Brain indoleamine 2,3-dioxygenase contributes to the comorbidity of pain and depression
Hyangin Kim, … , Yinghong Tian, Jianren Mao
Hyangin Kim, … , Yinghong Tian, Jianren Mao
Published July 2, 2012
Citation Information: J Clin Invest. 2012;122(8):2940-2954. https://doi.org/10.1172/JCI61884.
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Research Article Neuroscience

Brain indoleamine 2,3-dioxygenase contributes to the comorbidity of pain and depression

Abstract

Pain and depression are frequently comorbid disorders, but the mechanism underlying this association is unknown. Here, we report that brain indoleamine 2,3-dioxygenase 1 (IDO1), a rate-limiting enzyme in tryptophan metabolism, plays a key role in this comorbidity. We found that chronic pain in rats induced depressive behavior and IDO1 upregulation in the bilateral hippocampus. Upregulation of IDO1 resulted in the increased kynurenine/tryptophan ratio and decreased serotonin/tryptophan ratio in the bilateral hippocampus. We observed elevated plasma IDO activity in patients with both pain and depression, as well as in rats with anhedonia induced by chronic social stress. Intra-hippocampal administration of IL-6 in rats, in addition to in vitro experiments, demonstrated that IL-6 induces IDO1 expression through the JAK/STAT pathway. Further, either Ido1 gene knockout or pharmacological inhibition of hippocampal IDO1 activity attenuated both nociceptive and depressive behavior. These results reveal an IDO1-mediated regulatory mechanism underlying the comorbidity of pain and depression and suggest a new strategy for the concurrent treatment of both conditions via modulation of brain IDO1 activity.

Authors

Hyangin Kim, Lucy Chen, Grewo Lim, Backil Sung, Shuxing Wang, Michael F. McCabe, Gabriel Rusanescu, Liling Yang, Yinghong Tian, Jianren Mao

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Figure 5

Effect of IDO1 inhibition on behavioral changes.

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Effect of IDO1 inhibition on behavioral changes. (A) Intraperitoneal inj...
(A) Intraperitoneal injection of the IDO1 inhibitor 1-MT (10 mg/d), given twice daily for 14 consecutive days beginning immediately after the CFA injection, attenuated mechanical allodynia on the ipsilateral hind paw of rats. (B) The same 1-MT treatment regimen concurrently improved the immobility time in FST in the same rats. Mean ± SEM, n = 6, *P < 0.05 compared with vehicle control. (C and D) Intra-hippocampal microinjection of 1-MT (5 μg in 0.5 μl), once daily for 7 days beginning immediately after the CFA injection, also attenuated thermal hyperalgesia (C) on the ipsilateral hind paw of rats as well as reducing the immobility time in FST (D) in the same rats. Mean ± SEM, n = 6, *P < 0.05 compared with vehicle control. (E) IDO1 expression in the hippocampus was decreased in rats receiving a 14-day intraperitoneal administration of 1-MT (10 mg/d). Day 0, baseline (naive rats); C-1 and C-14, samples taken on day 1 and day 14 from rats with CFA-induced arthritis; S-1 and S-14, samples taken on day 1 and day 14 from control rats. β-Actin was used as loading control. Mean ± SEM, n = 6, *P < 0.05 compared with sham control. The same systemic 1-MT treatment regimen reduced the KYN/TRP ratio (F) and increased the 5-HT/TRP ratio (G) in the hippocampus. Mean ± SEM, n = 6, *P < 0.05 compared with vehicle control.