Regulation of myometrial Gi2, Gi3, and Gq expression during pregnancy. Effects of progesterone and estradiol.

The possibility that progesterone or estradiol may regulate expression of G protein in the rat myometrium during the course of pregnancy has been investigated using 1) immunoblot analysis of Gi2 alpha, Gi3 alpha, and Gq alpha subunits and 2) hybridization blot analysis of subunit mRNA. Eighteen hours after administration, estradiol had significantly increased the levels of both Gi2 alpha subunit and Gi2 alpha mRNA (by 40% and 32%, respectively). In control pregnant rats, we observed similar changes at the end of pregnancy, when myometrial concentrations of estradiol had increased, i.e., a 41% increase in immunoreactive Gi2 alpha subunit that correlated with a parallel 45% increase in mRNA levels. In contrast, levels of immunoreactive Gi3 alpha subunit and mRNA, which decreased with advancing gestation, were not influenced by estradiol or progesterone administration. Progesterone administration resulted 30 h later in a significantly decreased level of Gq alpha immunoreactivity (32%) and Gq alpha mRNA (30%). In control rats, Gq alpha protein and mRNA were also significantly lower at midpregnancy under progesterone dominance vs. term. At this stage, a twofold increase in Gq alpha subunit correlated with a 40% increase in mRNA levels. These results demonstrate that myometrial Gi2 alpha and Gq alpha subunits are physiological targets for estradiol and progesterone, respectively, in vivo. Alterations of these G protein levels are discussed in relation to their mediating effects on adenylyl cyclase activity or the phospholipase C pathway during the course of pregnancy.

Characteristics of the alpha 2/beta 2-adrenergic receptor-coupled adenylyl cyclase system in rat myometrium during pregnancy.

alpha 2A- and alpha 2B-adrenoreceptors (AR), identified by Northern blotting in rat myometrium, showed a differential expression during the course of pregnancy. Indeed, the alpha 2A-AR transcript was present at mid-pregnancy, whereas high levels of alpha 2B-AR mRNA could be detected at term. The role of these subtypes in modulating beta 2-AR-stimulated adenylyl cyclase activity was investigated on myometrial membranes from mid-pregnancy and term. At nanomolar concentrations of clonidine (full alpha 2-AR agonist) or oxymetazoline (partial alpha 2A-AR agonist), adenylyl cyclase activity was inhibited by up to 50 +/- 7% at mid-pregnancy or 75 +/- 7% at term, whereas at micromolar concentrations, alpha 2-AR agonists potentiate adenylyl cyclase activity by 140-170% at mid-pregnancy. Both inhibitory and stimulatory components of this biphasic response were blocked by yohimbine, a selective alpha 2-AR antagonist. Preincubation of myometrial membranes with Gi2 and/or Gi3 antisera eliminated alpha 2-AR mediated attenuation or potentiation of isoproterenol-stimulated adenylyl cyclase, thus indicating that both the inhibitory and stimulatory components are mediated via Gi2 and Gi3. In addition, type II and IV adenylyl cyclases were identified by Northern blotting in the pregnant rat myometrium. Altogether these data strongly suggest that the alpha 2A-AR at mid-pregnancy potentiates adenylyl cyclase types II and IV through beta gamma released from Gi2 and Gi3 proteins, whereas the alpha 2B-AR expression at term may be related to persistent inhibition.

Heterogeneity of alpha-2 adrenoceptors in pregnant rat uterus: identification of subtypes and autoradiographic distribution.

Pharmacological characterization of alpha-2 adrenoceptors of the pregnant rat myometrium was assessed using the ability of various alpha adrenoceptor agonists and antagonists to inhibit [3H]rauwolscine or [3H]idazoxan binding to myometrial 50,000 x g fraction or to slide-mounted sections of the whole pregnant uterus. Saturation binding studies with both radioligands showed that the number of myometrial alpha-2 adrenoceptors is greatly increased on days 10 to 12 of pregnancy vs. cyclic rats. It then decreased from midpregnancy to term (about -75%; P < .01) with no change of the equilibrium dissociation constant (between 7-11 nM). Chemical sympathectomy by 6-hydroxydopamine significantly decreased (P < .01) the density of alpha-2 adrenoceptors at days 8 and 12 of pregnancy. Later, 6-hydroxydopamine administration did not alter Bmax or Kd values suggesting that the pregnancy decrease of alpha-2 adrenoceptors may be related to a loss of presynaptic receptors. In order to identify myometrial postsynaptic alpha-2 adrenoceptor subtypes, the inhibition of [3H]rauwolscine or [3H]idazoxan binding by oxymetazoline, prazosin and chlorpromazine was studied on days 20 and 21 of pregnancy. All inhibition curves were consistent with a model of two classes of binding sites: about 55% of the myometrial alpha-2 adrenoceptors, which had a higher affinity for oxymetazoline, may represent the alpha-2A subtype whereas the other 45% of the sites, which had a higher affinity for prazosin and chlorpromazine, may represent the alpha-2B subtype. Autoradiographic studies using [3H]rauwolscine revealed that both subtypes are colocalized in the longitudinal muscle. A high density of alpha-2A and alpha-2B subtypes was also detected in the chorioallantoic and yolk sac placenta and in the embryonic nervous system.