1. TRPM4 contribution in mouse uterine contractions.
- Author
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Fouchet A, Bangando HM, Aize M, Simard C, and Guinamard R
- Subjects
- Female, Pregnancy, Mice, Animals, Calcium metabolism, Oxytocin metabolism, Myometrium metabolism, Uterine Contraction, TRPM Cation Channels metabolism
- Abstract
In Brief: Inappropriate uterine contractions are a matter of concern during pregnancy or menses. We identified the transient receptor potential melastatin 4 (TRPM4) ion channel as a new actor in mouse uterine contractions highlighting this protein as a potential pharmacological target for a better control of myometrial activity., Abstract: Control of uterine contractions is of interest in the context of inappropriate myometrial activity during pregnancy and at time of delivery, but it is also a matter for menstrual pain. While several molecular determinants of myometrial contractions have been described, the complete distribution of roles to the various actors is far from understood. A key phenomenon is a variation in cytoplasmic Ca2+ which leads to the activation of calmodulin in smooth muscle and also in the phosphorylation of myosin allowing contraction. The Ca2+ - TRPM4 channel which is known to modulate Ca2+- fluxes in several cell types was shown to participate in vascular as well as detrusor muscle contraction. We thus designed a study to determine whether it also participates in myometrial contraction. Uterine rings were isolated from Trpm4+/+ and Trpm4-/- non-pregnant adult mice and contractions were recorded using an isometric force transducer. In basal conditions, spontaneous contractions were similar in both groups. Application of 9-phenanthrol, a pharmacological TRPM4 inhibitor, dose-dependently reduced contraction parameters in Trpm4+/+ rings with an IC50 around 2.10-6 mol/L. The effect of 9-phenanthrol was significantly reduced in Trpm4-/- rings. The effect of oxytocin was tested and was found to be stronger in Trpm4+/+ rings compared to Trpm4-/-. Under a constant stimulation by oxytocin, 9-phenanthrol still reduced contraction parameters in Trpm4+/+ rings with a smaller effect on Trpm4-/-. Altogether it indicates that TRPM4 participates in uterine contractions in mice and may thus be evaluated as a new target to control such contractions.
- Published
- 2023
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