Issue 12, 2021

A new synthetic protectin D1 analog 3-oxa-PD1n-3 DPA reduces neuropathic pain and chronic itch in mice

Abstract

The resolution of inflammation is a biosynthetically active process controlled by the interplay between oxygenated polyunsaturated mediators and G-protein coupled receptor-signaling pathways. These enzymatically oxygenated polyunsaturated fatty acids belong to distinct families of specialized pro-resolving autacoids. The protectin family of mediators has attracted an interest because of their potent pro-resolving and anti-inflammatory actions verified in several in vivo disease models. Herein, we present the stereoselective synthesis and biological evaluations of 3-oxa-PD1n-3 DPA, a protectin D1 analog. Results from mouse models indicate that the mediators protectin D1, PD1n-3 DPA and the new analog 3-oxa-PD1n-3 DPA all relieved streptozotocin-induced diabetic neuropathic pain at doses of 90 and 300 pmol, equivalent to 30 and 100 ng, respectively, following intrathecal (I.T.) injection. Of interest, at a low dose of only 30 pmol (10 ng; I.T.) only 3-oxa PD1n-3 DPA was able to alleviate neuropathic pain, directly compared to vehicle controls. Moreover, using a chronic itch model of cutaneous T-cell lymphoma (CTCL), all three compounds at 300 pmol (100 ng) showed a significant reduction in itching for several hours. The biomolecular information on the structure-functions of the protectins and the new synthetic analog 3-oxa-PD1n-3 DPA is of interest towards developing new immunoresolvents.

Graphical abstract: A new synthetic protectin D1 analog 3-oxa-PD1n-3 DPA reduces neuropathic pain and chronic itch in mice

Supplementary files

Article information

Article type
Paper
Submitted
23 Oct 2020
Accepted
02 Mar 2021
First published
02 Mar 2021
This article is Open Access
Creative Commons BY-NC license

Org. Biomol. Chem., 2021,19, 2744-2752

A new synthetic protectin D1 analog 3-oxa-PD1n-3 DPA reduces neuropathic pain and chronic itch in mice

J. I. Nesman, O. Chen, X. Luo, R. Ji, C. N. Serhan and T. V. Hansen, Org. Biomol. Chem., 2021, 19, 2744 DOI: 10.1039/D0OB02136A

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