Antibody-induced Pain-like Behavior and Bone Erosion: Links to Subclinical Inflammation, Osteoclast Activity, and Acid-sensing Ion Channel 3-dependent Sensitization

Overview

Journal Pain

Specialties Neurology
Psychiatry

Date 2021 Dec 20

PMID 34924556

Citations 20

Authors

Alexandra Jurczak

Lauriane Delay

Julie Barbier

Nils Simon

Emerson Krock

Katalin Sandor

Nilesh M Agalave

Resti Rudjito

Gustaf Wigerblad

Katarzyna Rogoz

Arnaud Briat

Elisabeth Miot-Noirault

Arisai Martinez-Martinez

Dieter Bromme

Caroline Gronwall

Vivianne Malmstrom

Lars Klareskog

Spiro Khoury

Thierry Ferreira

Bonnie Labrum

Emmanuel Deval

Juan Miguel Jimenez-Andrade

Fabien Marchand

Camilla I Svensson

Affiliations

Soon will be listed here.

Abstract

Several bone conditions, eg, bone cancer, osteoporosis, and rheumatoid arthritis (RA), are associated with a risk of developing persistent pain. Increased osteoclast activity is often the hallmark of these bony pathologies and not only leads to bone remodeling but is also a source of pronociceptive factors that sensitize the bone-innervating nociceptors. Although historically bone loss in RA has been believed to be a consequence of inflammation, both bone erosion and pain can occur years before the symptom onset. Here, we have addressed the disconnection between inflammation, pain, and bone erosion by using a combination of 2 monoclonal antibodies isolated from B cells of patients with RA. We have found that mice injected with B02/B09 monoclonal antibodies (mAbs) developed a long-lasting mechanical hypersensitivity that was accompanied by bone erosion in the absence of joint edema or synovitis. Intriguingly, we have noted a lack of analgesic effect of naproxen and a moderate elevation of few inflammatory factors in the ankle joints suggesting that B02/B09-induced pain-like behavior does not depend on inflammatory processes. By contrast, we found that inhibiting osteoclast activity and acid-sensing ion channel 3 signaling prevented the development of B02/B09-mediated mechanical hypersensitivity. Moreover, we have identified secretory phospholipase A2 and lysophosphatidylcholine 16:0 as critical components of B02/B09-induced pain-like behavior and shown that treatment with a secretory phospholipase A2 inhibitor reversed B02/B09-induced mechanical hypersensitivity and bone erosion. Taken together, our study suggests a potential link between bone erosion and pain in a state of subclinical inflammation and offers a step forward in understanding the mechanisms of bone pain in diseases such as RA.

Citing Articles

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