Plasma cholesterol level is controlled by various factors. In the present study, high plasma activity of cholesterol esterase was found to correlate with plasma total cholesterol and low density lipoprotein (LDL) cholesterol levels in normolipidemic human subjects. However, the cholesterol esterase is not elevated in plasma of patients with familial hypercholesterolemia. These observations suggest that cholesterol esterase level is not determined by plasma cholesterol level, but elevated cholesterol esterase may be causative in increasing plasma cholesterol and LDL. Additional experiments further demonstrated that cholesterol esterase can convert the larger and less-atherogenic LDL to the smaller and more atherogenic LDL subspecies in vitro. These results suggest that plasma cholesterol esterase contributes to the formation and accumulation of atherogenic lipoproteins, and thus is a major risk factor for premature atherosclerosis in normal human subjects.
Changes in prostaglandin EP2 receptor isoform expression are consistent with influence on maintenance of quiescence. Labor at term is associated with a significant increase in FP receptor expression, consistent with influence on contraction. The balance between the two receptor isoforms might mediate myometrial contractility.
Prostaglandins synthesized at parturition may act via specific myometrial receptors as mediators of uterine contractions. Several isoforms of eicosanoid (prostaglandin) receptors, identified by pharmacological means, are linked to contractile (FP, EP1, EP3) or relaxatory (EP2, EP4, IP, DP) intracellular pathways. Changes in mRNA expression of the contractile FP and the relaxatory EP2 receptor were measured in myometrium throughout gestation, at parturition, and postpartum. Timed pregnant rats were killed at 0900 h on Day 16, 18, 20, 21, 21.5, or 22 (parturition) of pregnancy or one day postpartum (n = 5 animals/group). A longitudinal section of myometrium was removed, total RNA was extracted, and semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) was performed for glyceraldehyde phosphate dehydrogenase (GAPDH), calponin, EP2, and FP receptor mRNA expression. Complementary DNA products were run on agarose gels and visualized, and the quantity of cDNA product was measured against a DNA mass ladder. RT-PCR product identity was confirmed by restriction enzyme cleavage. EP2 receptor mRNA expression was highest at Day 16 and declined significantly to Day 21.5 and one day postpartum (p < 0.05, Student-Newman-Keuls procedure). Expression of FP receptor mRNA was low at Day 16 of gestation and increased significantly until delivery (p < 0.05, ANOVA) at Day 22, then fell to prepartum levels at one day postpartum. Myometrial activity at parturition may change from an active quiescent to an active contractile state in concert with a decline in expression of the relaxatory EP2 receptors and up-regulation of contractile FP receptors.
A polyclonal antibody was raised against amino acids 7-18 in the first extracellular loop of rat prostaglandin F (FP) receptor to monitor expression and localization in pregnant rat myometrium at Gestational Days 16, 18, 20, 21, 21.5, 22 (delivery), and 23 (1-day postpartum; n = 5 per group). The antibody recognized a protein of approximately 43 kDa on Western blot analysis in both membrane (soluble and nonsoluble) and cytosolic fractions of myometrium on each day of gestation. Expression of FP protein increased significantly (P < 0.05) during late gestation in both soluble membrane and cytosolic fractions, being significantly greater at Day 21.5 than at Day 20 of gestation in the soluble membrane fraction and in the cytosolic fraction of tissues collected during labor compared with those obtained before labor. The total concentration of FP receptor in the membrane (soluble plus nonsoluble) remained high throughout late gestation and fell significantly (P < 0.05) in the postpartum period. The FP receptor in the soluble membrane fraction (compared to the total membrane FP receptor) was significantly (P < 0.05) higher in late gestation than earlier, whereas the ratio of FP protein in cytosolic to that in the total membrane was significantly (P < 0.05) higher on Day 23 than earlier in gestation, suggesting a dynamic movement of FP with advancing gestational age. Immunoreactive FP receptor localized to circular and longitudinal smooth muscle at all gestational ages, but changes in intracellular localization were observed in late gestation with a staining pattern similar to alpha-actin, suggesting an association with myofibrils. Our study suggests an increase in FP-receptor protein in myometrium with advancing gestation and a marked elevation at term. This supports a role for uterine FP receptors in mediation of uterine contractility at term.
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