Pharmacological modulation of prostaglandin E2 (PGE2 ) EP receptors improves cardiomyocyte function under hyperglycemic conditions.

Type 2 diabetes (T2D) affects >30 million Americans and nearly 70% of individuals with T2D will die from cardiovascular disease (CVD). Circulating levels of the inflammatory signaling lipid, prostaglandin E2 (PGE2 ), are elevated in the setting of obesity and T2D and are associated with decreased cardiac function. The EP3 and EP4 PGE2 receptors have opposing actions in several tissues, including the heart: overexpression of EP3 in cardiomyocytes impairs function, while EP4 overexpression improves function. Here we performed complementary studies in vitro with isolated cardiomyocytes and in vivo using db/db mice, a model of T2D, to analyze the effects of EP3 inhibition or EP4 activation on cardiac function. Using echocardiography, we found that 2 weeks of systemic treatment of db/db mice with 20 mg/kg of EP3 antagonist, beginning at 6 weeks of age, improves ejection fraction and fractional shortening (with no effect on heart rate). We further show that either EP3 blockade or EP4 activation enhances contractility and calcium cycling in isolated mouse cardiomyocytes cultured in both normal and high glucose. Thus, peak [Ca2+ ]I transient amplitude was increased, while time to peak [Ca2+ ]I and [Ca2+ ]I decay were decreased. These data suggest that modulation of EP3 and EP4 activity has beneficial effects on cardiomyocyte contractility and overall heart function.

Rat prostaglandin EP3 receptor is highly promiscuous and is the sole prostanoid receptor family member that regulates INS-1 (832/3) cell glucose-stimulated insulin secretion.

Chronic elevations in fatty acid metabolites termed prostaglandins can be found in circulation and in pancreatic islets from mice or humans with diabetes and have been suggested as contributing to the ß-cell dysfunction of the disease. Two-series prostaglandins bind to a family of G-protein-coupled receptors, each with different biochemical and pharmacological properties. Prostaglandin E receptor (EP) subfamily agonists and antagonists have been shown to influence ß-cell insulin secretion, replication, and/or survival. Here, we define EP3 as the sole prostanoid receptor family member expressed in a rat ß-cell-derived line that regulates glucose-stimulated insulin secretion. Several other agonists classically understood as selective for other prostanoid receptor family members also reduce glucose-stimulated insulin secretion, but these effects are only observed at relatively high concentrations, and, using a well-characterized EP3-specific antagonist, are mediated solely by cross-reactivity with rat EP3. Our findings confirm the critical role of EP3 in regulating ß-cell function, but are also of general interest, as many agonists supposedly selective for other prostanoid receptor family members are also full and efficacious agonists of EP3. Therefore, care must be taken when interpreting experimental results from cells or cell lines that also express EP3.

The PGE2 receptor EP3 plays a positive role in the activation of hypothalamic-pituitary-adrenal axis and neuronal activity in the hypothalamus under immobilization stress.

BACKGROUND: Prostaglandin E2 (PGE2) binds to four receptor subtypes (EP1, EP2, EP3 and EP4) and plays an important role in response to stress. However, the identity of the receptor(s) responsible for PGE2 regulation of neuronal activity and signaling through activation of the hypothalamic-pituitary-adrenal (HPA) axis under immobilization stress is unknown. PURPOSE: The present study aimed to investigate the role of the hypothalamic PGE2 receptors in the activation of the HPA axis and neuronal activity in a rat model of stress. METHODS: Stress was induced by immobilization of the animals, after which the stress-induced profile of PGE2 receptor signaling in the rat hypothalamus was determined by real-time polymerase chain reaction and immunohistochemistry. The effect of a selective EP3 receptor antagonist on corticosterone concentrations and c-Fos immunoreactivity was measured. RESULTS: Expression of EP2 and EP3 receptor genes, but not EP1 and EP4, was increased following immobilization stress. The EP3 receptor was localized to the paraventricular nucleus (PVN) of the hypothalamus, and the integrated density of the EP3 receptor was increased after immobilization stress. Rats given L-798,106, a selective antagonist of the EP3 receptor, showed significant attenuation of stress-increased serum corticosterone levels. EP3 antagonist also significantly suppressed the increase in the gene expression of c-Fos and the number of c-Fos-immunoreactive cells in the PVN of the hypothalamus following immobilization stress. CONCLUSIONS: These results suggest that immobilization stress may result in increased activation of the HPA axis and neuronal activity through regulating the function of the EP3 receptor.

