Boosting a Key Protein to Help Bones That Won’t Heal

A powerful protein inside the body helps naturally repair bone injuries. Increasing it in some patients could jump-start the process, a new rodent study finds.

7:00 AM

Author | Kevin Joy

When a patient breaks a bone, there's a possibility the fracture won't heal properly or quickly — even with the aid of pins, plates or a cast.

MORE FROM THE LAB: Sign up for our weekly newsletter

And use of another restorative tactic known as bone morphogenetic proteins, or BMPs, is increasingly less likely. Designed to promote spinal fusion and bone repair more than a decade ago, these molecules can overperform, causing excessive or misdirected bone growth, studies have shown.

But because bone-healing biological research has often been limited, few other options exist.

"Novel therapies have gone underdeveloped because of this assumption that bones heal without problem," says Kurt Hankenson, D.V.M., Ph.D., a professor of orthopaedic surgery at Michigan Medicine. "The reality is there's a huge number of fractures that occur each year that don't heal very well."

The divide recently inspired Hankenson and a team of scientists from other institutions to examine a new therapeutic approach.

Their method: deliver additional Jagged-1 — a potent osteoinductive protein known to activate the Notch signaling pathway that regulates bone healing — at the spot of a bone injury.

"We've hypothesized for many years that by binding the Jagged-1 to a biomaterial and delivering it to a bone injury site, we could enhance healing," Hankenson says.

The results, published in npj Regenerative Medicine, affirm that hunch: Rodents that received Jagged-1, applied via wet collagen sponge, saw improvements to skull and femoral bone injuries.

Rodents treated with BMPs, by contrast, also benefited but developed the same problematic bone hypertrophy associated with human use of those proteins.

Those findings suggest that the former therapy could one day benefit people.

Our laboratory has been motivated to develop new therapeutics to repair bone for many years, and the approach we've taken to do that is to better understand the biology of bone healing.
Kurt Hankenson, D.V.M., Ph.D.

Targeted healing agent

It's not fully known why some bones don't heal the way they should — nor do scientists know whether a genetic component plays a role, Hankenson says.

This much is clear: People with metabolic dysfunction, such as diabetes, have greater odds of poor healing after a fracture. So do the elderly, who are also prone to more bone injuries because of lower bone mass, such as osteoporosis. Those suffering severe trauma, regardless of age or prior health status, also are likely to face problems.

SEE ALSO: Could an Athlete's Own Stem Cells Stop Arthritis Development After an ACL Tear?

What Hankenson and other research groups have studied for years, meanwhile, is the capacity of the Jagged-1 ligand to promote bone-forming cells.

The signaling is unique, Hankenson says, because this particular ligand typically binds to a delivery cell to activate bone healing in an adjacent cell — a vital trait to help ensure that a supplemental Jagged-1 dose, administered at the spot of injury, stays in place (and on task) to carry out its intended function.

As a result, "bone will only form where bone is supposed to form," says Hankenson.

BMPs, by comparison, are soluble, so they can migrate from the site of delivery and settle elsewhere in the body, triggering other cells that aren't supposed to form bone.

Because the body produces Jagged-1 on its own, this potential new therapy would require a synthetic version of the ligand to be produced and administered to a patient.

"We do not think there is necessarily a deficiency," says Hankenson. "But when we think about biological molecules delivered for therapy, we're usually identifying something that's there normally and trying to promote more activity by giving more of it."

Future growth

Although more research and funding are needed before the concept could be tested in humans, Hankenson says the early results offer some takeaways.

SEE ALSO: Examining Women's Bones During Menopause May Help Head Off Fractures

Those with serious breaks or fractures that would otherwise require autogenous bone grafting stand to benefit the most from supplemental Jagged-1 injections, he notes.

That's because such grafting, which involves using bone from elsewhere in the body, is a costly surgical procedure that can have secondary problems — and has a higher morbidity risk.

Patients with slow-healing or nonhealing bones might also receive Jagged-1 well after an injury occurs, Hankenson says.

The delivery mechanism, using biomaterials to provide structure for healing, may also be refined.

Still, because medical costs for bone injuries nearly exceed $1 trillion annually in the United States, not to mention lost productivity from missed work or multiple surgeries, the impetus to find alternative solutions remains strong.

"We've been very motivated to develop new therapeutics to repair bone," says Hankenson, "and the approach we've taken to do that is to better understand the biology of healing."


More Articles About: Body Work Bone Growth Stem Cells Bones and Muscles and Joints (Orthopaedics)
Health Lab word mark overlaying blue cells
Health Lab

Explore a variety of health care news & stories by visiting the Health Lab home page for more articles.

Media Contact Public Relations

Department of Communication at Michigan Medicine

[email protected]

734-764-2220

Stay Informed

Want top health & research news weekly? Sign up for Health Lab’s newsletters today!

Subscribe
Featured News & Stories
Health Lab
Rare neuromuscular condition doesn’t stop teen from track & field dream
Michigan teen Jake Juip becomes 100-meter Michigan state high school champion in adaptive track and field race using adaptive equipment designed to meet the needs of his rare neuromuscular condition.
shoes red and yellow and blue background and feet emerging out of them looking too big - this image moves so feet go in and out from behind shoes
Health Lab
Are your kids wearing the right shoes?
In a national poll some parents acknowledged a lack of confidence in ensuring their children are wearing properly fitting shoes – which experts say is necessary to support growth and prevent injuries. One in seven parents also say they’ve had concerns about their child’s feet or the way they walk while one in 10 parents report their child has complained of foot pain, according to the University of Michigan Health C.S. Mott Children’s Hospital National Poll on Children’s Health.
arm with tape around it and cast and picture of field with kids playing and one kid sitting on bench
Health Lab
Properly treating, and recovering, from pediatric sports injuries
A kid's orthopaedic surgeon and sports medicine specialist gives parents tips to make sure their children get the care they need when injured and have an effective recovery.
gloves surgery blue yellow
Health Lab
More oversight of donated tissue products urgently needed, say experts and Michigan policymakers
A JAMA viewpoint outlines the tragic story of Shandra Eisenga, a patient who received spine surgery for back pain only to inexplicably contract tuberculosis.
Kenneth and Frances Eisenberg
Research News
Announcing the Frances and Kenneth Eisenberg Emerging Scholars
Kevin Chen M.D., and Stephanie Eid, Ph.D., have been named the inaugural Frances and Kenneth Eisenberg Emerging Scholars at the NeuroNetwork for Emerging Therapies.
scoliosis see through back patient sitting
Health Lab
Breaking the curve
A Michigan Medicine expert calls for comprehensive scoliosis awareness and care.