Femoral neck BMD was measured in all subjects (-0.6SD, p=0.0007). The transactivation function of RUNX2 was determined for 16Q and 30Q alleles using a reporter gene assay. 16Q and 30Q alleles displayed significantly lower transactivation function compared to wild type (23Q). Our analysis has identified novel Q-repeat mutations that occur at a collective frequency of about 0.4%. These mutations significantly alter BMD and display impaired transactivation function, introducing a new class of functionally relevant RUNX2 mutants.

Journal Title

PloS One

Conference Title
Book Title
Edition
Volume

7

Issue

8

Thesis Type
Degree Program
School
Publisher link
Patent number
Funder(s)
Grant identifier(s)
Rights Statement
Rights Statement

© 2012 Morrison et al. This is an Open Access article distributed under the terms of the Creative Commons Attribution License CCAL. (http://www.plos.org/journals/license.html)

Item Access Status
Note
Access the data
Related item(s)
Subject

Gene mapping

Persistent link to this record
Citation
Collections