Prostaglandin-mediated inhibition of serotonin signaling controls the affective component of inflammatory pain.

Pain is fundamentally unpleasant and induces a negative affective state. The affective component of pain is mediated by circuits that are distinct from those mediating the sensory-discriminative component. Here, we have investigated the role of prostaglandins in the affective dimension of pain using a rodent pain assay based on conditioned place aversion to formalin injection, an inflammatory noxious stimulus. We found that place aversion induced by inflammatory pain depends on prostaglandin E2 that is synthesized by cyclooxygenase 2 in neural cells. Further, mice lacking the prostaglandin E2 receptor EP3 selectively on serotonergic cells or selectively in the area of the dorsal raphe nucleus failed to form an aversion to formalin-induced pain, as did mice lacking the serotonin transporter. Chemogenetic manipulations revealed that EP3 receptor activation elicited conditioned place aversion to pain via inhibition of serotonergic neurons. In contrast to their role in inflammatory pain aversion, EP3 receptors on serotonergic cells were dispensable for acute nociceptive behaviors and for aversion induced by thermal pain or a κ opioid receptor agonist. Collectively, our findings show that prostaglandin-mediated modulation of serotonergic transmission controls the affective component of inflammatory pain.

The key residue within the second extracellular loop of human EP3 involved in selectively turning down PGE2- and retaining PGE1-mediated signaling in live cells.

Key residues and binding mechanisms of PGE1 and PGE2 on prostanoid receptors are poorly understood due to the lack of X-ray structures for the receptors. We constructed a human EP3 (hEP3) model through integrative homology modeling using the X-ray structure of the ß2-adrenergic receptor transmembrane domain and NMR structures of the thromboxane A2 receptor extracellular loops. PGE1 and PGE2 docking into the hEP3 model showed differing configurations within the extracellular ligand recognition site. While PGE2 could form possible binding contact with S211, PGE1 is unable to form similar contacts. Therefore, S211 could be the critical residue for PGE2 recognition, but is not a significant for PGE1. This prediction was confirmed using HEK293 cells transfected with hEP3 S211L cDNA. The S211L cells lost PGE2 binding and signaling. Interestingly, the S211L cells retained PGE1-mediated signaling. It indicates that S211 within the second extracellular loop is a key residue involved in turning down PGE2 signaling. Our study provided information that S211L within EP3 is the key residue to distinguish PGE1 and PGE2 binding to mediate diverse biological functions at the initial recognition step. The S211L mutant could be used as a model for studying the binding mechanism and signaling pathway specifically mediated by PGE1.

Actinidia chinensis Planch root extract (acRoots) inhibits hepatocellular carcinoma progression by inhibiting EP3 expression.

