Spinal leptin contributes to the pathogenesis of neuropathic pain in rodents
Grewo Lim, … , Yinghong Tian, Jianren Mao
Grewo Lim, … , Yinghong Tian, Jianren Mao
Published January 12, 2009
Citation Information: J Clin Invest. 2009;119(2):295-304. https://doi.org/10.1172/JCI36785.
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Research Article Neuroscience

Spinal leptin contributes to the pathogenesis of neuropathic pain in rodents

Abstract

Pain after nerve injury, a phenomenon referred to as neuropathic pain, is a debilitating clinical condition, but the underlying mechanisms remain unclear. As leptin, an adipocytokine produced mainly by nonneuronal tissue, has been implicated in the regulation of neuronal functions, we examined the role of leptin in neuropathic pain using a rat model of the condition chronic constriction sciatic nerve injury (CCI). We report that leptin critically contributed to pain behaviors following CCI. Specifically, spinal administration of a leptin antagonist prevented and reversed neuropathic pain behaviors in rats. Further examination revealed that levels of both leptin and the long form of the leptin receptor (Ob-Rb) were substantially increased within the ipsilateral spinal cord dorsal horn after peripheral nerve injury. Mechanistic studies showed that leptin upregulated the expression of both the spinal NMDA receptor and IL-1β through the JAK/STAT pathway. Furthermore, these CCI-induced behavioral and cellular responses were diminished in leptin-deficient mice and mimicked by spinal administration of exogenous leptin in naive rats. Our findings reveal a critical role for spinal leptin in the pathogenesis of neuropathic pain and suggest what we believe to be a novel form of nonneuronal and neuronal interactions in the mechanisms of pathological pain.

Authors

Grewo Lim, Shuxing Wang, Yi Zhang, Yinghong Tian, Jianren Mao

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Figure 6

Effect of exogenous leptin on behavioral and cellular changes.

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Effect of spinal leptin on neuropathic pain behaviors. (A–F) Intrathecal...
(AD) Intrathecal leptin (50 μg) treatment in naive rats, given once daily for 7 days, induced thermal hyperalgesia (A) and mechanical allodynia (B) on day 7. Leptin treatment also induced upregulated NR1 and IL-1β expression (Western blot) within the spinal cord dorsal horn on day 7 (C and D). The behavioral and cellular changes were attenuated by coadministration of leptin with the JAK/STAT inhibitor AG 490 (5 μg but not 1 μg). AG 490 (5 μg) alone did not change the baseline nociceptive threshold (A and B) but moderately decreased the basal expression of IL-1β and NR1. Amount of leptin indicated in all panels is 50 μm. A1, 1 μm AG 490; A5, 5 μm AG 490. (E) Flowchart illustrating a functional link among spinal leptin effect, leptin-dependent cellular responses, and neuropathic pain behaviors. Data are shown as mean ± SD. *P < 0.05 versus day 0; #P < 0.05 versus A1/leptin 50; P < 0.05 versus vehicle.