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Literature DB >> 30807826

Methylglyoxal and a spinal TRPA1-AC1-Epac cascade facilitate pain in the db/db mouse model of type 2 diabetes.

Ryan B Griggs¹, Diogo F Santos², Don E Laird², Suzanne Doolen², Renee R Donahue², Caitlin R Wessel², Weisi Fu², Ghanshyam P Sinha², Pingyuan Wang³, Jia Zhou³, Sebastian Brings⁴, Thomas Fleming⁵, Peter P Nawroth⁶, Keiichiro Susuki⁷, Bradley K Taylor⁸.

Abstract

Painful diabetic neuropathy (PDN) is a devastating neurological complication of diabetes. Methylglyoxal (MG) is a reactive metabolite whose elevation in the plasma corresponds to PDN in patients and pain-like behavior in rodent models of type 1 and type 2 diabetes. Here, we addressed the MG-related spinal mechanisms of PDN in type 2 diabetes using db/db mice, an established model of type 2 diabetes, and intrathecal injection of MG in conventional C57BL/6J mice. Administration of either a MG scavenger (GERP10) or a vector overexpressing glyoxalase 1, the catabolic enzyme for MG, attenuated heat hypersensitivity in db/db mice. In C57BL/6J mice, intrathecal administration of MG produced signs of both evoked (heat and mechanical hypersensitivity) and affective (conditioned place avoidance) pain. MG-induced Ca2+ mobilization in lamina II dorsal horn neurons of C57BL/6J mice was exacerbated in db/db, suggestive of MG-evoked central sensitization. Pharmacological and/or genetic inhibition of transient receptor potential ankyrin subtype 1 (TRPA1), adenylyl cyclase type 1 (AC1), protein kinase A (PKA), or exchange protein directly activated by cyclic adenosine monophosphate (Epac) blocked MG-evoked hypersensitivity in C57BL/6J mice. Similarly, intrathecal administration of GERP10, or inhibitors of TRPA1 (HC030031), AC1 (NB001), or Epac (HJC-0197) attenuated hypersensitivity in db/db mice. We conclude that MG and sensitization of a spinal TRPA1-AC1-Epac signaling cascade facilitate PDN in db/db mice. Our results warrant clinical investigation of MG scavengers, glyoxalase inducers, and spinally-directed pharmacological inhibitors of a MG-TRPA1-AC1-Epac pathway for the treatment of PDN in type 2 diabetes.

Entities: CellLine Chemical Disease Gene Species

Keywords: AC1; Epac; Glyoxalase; Methylglyoxal; Neuropathic pain; PKA; Painful diabetic neuropathy; Spinal; TRPA1; Type 2 diabetes

Mesh：

Substances：

Year: 2019 PMID： 30807826 PMCID： PMC6776480 DOI： 10.1016/j.nbd.2019.02.019

Source DB: PubMed Journal: Neurobiol Dis ISSN： 0969-9961 Impact factor: 5.996

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