Abstract
Previously, we have characterized the capsaicin-insensitive low pH-sensitive (caps−lpH+) subtype of small-sized nociceptive dorsal root ganglion (DRG) neurons that express acid-sensing ion channels, T-type Ca2+ channels, and have isolectin B4-negative phenotype. These neurons demonstrated increased excitability in a model of long-term diabetes, contributing to chronic pain sensation. Here we studied changes in the excitability of the caps−lpH+ neurons and underlying changes in the functional expression and gating properties of ion channels under complete Freund's adjuvant (CFA)-induced peripheral inflammation. We have found that, under these pathological conditions, the functional expression of the acid-sensing ion channels (ASICs) and voltage-gated Na+ channels, was increased. In addition, T-type Ca2+ current was significantly increased in the neurons at the membrane potentials close to its resting value. Altogether, the observed changes in the channel functioning shifted a pH level evoking an action potential (AP) toward its physiological value and led to an increase of evoked and spontaneous excitability of the caps−lpH+ neurons that may contribute to hyperalgesia and chronic inflammatory pain.
Highlights
Under inflammation the nociceptive dorsal root ganglion (DRG) neurons become increasingly excited by innocuous stimulus or spontaneously active, opening the gate for maladaptive pain (Woolf and Ma, 2007; Costigan et al, 2009)
We aimed to explore the changes in the excitability of caps−lpH+ DRG neurons under complete Freund’s adjuvant (CFA)-induced peripheral inflammation and underlying changes in the functional expression and gating properties of acid-sensing ion channels (ASICs) and voltage-gated Na+, K+, and T-type Ca2+ channels
Taking into account that inflammation is one of the pathogenic complications of long-term diabetes and that caps−lpH+ DRG neurons demonstrated increased excitability in a model of longterm STZ-induced diabetes (Duzhyy et al, 2015), we expected to observe an increase in excitability of the caps−lpH+ DRG neurons in a CFA model of peripheral inflammation
Summary
Under inflammation the nociceptive dorsal root ganglion (DRG) neurons become increasingly excited by innocuous stimulus or spontaneously active, opening the gate for maladaptive pain (Woolf and Ma, 2007; Costigan et al, 2009). Such sensitization is caused by the changes in the expression and regulation of ligand- and voltage-gated ion channels (Woolf and Costigan, 1999; Campbell and Meyer, 2006; Woolf and Ma, 2007). We aimed to explore the changes in the excitability of caps−lpH+ DRG neurons under complete Freund’s adjuvant (CFA)-induced peripheral inflammation and underlying changes in the functional expression and gating properties of ASICs and voltage-gated Na+, K+, and T-type Ca2+ channels
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