Centre for Genomic & Experimental Medicine
Centre for Genomic & Experimental Medicine

Gene study pinpoints process that triggers painful bone disease

Researchers at the Universities of Edinburgh and Dundee have pinpointed the mechanism by which a key gene contributes to the development of a painful bone disease: November 2015

Researchers at the Universities of Edinburgh and Dundee have pinpointed the mechanism by which a key gene contributes to the development of a painful bone disease.

The researchers, led by Dr Omar Albagha at the Centre for Genomic and Experimental Medicine, have found that a fault in the gene can trigger the bone defects that affect people with Paget’s disease, a condition that leads to bone pain, bone deformity and arthritis. The disease affects up to one million people in the UK.

The team is the first to identify that the gene – called OPTN – regulates the activity of specialised cells that keep bones healthy by breaking down old bone and replacing it. In Paget’s disease the number and activity of these bone-removing cells – called osteoclasts –are increased. This leads to the formation of abnormal bone and development of the disease.

In a study published in the journal Cell Reports, scientists identified the novel role played by OPTN in bone metabolism. The researchers have shown that OPTN regulates bone maintenance by slowing down the formation of bone-removing cells to keep the process of bone-removing and bone-building in balance.

The study identifies that genetic variations that increase the risk of disease do so by reducing the amount of OPTN produced by cells. This, in turn, leads to an increase in the number of bone-removing cells, prompting the normal repair process to go into overdrive and causing bones to become deformed and enlarged.

The researchers found that the gene is frequently less active in people with increased susceptibility to the disease. Further study found that mice with a defective version of the gene are more prone to the disease.

Researchers previously found that genetic variations in OPTN increase the risk of developing Paget’s disease, but its role in bone maintenance was unknown until now.

 

This study advances our understanding of disease mechanisms and identifies a novel molecular pathway that could form a target for new therapeutic treatment for this painful condition.

Dr Omar AlbaghaCentre for Genomic and Experimental Medicine, MRC Institute of Genetics and Molecular Medicine at the University of Edinburgh

Access the full article from Cell Reports