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Melatonin MT2 receptor agonist IIK-7 produces antinociception by modulation of ROS and suppression of spinal microglial activation in neuropathic pain rats.

Journal of pain research
January 1, 2019
Yaswanth Kuthati et al. (6 authors)
Journal ArticleAnimal StudyMolecular Study
Extracted Claims (11)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin type 2 receptor agonist IIK-7
decrease
PSNT-induced mechanical allodynia
adult male Wistar rats
-
significantly alleviated
#1
melatonin type 2 receptor agonist IIK-7
decrease
glial activation
adult male Wistar rats
-
alleviated
#2
melatonin type 2 receptor agonist IIK-7
decrease
P44/42 MAPK proteins
adult male Wistar rats
-
inhibition of
#3
melatonin type 2 receptor agonist IIK-7
decrease
HMGB-1 proteins
adult male Wistar rats
-
inhibition of
#4
melatonin type 2 receptor agonist IIK-7
decrease
STAT3 proteins
adult male Wistar rats
-
inhibition of
#5
melatonin type 2 receptor agonist IIK-7
decrease
iNOS proteins
adult male Wistar rats
-
inhibition of
#6
melatonin type 2 receptor agonist IIK-7
decrease
casp-3 proteins
adult male Wistar rats
-
inhibition of
#7
melatonin type 2 receptor agonist IIK-7
decrease
neuropathic pain
-
-
attenuates
#8
melatonin type 2 receptor agonist IIK-7
decrease
glial activation
-
-
suppression of
#9
melatonin type 2 receptor agonist IIK-7
decrease
proteins involved in inflammation and apoptosis
-
-
suppression of
#10
melatonin type 2 receptor agonist IIK-7
neutral
reactive oxygen species (ROS) scavenging ability
bone marrow-derived macrophages (BMDM)
-
evaluated
#11
Abstract

BACKGROUND: In recent years, several melatonin (MLT) receptor agonists have been approved by FDA for the treatment of sleep disorders and depression. Very few studies have shed light on their efficacy against neuropathic pain (NP). IIK-7 is an MT-2 agonist known to promote sleep. Whether IIK-7 suppresses NP has not been reported, and the signaling profile is unknown. OBJECTIVE: To investigate the effect of melatonin type 2 receptor agonist IIK-7 on partial sciatic nerve transection-induced NP in rats and elucidate the underlying molecular mechanisms. METHODS: NP was induced by the PSNT in the left leg of adult male Wistar rats. On post-transection day 7, rats were implanted with intrathecal (i.t) catheter connected to an infusion pump and divided in to four groups: sham-operated/vehicle, PSNT/vehicle, PSNT/0.5 μg/hr IIK-7 and PSNT/0.5 μg IIK-7/1 μg 4-p/hr. To test the MT-2 dependence on IIK-7 activity, the animals were implanted with a single i.t catheter and injected MT-2 antagonist 4-Phenyl-2-propionamidotetralin (4-p) 20 mins prior to IIK-7 injection on day 7 after PSNT. The antinociceptive response was measured using a mechanical paw withdrawal threshold. Activation of microglial cells and the expression of NP-associated proteins in the spinal cord dorsal horn was assessed by immunofluorescence assay (IFA) and Western blotting (WB). Reactive oxygen species (ROS) scavenging ability of IIK-7 was evaluated by using bone marrow-derived macrophages (BMDM). RESULTS: Treatment with the MT-2 agonist IIK-7 significantly alleviated PSNT-induced mechanical allodynia and glial activation along with the inhibition of P44/42 MAPK, HMGB-1, STAT3, iNOS and casp-3 proteins. CONCLUSION: IIK-7 attenuates NP through the suppression of glial activation and suppression of proteins involved in inflammation and apoptosis. MT-2 receptor agonists may establish a promising and unique therapeutic approach for the treatment of NP.

Study Links
PubMed ID31496789
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