Peripheral calcium-permeable AMPA receptors regulate chronic inflammatory pain in mice
Vijayan Gangadharan, … , Gary R. Lewin, Rohini Kuner
Vijayan Gangadharan, … , Gary R. Lewin, Rohini Kuner
Published March 7, 2011
Citation Information: J Clin Invest. 2011;121(4):1608-1623. https://doi.org/10.1172/JCI44911.
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Research Article Neuroscience

Peripheral calcium-permeable AMPA receptors regulate chronic inflammatory pain in mice

Abstract

α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid–type (AMPA-type) glutamate receptors (AMPARs) play an important role in plasticity at central synapses. Although there is anatomical evidence for AMPAR expression in the peripheral nervous system, the functional role of such receptors in vivo is not clear. To address this issue, we generated mice specifically lacking either of the key AMPAR subunits, GluA1 or GluA2, in peripheral, pain-sensing neurons (nociceptors), while preserving expression of these subunits in the central nervous system. Nociceptor-specific deletion of GluA1 led to disruption of calcium permeability and reduced capsaicin-evoked activation of nociceptors. Deletion of GluA1, but not GluA2, led to reduced mechanical hypersensitivity and sensitization in models of chronic inflammatory pain and arthritis. Further analysis revealed that GluA1-containing AMPARs regulated the responses of nociceptors to painful stimuli in inflamed tissues and controlled the excitatory drive from the periphery into the spinal cord. Consequently, peripherally applied AMPAR antagonists alleviated inflammatory pain by specifically blocking calcium-permeable AMPARs, without affecting physiological pain or eliciting central side effects. These findings indicate an important pathophysiological role for calcium-permeable AMPARs in nociceptors and may have therapeutic implications for the treatment chronic inflammatory pain states.

Authors

Vijayan Gangadharan, Rui Wang, Bettina Ulzhöfer, Ceng Luo, Rita Bardoni, Kiran Kumar Bali, Nitin Agarwal, Irmgard Tegeder, Ullrich Hildebrandt, Gergely G. Nagy, Andrew J. Todd, Alessia Ghirri, Annette Häussler, Rolf Sprengel, Peter H. Seeburg, Amy B. MacDermott, Gary R. Lewin, Rohini Kuner

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Figure 5

Analysis of the contribution of peripheral AMPARs to the modulation of acute nociception and early nociceptive hypersensitivity.

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Analysis of the contribution of peripheral AMPARs to the modulation of a...
(A) Latency of paw withdrawal after application of noxious heat in form of infrared heat ramp (left) or constant temperature (right) and (B) threshold of paw withdrawal to mechanical stimuli applied via the dynamic aesthesiometer is normal in SNS-GluA1–/– mice. (C) SNS-GluA1–/– mice show reduced duration of acute nocifensive behaviors in seconds, upon hind paw intraplantar injection of 0.06% capsaicin (n = 7–15 mice per group; *P < 0.05). (D) Capsaicin-induced nocifensive behaviors in wild-type mice are reduced upon peripheral pretreatment with a pan-antagonist of AMPARs, GYKI 52466, or a specific antagonist of calcium-permeable AMPARs, 1-NAS (n = 5 mice per group; *P < 0.05). (E) SNS-GluA1–/– mice show reduced duration of acute nocifensive behaviors (phase I) as well as early inflammatory hypersensitivity (phase II), upon hind paw intraplantar injection of 1% formalin (n = 7–15 mice per group; *P < 0.05 as compared with GluA1fl/fl mice). (F) Quantification of neuronal activation 1 hour after intraplantar formalin injection by means of counting pERK-positive neurons in DRG sections of SNS-GluA1–/– and control mice (n = 7–15 mice per group; *P < 0.05 as compared with the corresponding control mice). Data was analyzed via ANOVA for random measures, post-hoc Fischer’s test in E and F, and Student’s t test in AD.