In mice with ears that heal rapidly,
cartilage (shown in the thick blue border) also regenerates and heals more
quickly. Washington University researchers found that the same genes that
promote healing after cartilage damage also appear to protect against
osteoarthritis. (SANDELL LABORATORY)
The same genes that promote healing after
cartilage damage also appear to protect against osteoarthritis, a condition
caused by years of wear-and-tear on the cartilage between joints, new research
at Washington University School of Medicine in St. Louis shows.
“Our
goal is to see whether we can protect cartilage in people by detecting the early
biological changes that occur in osteoarthritis and prevent it from progressing
to the stage where joint replacement becomes necessary,” says principal
investigator Linda J. Sandell, PhD, the Mildred B. Simon Professor of
Orthopaedic Surgery. “The main problem with biological treatments is that
currently, we can’t detect osteoarthritis in its early stages. Better
understanding of the genes that influence the disorder may help us do that.”
The
researchers reported their findings in a pair of studies, published online in
the journals Arthritis & Rheumatism and Osteoarthritis
and Cartilage.
Osteoarthritis
is the most common form of arthritis, affecting 25 million people in the United
States. It is linked to the breakdown of cartilage, which acts as a shock absorber
to cushion the joints. Osteoarthritis causes pain, swelling and reduced motion
and is most common in the hands, knees, hips or spine.
Scientists
first discovered cartilage-healing properties in some strains of laboratory
mice when they pierced their ears as a means to tag and identify them. But in
some mice, the holes in their ears closed and quickly healed. Because so much
of the ear is made from cartilage and healing occurred so rapidly in the mice
ears, the researchers suspected that these mice also may be able to regenerate
cartilage in their joints.
Sandell
and her team bred the mice that healed rapidly with other mice that healed more
slowly, and they found that the mice that could quickly heal and regenerate
cartilage in the knee also were less susceptible to osteoarthritis.
In
people, a breakdown of cartilage causes the bones to rub together and damage
the joint. If the damage becomes too extensive, joint replacement surgery may
be necessary.
Injury
to a joint is a major risk factor for osteoarthritis, but not everyone is
equally susceptible.
“Some people
– and these mouse studies suggest that someday we may be able to predict which
people – fare much better after an injury,” Sandell says. “We want to find a
way to identify the genes that protect them.”
Sandell,
director of the university’s Core Center for Musculoskeletal Biology and
Medicine, and co-investigator James M. Cheverud, PhD, professor of anatomy and
neurobiology, now are studying several other strains of mice on the spectrum
between the good healers and those that heal poorly. They’ve looked at the
cartilage tissue under the microscope to determine the extent of osteoarthritis
following an injury and analyzed the DNA in cartilage.
“We’ve
identified genes that correlate with healing and with protection from
osteoarthritis,” Sandell says. “The work is in its beginning stages, but now
that we’ve found a correlation, we want to look at even more strains of mice so
that we can actually map the location of the genes that cause osteoarthritis
and help to repair cartilage.”
She
says osteoarthritis, like several other disorders, will ultimately involve many
genes that each contribute in a small way to the disease process. By looking at
more strains of mice, the research team believes it will become easier to
identify the subtle genetic influences on osteoarthritis risk.
As they clarify which genes are protecting the mice, it will be possible to
look for similar genes in humans.
More
information: Rai
MF, Hashimoto S, Johnson EE, Janiszak KL, Fitzgerald J, Heber-Katz E, Cheverud
JM, Sandell LJ. Heritability of articular cartilage regeneration and its
association with ear-wound healing. Arthritis & Rheumatism,
vol. 64 (published online). DOI 10.1002/art.34396
Hashimoto
S, Rai MF, Janiszak KL, Cheverud JM, Sandell LJ. Cartilage and bone changes
during development of post-traumatic osteoarthritis in selected LGXSM
recombinant inbred mice. Osteoarthritis and Cartilage, vol. 20
(published online). doi:
10.1016/j.joca.2012.01.022
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