Disruption of Cav1.2-mediated signaling is a pathway for ketamine-induced pathology

The general anesthetic ketamine has been repurposed by physicians as an anti-depressant and by the public as a recreational drug. However, ketamine use can cause extensive pathological changes, including ketamine cystitis. The mechanisms of ketamine’s anti-depressant and adverse effects remain poorly understood. Here we present evidence that ketamine is an effective L-type Ca 2+ channel (Cav1.2) antagonist that directly inhibits calcium influx and smooth muscle contractility, leading to voiding dysfunction. Ketamine prevents Cav1.2-mediated induction of immediate early genes and transcription factors, and inactivation of Cav1.2 in smooth muscle mimics the ketamine cystitis phenotype. Our results demonstrate that ketamine inhibition of Cav1.2 signaling is an important pathway mediating ketamine cystitis. In contrast, Cav1.2 agonist Bay k8644 abrogates ketamine-induced smooth muscle dysfunction. Indeed, Cav1.2 activation by Bay k8644 decreases voiding frequency while increasing void volume, indicating Cav1.2 agonists might be effective drugs for treatment of bladder dysfunction. Ketamine is a general anesthetic that is used also as an anti-depressant, but its use is associated with cystitis. Here, the authors show that ketamine is an antagonist of the Cav1.2 channel in bladder smooth muscle cells, that ablation of this channel in mice mimics the cystitis induced by ketamine, and show that this effect can be abrogated by an agonist of this ion channel.