Effect of Gabapentin in a Neuropathic Pain Model in Mice Overexpressing Human Wild-Type or Human Mutated Torsin A

Overview

Journal Life (Basel)

Specialty Biology

Date 2021 Jan 15

PMID 33445430

Citations 2

Authors

Damiana Scuteri

Laura Rombola

Silvia Natoli

Antonio Pisani

Paola Bonsi

Chizuko Watanabe

Giacinto Bagetta

Paolo Tonin

Maria Tiziana Corasaniti

Affiliations

Soon will be listed here.

Abstract

Background: DYT1 dystonia is the most common form of early-onset inherited dystonia, which is caused by mutation of torsin A (TA) belonging to the "ATPases associated with a variety of cellular activities" (AAA + ATPase). Dystonia is often accompanied by pain, and neuropathic pain can be associated to peripherally induced movement disorder and dystonia. However, no evidence exists on the effect of gabapentin in mice subjected to neuropathic pain model overexpressing human normal or mutated TA.

Methods: Mice subjected to L5 spinal nerve ligation (SNL) develop mechanical allodynia and upregulation of the α2δ-1 L-type calcium channel subunit, forming a validated experimental model of neuropathic pain. Under these experimental conditions, TA is expressed in dorsal horn neurons and astrocytes and colocalizes with α2δ-1. Similar to this subunit, TA is overexpressed in dorsal horn 7 days after SNL. This model has been used to investigate (1) basal mechanical sensitivity; (2) neuropathic pain phases; and (3) the effect of gabapentin, an α2δ-1 ligand used against neuropathic pain, in non-transgenic (NT) C57BL/6 mice and in mice overexpressing human wild-type (hWT) or mutant (hMT) TA.

Results: In comparison to non-transgenic mice, the threshold for mechanical sensitivity in hWT or hMT does not differ (Kruskal-Wallis test = 1.478; = 0.4777, although, in the latter animals, neuropathic pain recovery phase is delayed. Interestingly, gabapentin (100 mg/Kg) reduces allodynia at its peak (occurring between post-operative day 7 and day 10) but not in the phase of recovery.

Conclusions: These data lend support to the investigation on the role of TA in the molecular machinery engaged during neuropathic pain.

Citing Articles

Transgenic Mice for the Translational Study of Neuropathic Pain and Dystonia.

Scuteri D, Hamamura K, Watanabe C, Tonin P, Bagetta G, Corasaniti M Int J Mol Sci. 2022; 23(15).

PMID: 35955710 PMC: 9368787. DOI: 10.3390/ijms23158580.

Exploitation of Thermal Sensitivity and Hyperalgesia in a Mouse Model of Dystonia.

Scuteri D, Rombola L, Natoli S, Pisani A, Bonsi P, Hamamura K Life (Basel). 2021; 11(9).

PMID: 34575134 PMC: 8468866. DOI: 10.3390/life11090985.

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