A wide range of studies has demonstrated the potent anticancer activity of Chinese herbs. Here, we evaluated the anticancer activity and molecular mechanisms of Actinidia chinensis root extract (acRoots) on hepatocellular carcinoma (HCC). HepG2 HCC cells were treated with various concentrations of acRoots for 72 h and examined by mRNA expression profiling, revealing alterations in cellular immunity, inflammation, proliferation, cell cycle, and metabolic signaling responses. Further analysis of the altered genes in cellular immunity and inflammation gene clusters identified prostaglandin E receptor 3 (EP3) as a key regulator of gene expression in response to acRoots. Further analysis revealed inhibition of cell growth, migration, and invasion in HCC in response to acRoots, along with increased apoptosis due to downregulation of EP3 expression. Treatment with acRoots and EP3 antagonist L-798106 led to decreases in VEGF, EGFR, MMP2, and MMP9 expression in HCC cells, along with significant effects on growth, migration, invasion, and apoptosis; the effects were reversed/blocked by the EP3 agonist sulprostone. Taken together, these data clearly demonstrated that acRoots inhibit HCC cell invasion and metastasis via inhibition of EP3 expression, resulting in decreased activation of VEGF, EGFR, MMP2, and MMP9.

Castor oil induces laxation and uterus contraction via ricinoleic acid activating prostaglandin EP3 receptors.

Castor oil is one of the oldest drugs. When given orally, it has a laxative effect and induces labor in pregnant females. The effects of castor oil are mediated by ricinoleic acid, a hydroxylated fatty acid released from castor oil by intestinal lipases. Despite the wide-spread use of castor oil in conventional and folk medicine, the molecular mechanism by which ricinoleic acid acts remains unknown. Here we show that the EP(3) prostanoid receptor is specifically activated by ricinoleic acid and that it mediates the pharmacological effects of castor oil. In mice lacking EP(3) receptors, the laxative effect and the uterus contraction induced via ricinoleic acid are absent. Although a conditional deletion of the EP(3) receptor gene in intestinal epithelial cells did not affect castor oil-induced diarrhea, mice lacking EP(3) receptors only in smooth-muscle cells were unresponsive to this drug. Thus, the castor oil metabolite ricinoleic acid activates intestinal and uterine smooth-muscle cells via EP(3) prostanoid receptors. These findings identify the cellular and molecular mechanism underlying the pharmacological effects of castor oil and indicate a role of the EP(3) receptor as a target to induce laxative effects.

ω-3 fatty acids attenuate mucosal inflammation in premature rat pups.

BACKGROUND: Necrotizing enterocolitis (NEC) is a devastating intestinal disease of premature infants. Although ω-3 fatty acids are known to have antiinflammatory effects, their effect against NEC remains unclear. METHODS: Mother rats fed a soybean-based, docosahexaenoic acid (DHA)- or eicosapentaenoic acid (EPA)-enriched diet from days 7 to 20 of gestation were examined. On day 20, the rat pups were delivered by abdominal incision, their intestines were removed, and messenger RNA was extracted. A rat NEC model was used to confirm the effects of ω-3 fatty acids on the inflamed intestine (n = 20-28). The expression of inflammatory molecules was analyzed by real-time polymerase chain reaction (n = 11-14). RESULTS: The concentrations of DHA and EPA in the intestine were significantly increased in the DHA and EPA groups (P < .01). The expression of the antiinflammatory prostaglandin E2 receptor EP3 was increased in the DHA (P < .05) and EPA groups (P < .01). In the NEC model, the reduced incidence of colitis was confirmed in the DHA and EPA groups. The expression of peroxisome proliferator-activated receptor γ was increased (P < .05), and the inhibitor of nuclear factor-κB α/ß decreased in both the DHA (P < .01) and EPA groups (P < .05). CONCLUSION: Our findings indicate that ω-3 fatty acids are beneficial for protecting the premature intestine from inflammation by regulating eicosanoid- and nuclear factor-κB-related metabolite expression.

Interaction of prostanoid EP3 and TP receptors in guinea-pig isolated aorta: contractile self-synergism of 11-deoxy-16,16-dimethyl PGE2.

