Litcius/Paper detail

Uterine Excitability and Ion Channels and Their Changes with Gestation and Hormonal Environment

Susan Wray, Sarah Arrowsmith

2020Annual Review of Physiology65 citationsDOI

Abstract

We address advances in the understanding of myometrial physiology, focusing on excitation and the effects of gestation on ion channels and their relevance to labor. This review moves through pioneering studies to exciting new findings. We begin with the myometrium and its myocytes and describe how excitation might initiate and spread in this myogenic smooth muscle. We then review each of the ion channels in the myometrium: L- and T-type Ca 2+ channels, K ATP (Kir6) channels, voltage-dependent K channels (Kv4, Kv7, and Kv11), twin-pore domain K channels (TASK, TREK), inward rectifier Kir7.1, Ca 2+ -activated K + channels with large (KCNMA1, Slo1), small (KCNN1–3), and intermediate (KCNN4) conductance, Na-activated K channels (Slo2), voltage-gated (SCN) Na + and Na + leak channels, nonselective (NALCN) channels, the Na K-ATPase, and hyperpolarization-activated cation channels. We finish by assessing how three key hormones— oxytocin, estrogen, and progesterone—modulate and integrate excitability throughout gestation.

Topics & Concepts

MyometriumIon channelHyperpolarization (physics)Cardiac action potentialPotassium channelRepolarizationChemistryMembrane potentialEndocrinologyInternal medicineMyocyteInward-rectifier potassium ion channelGatingBK channelBiophysicsCell biologyElectrophysiologyBiologyMedicineReceptorUterusOrganic chemistryNuclear magnetic resonance spectroscopyIon channel regulation and functionNeuroendocrine regulation and behaviorElectrolyte and hormonal disorders