Van Andel Institute scientists have pinpointed a key driver of low bone density, a discovery that may lead to improved treatments with fewer side effects for women with osteoporosis. Their findings appear in the journal Science Advances.
Their research reveals that loss of an epigenetic modulator, KDM5C, preserves bone mass in mice. KDM5C works by altering epigenetic ‘marks’, switches that ensure the instructions written in DNA are read in the right time and place.
Several medications are approved to treat osteoporosis but fears of rare, severe side effects often are a barrier for their use. Treatments that leverage the hormone oestrogen also are available, but are only recommended for low-dose, short-term use due in part to associations with cancer risk.
It is well-established that women experience disproportionately lower bone mass than men throughout their lives. Loss of bone mass accelerates with menopause, increasing the risk of osteoporosis and associated fractures for women as they age.
To figure out why this happens, VAI Associate Professors Connie M. Krawczyk, PhD, and Tao Yang, PhD, and their teams looked at the differences in the ways bone is regulated in male and female mice, which share many similarities with humans and are important models for studying health and disease. They focused on osteoclasts, which help maintain bone health by breaking down and recycling old bone.
“Osteoporosis is a common disease that can have debilitating outcomes,” Yang said. “KDM5C is a promising target to treat low bone mass in women because it is highly specific. We’re hopeful that our findings will contribute to improved therapies.”
The researchers found reducing KDM5C disrupted cellular energy production in osteoclasts, which slowed down the recycling process and preserved bone mass. Importantly, KDM5C is linked to X chromosomes, which means it is more active in females than in males.
“Lowering KDM5C levels is like flipping a switch to stop an overactive recycling process. The result is more bone mass, which ultimately means stronger bones,” Krawczyk said. “We’re very excited about this work and look forward to carrying out future studies to refine our findings. At the end of the day, we hope these insights make a difference for people with osteoporosis.”
Source: Van Andel Research Institute