BACKGROUND AND PURPOSE: Surprisingly high contractile activity was reported for 11-deoxy-16,16-dimethyl prostaglandin E2 (DX-DM PGE2) on pig cerebral artery when used as a selective EP3 receptor agonist. This study investigated the selectivity profile of DX-DM PGE2, focusing on the interaction between its EP3 and TP (thromboxane A2-like) agonist activities. EXPERIMENTAL APPROACH: Contraction of guinea-pig trachea (EP1 system) and aorta (EP3 and TP systems) was measured in conventional organ baths. KEY RESULTS: Strong contraction of guinea-pig aorta to sulprostone and 17-phenyl PGE2 (EP3 agonists) was only seen under priming with a second contractile agent such as phenylephrine, histamine or U-46619 (TP agonist). In contrast, DX-DM PGE2 induced strong contraction, which on the basis of treatment with (DG)-3ap (EP3 antagonist) and/or BMS-180291 (TP antagonist) was attributed to self-synergism arising from co-activation of EP3 and TP receptors. EP3/TP self-synergism also accounted for contraction induced by PGF(2α) and its analogues (+)-cloprostenol and latanoprost-FA. DX-DM PGE2 also showed significant EP1 agonism on guinea-pig trachea as defined by the EP1 antagonists SC-51322, (ONO)-5-methyl-1 and AH-6809, although AH-6809 exhibited poor specificity at concentrations ≥3 µM. CONCLUSIONS AND IMPLICATIONS: EP3/TP self-synergism, as seen with PGE/PGF analogues in this study, may confound EP3 agonist potency comparisons and the characterization of prostanoid receptor systems. The competitive profile of a TP antagonist may be distorted by variation in the silent/overt contraction profile of the EP3 system in different studies. The relevance of self-synergism to in vivo actions of natural prostanoid receptor agonists is discussed.

3-Acrylamide-4-aryloxyindoles: synthesis, biological evaluation and metabolic stability of potent and selective EP3 receptor antagonists.

A series of potent and selective EP(3) receptor antagonists are described. Utilizing a pharmacophore model developed for the EP(3) receptor, a series of 3,4-disubstituted indoles were found to be efficient ligands for this target. These compounds showed high selectivity over IP, FP and other EP receptors. An optimized molecule 7c featured a sound profile and potency in the functional rat and human platelet aggregation assays.

Prostaglandin E receptor subtype EP3 in conjunctival epithelium regulates late-phase reaction of experimental allergic conjunctivitis.

BACKGROUND: We previously demonstrated that the prostaglandin E(2) (PGE(2))-EP3 pathway negatively regulates allergic reactions in a murine allergic asthma model. OBJECTIVES: We investigated whether the PGE(2)-EP3 pathway also regulates the development of murine experimental allergic conjunctivitis (EAC). METHODS: The expression of EP3 was examined by means of RT-PCR and immunohistochemistry in wild-type mice, as well as by means of 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside staining in mice deficient in EP3 (Ptger3(-/-) mice) carrying the beta-galactosidase gene at the EP3 gene locus. EAC was induced by immunization of mice with short ragweed pollen (RW), followed by challenge with eye drops of RW, and eosinophil infiltration and eotaxin-1 mRNA expression in the conjunctiva were examined. Mice were also treated with a topical application of an EP3-selective agonist during the elicitation phase. Quantitative RT-PCR was used to detect expression of COXs and prostaglandin E synthases, and ELISA was used to measure PGE(2) production in the eyelid. RESULTS: EP3 was constitutively expressed in conjunctival epithelium on the ocular surface. Ptger3(-/-) mice demonstrated significantly increased eosinophil infiltration in conjunctiva after RW challenge compared with wild-type mice. Consistently, significantly higher expression of eotaxin-1 mRNA was observed in Ptger3(-/-) mice. Conversely, treatment of wild-type mice with an EP3-selective agonist resulted in a significant decrease in eosinophil infiltration, which was blunted in Ptger3(-/-) mice. Expression of COX-2 and prostaglandin E synthases was upregulated and PGE(2) content was increased in the eyelids after RW challenge. CONCLUSION: These data suggest that PGE(2) acts on EP3 in conjunctival epithelium and downregulates the progression of EAC.

