Curcumin downregulates expression of opioid-related nociceptin receptor gene (OPRL1) in isolated neuroglia cells

Ean-Jeong Seo; Thomas Efferth; Alexander Panossian

doi:10.1016/j.phymed.2018.09.202

Curcumin downregulates expression of opioid-related nociceptin receptor gene (OPRL1) in isolated neuroglia cells

Phytomedicine. 2018 Nov 15:50:285-299. doi: 10.1016/j.phymed.2018.09.202. Epub 2018 Sep 20.

Authors

Ean-Jeong Seo¹, Thomas Efferth², Alexander Panossian³

Affiliations

¹ Department of Pharmaceutical Biology, Institute of Pharmacy and Biochemistry, Johannes Gutenberg University, Staudinger Weg 5, 55128 Mainz, Germany.
² Department of Pharmaceutical Biology, Institute of Pharmacy and Biochemistry, Johannes Gutenberg University, Staudinger Weg 5, 55128 Mainz, Germany. Electronic address: efferth@uni-mainz.de.
³ EuroPharma USA Inc., 955 Challenger Dr., Green Bay, WI 54311, USA; Phytomed AB,Bofinkvagen 1, 31275 Vaxtorp, Halland, Sweden. Electronic address: apanossian@europharmausa.com.

PMID: 30466988
DOI: 10.1016/j.phymed.2018.09.202

Abstract

Background: Curcumin (CC) exerts polyvalent pharmacological actions and multi-target effects, including pain relief and anti-nociceptive activity. In combination with Boswellia serrata extract (BS), curcumin shows greater efficacy in knee osteoarthritis management, presumably due to synergistic interaction of the ingredients.

Aim: To elucidate the molecular mechanisms underlying the analgesic activity of curcumin and its synergistic interaction with BS.

Methods: We performed gene expression profiling by transcriptome-wide mRNA sequencing in human T98G neuroglia cells treated with CC (Curamed), BS, and the combination of CC and BS (CC-BS; Curamin), followed by interactive pathways analysis of the regulated genes.

Results: Treatment with CC and with CC-BS selectively downregulated opioid-related nociceptin receptor 1 gene (OPRL1) expression by 5.9-fold and 7.2-fold, respectively. No changes were detected in the other canonical opioid receptor genes: OPRK1, OPRD1, and OPRM1. Nociceptin reportedly increases the sensation of pain in supra-spinal pain transduction pathways. Thus, CC and CC-BS may downregulate OPRL1, consequently inhibiting production of the nociception receptor NOP, leading to pain relief. In neuroglia cells, CC and CC-BS inhibited signaling pathways related to opioids, neuropathic pain, neuroinflammation, osteoarthritis, and rheumatoid diseases. CC and CC-BS also downregulated ADAM metallopeptidase gene ADAMTS5 expression by 11.2-fold and 13.5-fold, respectively. ADAMTS5 encodes a peptidase that plays a crucial role in osteoarthritis development via inhibition of a corresponding signaling pathway.

Conclusion: Here, we report for the first time that CC and CC-BS act as nociceptin receptor antagonists, selectively downregulating opioid-related nociceptin receptor 1 gene (OPRL1) expression, which is associated with pain relief. BS alone did not affect OPRL1 expression, but rather appears to potentiate the effects of CC via multiple mechanisms, including synergistic interactions of molecular networks.

Keywords: Boswellia; Curcumin; Nociception; OPRL1; Opioid receptor ORL1; Pain.

MeSH terms

ADAMTS5 Protein / metabolism
Analgesics / pharmacology*
Analgesics, Opioid
Boswellia / chemistry
Cell Line, Tumor
Curcumin / pharmacology*
Down-Regulation
Humans
Narcotic Antagonists / pharmacology
Neuroglia / drug effects*
Nociceptin Receptor
Plant Extracts / pharmacology*
Receptors, Opioid / metabolism*

Substances

Analgesics
Analgesics, Opioid
Narcotic Antagonists
Plant Extracts
Receptors, Opioid
ADAMTS5 Protein
ADAMTS5 protein, human
Curcumin
Nociceptin Receptor