Nanomolar EP4 Receptor Potency and Expression of Eicosanoid- Related Enzymes in Normal Appearing Colonic Mucosa From Patients with Colorectal Neoplasia

BackgroundAberrations in cyclooxygenase and lipoxygenase (LOX) pathways in non-neoplastic, normal appearing mucosa from patients with colorectal neoplasia (CRN), could hypothetically qualify as predisposing CRN-markers. To test this hypothesis, biopsies were obtained during colonoscopy from macroscopically normal colonic mucosa from patients with and without CRN. Prostaglandin E2 (PGE2) receptors, EP1-4, were examined in Ussing-chambers by exposing biopsies to selective EP receptor agonists, antagonists and PGE2. Furthermore, mRNA expression of EP receptors, prostanoid synthases and LOX enzymes were evaluated using qPCR technology.Results Data suggest that PGE2 binds to high and low affinity EP receptors. In particular, PGE2 demonstrated EP4 receptor potency in the low nanomolar range. Similar results were detected using EP2 and EP4 agonists. In CRN patients, mRNA-levels were higher for EP1 and EP2 receptors and for enzymes prostaglandin-I synthase, 5-LOX, 12-LOX and 15-LOX. ConclusionIn conclusion, normal appearing colonic mucosa from CRN patients demonstrates deviating expression in eicosanoid pathways, indicating a likely predisposition for early CRN development. Moreover, PGE2 potency activates high affinity EP4 receptor subtypes, supporting relevance of testing EP4 antagonists in colorectal cancer management.

Multiple Roles of Prostaglandin E2 Receptors in Female Reproduction

Among prostaglandins, Prostaglandin E2 (PGE2) (PGE2) is considered especially important for decidualization, ovulation, implantation and pregnancy. Four major PGE2 receptor subtypes, EP1, EP2, EP3, EP4, as well as peroxisome proliferator-activated receptors (PPARs), mediate various PGE2 effects via their coupling to distinct signaling pathways. This review summarizes up-to-date literatures on the role of prostaglandin E2 receptors in female reproduction, which could provide a broad perspective to guide further research in this field. PGE2 plays an indispensable role in decidualization, ovulation, implantation and pregnancy. However, the precise mechanism of Prostaglandin E2 (EP) receptors in the female reproductive system is still limited. More investigations should be performed on the mechanism of EP receptors in the pathological states, and the possibility of EP agonists or antagonists clinically used in improving reproductive disorders.

PGE2 upregulates renin through E-prostanoid receptor 1 via PKC/cAMP/CREB pathway in M-1 cells

During the early phase of ANG II-dependent hypertension, tubular PGE2 is increased. Renin synthesis and secretion in the collecting duct (CD) are upregulated by ANG II, contributing to further intratubular ANG II formation. However, what happens first and whether the triggering mechanism is independent of tubular ANG II remain unknown. PGE2 stimulates renin synthesis in juxtaglomerular cells via E-prostanoid (EP) receptors through the cAMP/cAMP-responsive element-binding (CREB) pathway. EP receptors are also expressed in the CD. Here, we tested the hypothesis that renin is upregulated by PGE2 in CD cells. The M-1 CD cell line expressed EP1, EP3, and EP4 but not EP2. Dose-response experiments, in the presence of ANG II type 1 receptor blockade with candesartan, demonstrated that 10−6 M PGE2 maximally increases renin mRNA (approximately 4-fold) and prorenin/renin protein levels (approximately 2-fold). This response was prevented by micromolar doses of SC-19220 (EP1 antagonist), attenuated by the EP4 antagonist, L-161982, and exacerbated by the highly selective EP3 antagonist, L-798106 (~10-fold increase). To evaluate further the signaling pathway involved, we used the PKC inhibitor calphostin C and transfections with PKCα dominant negative. Both strategies blunted the PGE2-induced increases in cAMP levels, CREB phosphorylation, and augmentation of renin. Knockdown of the EP1 receptor and CREB also prevented renin upregulation. These results indicate that PGE2 increases CD renin expression through the EP1 receptor via the PKC/cAMP/CREB pathway. Therefore, we conclude that during the early stages of ANG II-dependent hypertension, there is augmentation of PGE2 that stimulates renin in the CD, resulting in increased tubular ANG II formation and further stimulation of renin.

Abstract TP346: Pge2 Ep1-4 Temporospatial Expression Level Changes in the Brain After Intracerebral Hemorrhage in Young, Aged, and Ep1 Deficient Mice Suggests Cross-talk Interactions

Intracerebral hemorrhage (ICH) is the most severe form of stroke with the highest mortality. Neuroinflammation contributes to ICH-induced brain injury and the upregulation of prostaglandin E 2 (PGE 2 ) has been implicated in modulating these deleterious pathways. PGE 2 acts mainly on four G-protein-coupled E Prostanoid (EP) receptors, EP1-4, each having different downstream pathways, tissue distributions, and expression profiles. Our previous studies demonstrate that EP1 receptor deletion promotes injury following ICH; whereas, deletion of EP2 and EP3 is neuroprotective in an equivalent approach. Here, we aimed to investigate the time course, brain sub-region expression profile, and relative level of EP1-4 mRNA expression in young (5-7mo) and aged (12-13mo) wildtype (WT) and EP1-/- mice. Following ICH or sham surgery, EP1-4 mRNA levels were assessed by RT-qPCR whereby the relative fold change of the gene of interest were determined using the reference gene Tbp and the 2 -ΔΔCT method relative to the control. Minimal EP1-4 expression changes are seen at 24h after ICH; although, EP2 (p=0.036) and EP4 (p=0.066) are 1.6X increased in the cortex of young WT mice. At 72h post-ICH, EP1 is 3.9x elevated in the cortex (p=0.0003) and 4.6x in the striatum (p=0.012). EP3 is also 1.6x elevated in the cortex (p=0.044). In the contralateral hemisphere, a mean 2.4x increase of EP1-4 (p<0.01) expression is seen. In contrast, at 72h after ICH, EP1-/- mice have 0.53x reduced EP3 in the cortex (p=0.030) and 0.68x and 0.71x decreased EP3 (p=0.016) and EP4 (p=0.049), respectively, in the contralateral. Aged EP1 -/- mice show significantly decreased expression levels of EP2-4 in nearly all areas. Due to the contralateral differences, basal expression levels of EP2-4 were investigated in the EP1-/- mice, where EP2 is 2.6x, 3.4x, and 3.8x increased in the cortex, hippocampus, and cerebellum; whereas, EP3 trended oppositely. These data indicate a cross talk between EP1 and the other EP receptors pre- and post-ICH and an association between age and EP receptor expression levels. A better understanding of EP receptor localization and dynamic expression levels after ICH will spark the development of effective pharmacological treatments. Funding: NIH F31NS086441 (JLL) and R01NS046400 (SD)