[Effect of guizhi decoction on PKA and PKC activities of hypothalamus in fever rats].

OBJECTIVE: To investigate the changes of the activity of both protein kinase A and C and the mechanisms of antipyretic action of Guizhi decoction. METHOD: The fever responses were observed after combination injection of H-89 (a selective inhibitor of PKA) and calphostin C (a selective inhibitor of PKC), and oral pretreatment of Guizhi decoction in fever rats induced by an intra-cerebroventricular (icv) injection of an EP3 agonist, and both PKA and PKC activity in hypothalamus were measured in rats pretreated with Guizhi decoction and vehicle using isotopic tracing assay. RESULT: The rise in rat body temperature was inhibited by H-89, Calphostin C, and Guizhi decoction, moreover, pretreatment with Guizhi decoction reduced PKA activity obviously. PKC activity in model rats exhibited a tendency to drop compared with that of control group, Oral administration of Guizhi decoction in large dose inhibited the response significantly, while the low dose of Guzhi decoction has no effect on PKC. CONCLUSION: Both PKA and PKC may participate in the mechanism of fever induction by EP3 agonist. The decrease of PKA and PKC may contribute to the antipyretic action of Guizhi decoction, some isoenzyme of PKC may play a role in the fever production.

The differential role of prostaglandin E2 receptors EP3 and EP4 in regulation of fever.

The innate immune system of mammals is able to detect bacteria when they infect local tissue or enter the blood stream, and initiate an immediate immune response. Prostaglandin (PG) E2 is considered as the most important link between the peripheral immune system and the brain. Due to four PGE2 receptors (EP receptors) and their differential expression in various areas of the hypothalamus and brain stem, PGE2 mediates different components of the acute phase reaction. A fever model is discussed in which the preoptic area contains the mechanisms for both hyperthermic and hypothermic responses and EP receptors in the median preoptic area (MnPO) modulate the thermogenic system. The neuron-specific modulation of EP receptors in the MnPO can be critically tested by using Cre-recombinase-mediated DNA recombination in genetically engineered mice. A concept for mice with conditional expression of EP3R and EP4R to investigate the different roles of those receptors in lipopolysaccharide (LPS)-induced fever is presented.

Effect of guizhi decoction on PKA and PKC activities of hypothalamus in fever rats / 中国中药杂志

<p><b>OBJECTIVE</b>To investigate the changes of the activity of both protein kinase A and C and the mechanisms of antipyretic action of Guizhi decoction.</p><p><b>METHOD</b>The fever responses were observed after combination injection of H-89 (a selective inhibitor of PKA) and calphostin C (a selective inhibitor of PKC), and oral pretreatment of Guizhi decoction in fever rats induced by an intra-cerebroventricular (icv) injection of an EP3 agonist, and both PKA and PKC activity in hypothalamus were measured in rats pretreated with Guizhi decoction and vehicle using isotopic tracing assay.</p><p><b>RESULT</b>The rise in rat body temperature was inhibited by H-89, Calphostin C, and Guizhi decoction, moreover, pretreatment with Guizhi decoction reduced PKA activity obviously. PKC activity in model rats exhibited a tendency to drop compared with that of control group, Oral administration of Guizhi decoction in large dose inhibited the response significantly, while the low dose of Guzhi decoction has no effect on PKC.</p><p><b>CONCLUSION</b>Both PKA and PKC may participate in the mechanism of fever induction by EP3 agonist. The decrease of PKA and PKC may contribute to the antipyretic action of Guizhi decoction, some isoenzyme of PKC may play a role in the fever production.</p>

The effects of non-selective, preferential-selective and selective COX-inhibitors on the growth of experimental and human tumors in mice related to prostanoid receptors.

