Activation of Sphingosine 1-phosphate Receptor 2 Attenuates Chemotherapy-induced Neuropathy

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2019 Dec 29

PMID 31882542

Citations 15

Authors

Wei Wang

Ping Xiang

Wee Siong Chew

Federico Torta

Aishwarya Bandla

Violeta Lopez

Wei Lun Seow

Brenda Wan Shing Lam

Jing Kai Chang

Peiyan Wong

Kanokporn Chayaburakul

Wei-Yi Ong

Markus R Wenk

Raghav Sundar

Deron R Herr

Affiliations

Soon will be listed here.

Abstract

Platinum-based therapeutics are used to manage many forms of cancer, but frequently result in peripheral neuropathy. Currently, the only option available to attenuate chemotherapy-induced neuropathy is to limit or discontinue this treatment. Sphingosine 1-phosphate (S1P) is a lipid-based signaling molecule involved in neuroinflammatory processes by interacting with its five cognate receptors: S1P In this study, using a combination of drug pharmacodynamic analysis in human study participants, disease modeling in rodents, and cell-based assays, we examined whether S1P signaling may represent a potential target in the treatment of chemotherapy-induced neuropathy. To this end, we first investigated the effects of platinum-based drugs on plasma S1P levels in human cancer patients. Our analysis revealed that oxaliplatin treatment specifically increases one S1P species, d16:1 S1P, in these patients. Although d16:1 S1P is an S1P agonist, it has lower potency than the most abundant S1P species (d18:1 S1P). Therefore, as d16:1 S1P concentration increases, it is likely to disproportionately activate proinflammatory S1P signaling, shifting the balance away from S1P We further show that a selective S1P agonist, CYM-5478, reduces allodynia in a rat model of cisplatin-induced neuropathy and attenuates the associated inflammatory processes in the dorsal root ganglia, likely by activating stress-response proteins, including ATF3 and HO-1. Cumulatively, the findings of our study suggest that the development of a specific S1P agonist may represent a promising therapeutic approach for the management of chemotherapy-induced neuropathy.

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