AMPA/kainate glutamate receptor antagonists prevent posttraumatic osteoarthritis
Cleo S. Bonnet, Sophie J. Gilbert, Emma J. Blain, Anwen S. Williams, Deborah J. Mason
Cleo S. Bonnet, Sophie J. Gilbert, Emma J. Blain, Anwen S. Williams, Deborah J. Mason
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Research Article Bone biology Therapeutics

AMPA/kainate glutamate receptor antagonists prevent posttraumatic osteoarthritis

Abstract

Musculoskeletal disorders represent the third greatest burden in terms of death and disability in the developed world. Osteoarthritis is the single greatest cause of chronic pain, has no cure, and affects 8.5 and 27 million people in the UK and US, respectively. Osteoarthritis is most prevalent in older people, but as it commonly occurs after joint injury, young people with such injuries are also susceptible. Painful joints are often treated with steroid or hyaluronic acid (HA) injections, but treatments to prevent subsequent joint degeneration remain elusive. In animals, joint injury increases glutamate release into the joint, acting on nerves to cause pain, and joint tissues to cause inflammation and degeneration. This study investigated synovial fluid glutamate concentrations and glutamate receptor (GluR) expression in injured human joints and compared the efficacy of GluR antagonists with current treatments in a mouse model of injury-induced osteoarthritis (ACL rupture). GluRs were expressed in the ligaments and meniscus after knee injury, and synovial fluid glutamate concentrations ranged from 19 to 129 μM. Intra-articular injection of NBQX (GluR antagonist) at the time of injury substantially reduced swelling and degeneration in the mouse ACL rupture model. HA had no effect, and Depo-Medrone reduced swelling for 1 day but increased degeneration by 50%. Intra-articular administration of NBQX modified both symptoms and disease to a greater extent than current treatments. There is an opportunity for repurposing related drugs, developed for CNS disorders and with proven safety in humans, to prevent injury-induced osteoarthritis. This could quickly reduce the substantial burden associated with osteoarthritis.

Authors

Cleo S. Bonnet, Sophie J. Gilbert, Emma J. Blain, Anwen S. Williams, Deborah J. Mason

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Figure 2

Knee swelling, histological inflammation, and pain behavior in ACLr mice treated with 20 mM NBQX versus vehicle (water) and HA or Depo-Medrone versus vehicle (saline).

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Knee swelling, histological inflammation, and pain behavior in ACLr mice...
(A) On days 1, 2, 3, and 7 after ACLr, knee swelling in vehicle-treated mice was significantly greater than day 0 swelling (***P < 0.001, Tukey’s), whereas NBQX-treated mice showed no significant increase compared with day 0 swelling. NBQX treatment significantly reduced knee swelling on days 1 and 2 compared with that in vehicle-treated mice (+P < 0.05, ++P < 0.01, Tukey’s). (B) Steroid (Depo-Medrone) treatment significantly reduced knee swelling on day 1 compared with vehicle (***P < 0.001, Tukey’s) and HA treatment (*P < 0.05, Tukey’s). Knee swelling in steroid- (°°°P < 0.001, °°P < 0.01, Tukey’s), HA- (ΔΔΔP < 0.001, Tukey’s) and vehicle-treated (###P < 0.001, Tukey’s) mice remained significantly higher than day 0 (before surgery) measurements until 14 days after rupture. At day 21, the synovial inflammation score was similar for NBQX- (C), HA- (D), and vehicle-treated mice, whereas steroid treatment increased the mean inflammation score, although this increase was not significant (D). (E) Contralateral knees with intact ACL displayed no signs of inflammation. Intact ACL mice displayed normal synovial lining, 2- to 4-cells thick (black arrow), with underlying adipose tissue (black asterisk). ACLr with vehicle treatment induced synovial hyperplasia (red arrows) and infiltrate (red asterisks) that were also present following NBQX, HA, and steroid treatment. FC, femoral condyle; TP, tibial plateaux; M, meniscus. Scale bars: 100 μm. (F) The lameness score reduced over time for both NBQX-treated and vehicle-treated control ACLr mice; day 7, 14, and 21 measurements were significantly lower than those from day 1 (+++P < 0.001, NBQX; ***P < 0.001, **P < 0.01 vehicle, Tukey’s). (G) Steroid and HA treatment reduced the lameness score (independent of time) compared with saline (GLM for treatment P < 0.001, Tukey’s post hoc test: ◊◊◊P < 0.001, steroid vs. saline; ###P < 0.001, HA vs. saline), although no significant differences were found on individual days. B y day 14, the lameness score was significantly lower for saline, HA, and steroid compared with day 1 scores (***P < 0.001, saline; +++P < 0.001, HA; °°°P < 0.001, steroid, Tukey’s). Data are presented as mean ± SD in A, B, F, and G and box plots (representing interquartile range, median,and all data points, including mean, which is indicated by a crossed circle) in C and D. 20 mM NBQX (n = 10), vehicle (water, n = 15), HA (n = 8), Depo-Medrone (n = 7), vehicle (saline, n = 7).