Earlier observations on cyclo-oxygenase inhibitors (NSAIDs) restricting tumor growth were re-evaluated by comparing the effects of non-selective, preferential selective and selective derivatives of COX-inhibitors on tumor growth in mouse models with either prostaglandin-sensitive (MCG-101, human tumors) and -insensitive transplants (K1735-M2). Tumor growth, with and without provision of a classical cyclo-oxygenase inhibitor (indomethacin), was related to tumor content of COX-1/COX-2 protein as well as to EP1-EP4 and prostacyclin receptor expression. Mouse serum amyloid protein (SAP) was measured as an indicator of systemic inflammation, which relates to pro-inflammatory cytokines. Indomethacin inhibited tumor growth and prolonged the survival of mice bearing MCG-101 tumors, which display a high production of PGE2, while K1735-M2 tumors with insignificant amounts of PGE2 did not respond to indomethacin at all. However, the effects of various NSAIDs on tumor growth were highly variable in combination with the fact that most preferential selective and selective COX-2 inhibitors attenuated poorly systemic inflammation evaluated by plasma concentrations of mouse SAP. The ability of NSAIDs to attenuate tumor growth was not related to the tumor content of COX-2 protein as expected. Multivariate analysis suggests that significant COX-inhibition of tumor growth may be related to tumor expression of subtype EP2, EP3 (p<0.005) and perhaps EP4 (p<0.09) in complex interplay. The extent of tumor growth inhibition by COX-inhibitors is not simply related to drug specificity on COX-1 or COX-2 pathways. Such effects may instead be related to tumor expression of prostanoid receptors in tumor tissue.

Evaluation of selective prostaglandin E2 (PGE2) receptor agonists as therapeutic agents for the treatment of asthma.

Prostaglandin E2 (PGE2) released in asthmatic airways has bronchodilator properties and inhibits allergen-induced bronchoconstriction and release of inflammatory mediators. Although considered as a potential treatment for asthma, PGE2 also has some proinflammatory properties. PGE2 acts through four different receptor subtypes (EP1, EP2, EP3, and EP4) that may explain some of PGE2's diverse effects. In a mouse model of allergic inflammation in which the four receptors were individually deleted, only EP3(-/-) mice showed an enhancement of inflammation, whereas an EP3 agonist was inhibitory, with PGE2 being inactive. Thus, EP3 agonists may lead to a new approach for the treatment of asthma. However, other PGE2 receptor subtypes may also have beneficial effects, and a greater understanding of the signaling pathways of these receptor subtypes will help to clarify the role of these receptors in asthma.

Effect of serum and cumulus cell expansion on marker gene transcripts in bovine cumulus-oocyte complexes during maturation in vitro.

OBJECTIVE: To determine the distribution of transcripts encoding the FSH receptor (FSHr), LH receptor (LHr), connexin 43 (Cx43), cyclooxygenase-2 (COX-2), and prostaglandin E(2) receptors 2 and 3 (EP2 and EP3) within bovine cumulus-oocyte complexes (COCs) and denuded oocytes and investigate the influence of gonadotropins, serum, and cumulus cell expansion on the abundance of transcripts encoding these genes. DESIGN: Prospective controlled animal study. SETTING: University research laboratory. PATIENT(S): Animal models for human studies. INTERVENTION(S): Cumulus-oocyte complexes were treated in culture with serum and gonadotropin-supplemented media to examine the effects to mRNA transcript levels. MAIN OUTCOME MEASURE(S): Variation in mRNA transcript levels. RESULT(S): Luteinizing hormone receptor, FSHr, and EP3 mRNAs were detected in intact COCs and not in cumulus cell-denuded oocytes, whereas Cx43, COX-2, and EP2 mRNAs were found in both COCs and oocytes. The relative abundance of marker gene mRNAs did not vary in media containing no additives or FSH alone, independent of whether the media induced cumulus cell expansion. However, the presence of serum in maturation media significantly decreased expression of all mRNAs except LHr. CONCLUSION(S): The relative abundance of COC mRNAs is altered by serum in the maturation medium, which may signify long-term consequences for embryonic development.

