Sex‐Differences in Gastric Smooth Muscle Function: Role of G Protein‐Coupled Estrogen Receptor

Abstract

The regulation of gastrointestinal (GI) motility by estrogen and its receptors has been a topic of great interest owing to sexual dimorphism that exists in motility disorders. Scientific and clinical evidence establishes the fact of GI motility disturbances during estrous cycle but, there is a gap in the knowledge and understanding of estrogen and its receptors role in GI motility physiology during these cycles. Estrogen activates classical nuclear receptors ERα, ERβ and atypical 7‐transmembrane G protein‐coupled estrogen receptor (GPER or GPR30) to initiate both genomic and non‐genomic effects. GPER is involved in the several rapid cellular signaling events. The pleiotropic effects manifested by GPER action include regulation of body weight, glucose homeostasis, anti‐inflammation, anti‐nociception, and vascular muscle relaxation. Ablation of GPER leads to increase in mean arterial pressure in female mice, whereas treatment with GPER‐specific agonist G‐1 lowers arterial blood pressure in hypertensive and ovariectomized female rats. The role of GPER in mediating estrogen effects on GI smooth muscle is unknown.AimTo understand the role of GPER in gastric smooth muscle function in male and female mice.MethodsMuscle strips and muscle cells were isolated from the stomachs of control and GPER knockout mice. Expression of GPER was analyzed by qRT‐PCR and western blot. cAMP levels in response to estrogen and G‐1 was measured by radioimmunoassay. Relaxation was measured in organ bath studies in muscle strips and by scanning micrometry in isolated muscle cells.ResultsExpression of GPER (mRNA and protein) in the gastric smooth muscle was higher in female mice compared to male mice. 17β‐estradiol and G‐1 caused an increase in cAMP levels and inhibited acetylcholine‐induced muscle contraction (i.e., caused muscle relaxation) in gastric muscle strips and isolated muscle cells from both female and male mice, however, the increase in cAMP levels and the amount of relaxation was significantly greater in gastric muscle from female mice compared to male mice. The effect of 17β‐estradiol and G‐1 on muscle relaxation was concentration‐dependent. Relaxation was blocked by the GPER specific antagonist G15 (10 μM) in gastric muscle from control mice and absent in gastric muscle from GPER knockout mice. Relaxation was higher in proestrus and estrus phases compared to diestrus phase in female mice and this is consistent with higher expression of GPER in proestrus and estrus phases compared to diestrus phase.ConclusionActivation of GPER causes relaxation via cAMP/PKA pathway in gastric smooth muscle from female and male mice. Greater relaxation in gastric smooth muscle from female mice is due to higher expression of GPER in female mice compared to male mice. Pilot studies suggests that higher expression of GPER in the stomach of female mice is due to differential regulation of GPER expression by epigenetic mechanisms.Support or Funding InformationSupported by grants from VETAR (SM); IACUC approval AD10001201