FXYD2 antisense oligonucleotide provides an efficient approach for long-lasting relief of chronic peripheral pain
Alexandre Derre, Noelian Soler, Valentine Billoux, Sebastien Benizri, Brune Vialet, Cyril Rivat, Philippe Barthélémy, Patrick Carroll, Alexandre Pattyn, Stephanie Venteo
Alexandre Derre, Noelian Soler, Valentine Billoux, Sebastien Benizri, Brune Vialet, Cyril Rivat, Philippe Barthélémy, Patrick Carroll, Alexandre Pattyn, Stephanie Venteo
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Research Article Neuroscience

FXYD2 antisense oligonucleotide provides an efficient approach for long-lasting relief of chronic peripheral pain

Abstract

Chronic pain, whether of inflammatory or neuropathic origin, affects about 18% of the population of developed countries, and most current treatments are only moderately effective and/or cause serious side effects. Therefore, the development of novel therapeutic approaches still represents a major challenge. The Na,K-ATPase modulator FXYD2 is critically required for the maintenance of neuropathic pain in rodents. Here, we set up a therapeutic protocol based on the use of chemically modified antisense oligonucleotides (ASOs) to inhibit FXYD2 expression and treat chronic pain. We identified an ASO targeting a 20-nucleotide stretch in the FXYD2 mRNA that is evolutionarily conserved between rats and humans and is a potent inhibitor of FXYD2 expression. We used this sequence to synthesize lipid-modified forms of ASO (FXYD2-LASO) to facilitate their entry into dorsal root ganglia neurons. We established that intrathecal or intravenous injections of FXYD2-LASO in rat models of neuropathic or inflammatory pain led to a virtually complete alleviation of their pain symptoms, without causing obvious side effects. Remarkably, by using 2′-O-2-methoxyethyl chemical stabilization of the ASO (FXYD2-LASO-Gapmer), we could significantly prolong the therapeutic action of a single treatment up to 10 days. This study establishes FXYD2-LASO-Gapmer administration as a promising and efficient therapeutic strategy for long-lasting relief of chronic pain conditions in human patients.

Authors

Alexandre Derre, Noelian Soler, Valentine Billoux, Sebastien Benizri, Brune Vialet, Cyril Rivat, Philippe Barthélémy, Patrick Carroll, Alexandre Pattyn, Stephanie Venteo

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Figure 2

FXYD2 expression can be inhibited in DRG by intrathecal injection of ASOs without the use of toxic transfection reagents.

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FXYD2 expression can be inhibited in DRG by intrathecal injection of ASO...
(A) Quantification of FXYD2 protein levels by Western blot of extracts of HEK293M cells after transfection by FXYD2-ASO or FXYD2-LASO without transfection reagents. (B and C) Increasing amounts (0, 0.5, 2, and 4 μg) of FXYD2-LASO (B) or 2 μg of FXYD2-Accell siRNA (C) were intrathecally injected daily over 14 days (n = 3). Lumbar DRG (L4 and L5) tissues were dissected and quantified for FXYD2 protein levels. Western blot using an FXYD2 antibody shows the presence of the FXYD2 isoforms a and b. The levels of FXYD2 protein were normalized to actin protein. Lanes were transferred onto the same membrane but were noncontiguous. Data are represented as means ± SEM of data from 5–10 replicates (A), 3–4 animals (B and C). One-way ANOVA and post hoc Bonferroni’s test (A and B), 2-tailed unpaired Student’s t test (C). *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.