Mechanism of prostaglandin (PG)E2-induced prolactin expression in human T cells: cooperation of two PGE2 receptor subtypes, E-prostanoid (EP) 3 and EP4, via calcium- and cyclic adenosine 5'-monophosphate-mediated signaling pathways.

We previously reported that prolactin gene expression in the T-leukemic cell line Jurkat is stimulated by PGE(2) and that cAMP acts synergistically with Ca(2+) or protein kinase C on the activation of the upstream prolactin promoter. Using the transcription inhibitor actinomycin D, we now show that PGE(2)-induced prolactin expression requires de novo prolactin mRNA synthesis and that PGE(2) does not influence prolactin mRNA stability. Furthermore, PGE(2)-induced prolactin expression was inhibited by protein kinase inhibitor fragment 14-22 and BAPTA-AM, which respectively, inhibit protein kinase A- and Ca(2+)-mediated signaling cascades. Using specific PGE(2) receptor agonists and antagonists, we show that PGE(2) induces prolactin expression through engagement of E-prostanoid (EP) 3 and EP4 receptors. We also found that PGE(2) induces an increase in intracellular cAMP concentration as well as intracellular calcium concentration via EP4 and EP3 receptors, respectively. In transient transfections, 3000 bp flanking the leukocyte prolactin promoter conferred a weak induction of the luciferase reporter gene by PGE(2) and cAMP, whereas cAMP in synergy with ionomycin strongly activated the promoter. Mutation of a C/EBP responsive element at -214 partially abolished the response of the leukocyte prolactin promoter to PGE(2), cAMP, and ionomycin plus cAMP.

Prostaglandin E2 as a mediator of fever: the role of prostaglandin E (EP) receptors.

Prostaglandin E2 (PGE2) is a principal fever mediator that induces hyperthermia when injected into the organum vasculosum lamina terminalis (OVLT) and the adjacent preoptic area of the hypothalamus (POA). PGE (EP) receptors have four subtypes, i.e. EP1, EP2, EP3, and EP4. In the rat OVLT/POA region, at least three of these receptors, i.e. EP1, EP3, and EP4 receptors, have distinctively different distribution patterns. In rats, intracerebroventricular injection of EP1 receptor agonists and EP3 receptor agonists increased core temperature (Tc) and that of an EP4 receptor agonist decreased it. IntraPOA injection of an EP1 receptor agonist increased Tc. IntraPOA injection of an EP3 receptor agonist, however, induced hyperalgesia but not hyperthermia. Studies using mice with EP receptor gene deletions have indicated that EP3 receptors play a crucial role in febrile response. Therefore, the involvement of EP3 receptors at other levels of the nervous system should be considered. Such nuclei include the raphe pallidus nucleus, intermediolateral cell column in the spinal cord, or the nucleus of the solitary tract.

[Effect of guizhi tang and its active components on the fever induced by EP3 agonist].

OBJECTIVE: To investigate the effect of Guizhi Tang and its active components on the fever induced by EP3 receptor agonist sulprostone in rats. METHOD: The rise in body temperature evoked by a LCV(lateral cerebroventricle)-injection of sulprostone was compared with that of sulprostone induced-fever rats pretreated with Guizgi Tang and its active compounds, cinnamaldehyde, cinnamic acid and total glucosides of paeony. RESULT: Pretreatments with Guizhi Tang and cinnamaldehyde inhibited the rise in body temperature induced by sulprostone, while cinnamic acid tended to augment the fever. The sulprostone-induced fever was blocked by an ip pretreatment of total glucosides of paeony even below the basement. CONCLUSION: Present data suggest that interruption with the down-stream events of EP3 receptor may contribute to the antipyretic action of Guizhi Tang, cinnamaldehyde and the total glucosides of paeony, while cinnamic acid may have no such effect.