Pooya Pourreza scite author profile

Background: Lateral hypothalamus (LH) involves in modulation of tonic pain. Regarding the direct and indirect neural connections between the LH and nucleus accumbens (NAc), we aimed to examine the pain modulatory role of NAc dopamine receptors in modulation of LH-induced analgesia in the formalin test. Methods: Vehicle-control groups received saline or DMSO into the NAc and saline into the LH. Carbachol-control groups received carbachol (250 nmol/L) into the LH, 5 min after saline or DMSO injection into the NAc. In treatment groups, intra-NAc administration of SCH-23390 or sulpiride (D1-and D2-like dopamine receptor antagonists, respectively) was performed 5 min before carbachol injection. Formalin test was done in all rats 5 min after the second injection. Results: The blockade of NAc dopamine receptors reduced carbacholinduced antinociception during both phases of formalin test and reduction in LH-induced analgesia during the late phase was more than that during the early phase. Furthermore, contribution of D2-like dopamine receptors to mediation of anti-hyperalgesic effect of carbachol was greater than that of D1-like dopamine receptors during the late phase. Conclusions: The findings suggest that LH-VTA-NAc circuit is contributed to the modulation of formalin-induced pain. These findings demonstrate that transmission at D1-and D2-like dopamine receptors mediates the LH-induced analgesia. Significance: Blockade of accumbal dopamine receptors attenuated analgesia induced by carbachol injection into the lateral hypothalamus during both phases of formalin test. Effect of blockade of D1-and D2-like dopamine receptors on reduction in antinociception was more during the late phase. Contribution of D2-like dopamine receptors to mediation of antinociception during the late phase was greater than the early phase.

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Orexin-2 receptor antagonism in the cornu ammonis 1 region of hippocampus prevented the antinociceptive responses induced by chemical stimulation of the lateral hypothalamus in the animal model of persistent pain

Pourreza

Haghparast

Sadeghi

et al. 2021

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Orexins are excitatory neuropeptides, mainly produced by neurons located in the lateral hypothalamus, which project to many brain areas. The orexinergic system plays a fundamental role in arousal, sleep/wakefulness, feeding, energy homeostasis, motivation, reward, stress and pain modulation. As a prominent part of the limbic system, the hippocampus has been involved in formalin-induced nociception modulation. Moreover, hippocampus regions express both orexin-1 (OX1) and orexin-2 (OX2) receptors. The present study investigated the role of OX2 receptors (OX2R) within the cornu ammonis 1 (CA1) region of the hippocampus in the mediation of lateral hypothalamusinduced antinociception. Fifty-three male Wistar rats were unilaterally implanted with two separate cannulae into the lateral hypothalamus and CA1. Animals were pretreated with intra-CA1 TCS OX2 29 as an OX2R antagonist before intra-lateral hypothalamus administration of carbachol (250 nM) as a muscarinic agonist for chemical stimulation of orexinergic neurons. Formalin test was used as an animal model of persistent pain, following intra-lateral hypothalamus carbachol microinjection. Results showed that the chemical stimulation of the lateral hypothalamus significantly attenuated formalin-evoked nociceptive behaviors during both phases of the formalin test, and administration of TCS OX2 29 into the CA1 blocked these antinociceptive responses in both phases, especially in the late phase. These findings suggest that OX2 receptors in the CA1 partially mediate the lateral hypothalamusinduced antinociceptive responses in persistent inflammatory pain.

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Pooya Pourreza

Role of dorsal hippocampal orexin-1 receptors in modulation of antinociception induced by chemical stimulation of the lateral hypothalamus

Nucleus accumbens dopamine receptors mediate hypothalamus‐induced antinociception in the rat formalin test

Orexin-2 receptor antagonism in the cornu ammonis 1 region of hippocampus prevented the antinociceptive responses induced by chemical stimulation of the lateral hypothalamus in the animal model of persistent pain

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