Reduction by human chorionic gonadotropin of the luteolytic effect of prostaglandin F2 in ewes

The ability of human chorionic gonadotropin (HCG) to reduce the luteolytic effect of prostaglandin (PGF_2^α) was demonstrated in cycling ewes. As expected, treatment with 10 mg of PGF_2^α alone on Day 10 of the estrous cycle exerted a potent negative effect on the function and structure of corpus luteum (CL) as indicated by reduced plasma progesterone, CL progesterone, and CL weight. However, the identical PGF_2^α treatment failed to significantly reduce either luteal function or luteal weight when administered to ewes that were also treated with HCG on Days 9 and 10 of the estrous cycle. Treatment with HCG alone had a positive effect on CL as indicated by increased plasma progesterone, CL progesterone, and CL weight. Treatment with HCG did not render the CL totally insensitive to the negative effects of PGF_2^α because plasma progesterone was reduced when the dose of PGF_2^α was doubled. Whether CL regressed or continued to function after treatment with both HCG and PGF_2^α appeared to depend upon a balance between the positive and negative effects of the two hormones.     

Effects of dibuturyl cAMP, LHRH, and aromatase inhibitor on simultaneous outputs of prostaglandin F2α, and 13,14-dihydro-15-keto-prostaglandin F2α by term placental explants

Explants from term human placentas were maintained in culture with daily changes of medium. Daily output of PGF_2α and PGFM¹ decreased during the course of the incubation. Addition of 4 μg/ml DHEAS or 67 μg/ml LDL cholesterol had no effect on output of PGF_2α or PGFM. Addition of 1.6, 3.2, or 6.4 μg/ml of LHRH to the culture plates had no effect on output of PGFM or PGF_2α, but LHRH increased hCG output. Dibutyryl cAMP (1mM, 2mM, and 4mM) increased output of PGF_2α, PGFM, and hCG. Aromatase inhibitor decreased hCG output, but it was without effect on output of PGF_2α, or PGFM. Significant correlations were demonstrated between progesterone, PGFM, PGF_2α, and hCG, suggesting that PGF_2α originates in the syncytiotrophoblast cell. The ability of LHRH to stimulate output of hCG but not PGF_2α while dbcAMP stimulated both suggests that either PGF_2α and hCG arise in different cells or that LHRH does not act through cAMP.     

Radioimmunoassays of prostaglandin F2α and prostaglandin F2α-main urinary metabolite with prostaglandin-I-tyrosine methylester amide

Radioimmunoassays for measuring prostaglandin F_2α (PGF_2α) and 5α, 7α-dihydroxy-11-keto tetranorprosta-1,16-dioic acid, PGF_2α-main urinary metabolite (PGF_2α-MUM), with ¹²⁵I-tyrosine methylester amide (TMA) of PGF_2α and PGF_2α-MUM were developed.Antibody to PGF_2α was produced in rabbits immunized with conjugates of PGF_2α coupled to bovine serum albumine. Antibody to PGF_2α-MUM was also produced in rabbits immunized with conjugates of PGF_2α-MUM coupled to bovine serum albumin.PGF_2α-¹²⁵I-TMA had an affinity to antiserum to PGF_2α. PGF_2α-MUM-¹²⁵I-TMA also responded to antiserum to PGF_2α-MUM.     

The effects of prostaglandins on the beating activity of cultured heart cells

The effects on the beating behavior of cultured rat heart cells of fourteen prostaglandins of the A, B, D, E, and F series were investigated, together with adrenaline and ouabain, at dose levels of 10⁻⁷ and 10⁻⁵M. Single heart cell beating activity was monitored photo-electrically and five parameters of beating behavior measured. Only PGF_2a markedly increased rate while PGF_2B reduced it. Maintenance of a stable rate (rate range) was minimally affected by prostaglandins with PGF_2β possibly reducing, and PGF_1α and 2-decarboxy E₁ possibly increasing, rate range. PGF_1α and F_2α both statistically reduced the percentage of cells beating while the other prostaglandins had no effect. Most of the prostaglandins either produced no change, or reduced, indices of contractile force (optical density changes with contractions and its first derivative (dOD/dt)). Only the negative chronotropic agent PGF_2β positive density effect. In conclusion, except for PGF_2α, prostaglandins generally have limited actions on the beating activity of cultured heart cells.     

Activation of phospholipase D by prostaglandin F2α in rat luteal cells and effects of inhibitors of arachidonic acid metabolism

In rat luteal cells labeled with (³H]oleic acid, PGF_2α-stimulated phospholipase D (PLD) activation was investigated. The PLD activity was detected by measuring the accumulation of [³H]phosphatidylethanol (PtdEt) in the presence of ethanol. PGF_2α stimulated PtdEt accumulation at concentrations of more than 100 nM in the presence of ethanol. However, PtdEt accumulation did not change in the absence of ethanol. PGF_2α (1 μM) increased PtdEt accumulation after 1 min, and the accumulation reached a plateau by 2–3 min. These results indicate that PGF_2α activates PLD in rat luteal cells. U-73122, a phospholipase C (PLC) inhibitor, and staurosporine, a protein kinase C (PKC) inhibitor, did not inhibit PGF_2α-stimulated [³H]PtdEt accumulation. These results suggest that PGF_2α-induced PLD activation is different from PLC-PKC systems. We reported previously that PGF_2α stimulated the release of arachidonic acid. The effects of indomethacin, nordihydroguaiaretic acid (NDGA), and 5,8,11,14-eicosatetraynoic acid (ETYA), inhibitors of arachidonic acid metabolism, on PGF_2α-stimulated PtdEt accumulation were examined. Pretreatment with indomethacin enhanced PGF_2α-induced PtdEt accumulation. In contrast, pretreatment with NDGA and ETYA inhibited PGF_2α-induced PtdEt accumulation. It is suggested that PGF_2α-stimulated PLD activation is mediated via lipoxygenase products.     

Prostaglandin biosynthesis by the rat uterus during the oestrus cycle, temporal correlation with plasma oestradiol and progesterone concentrations, identification of 6 keto PGF1α as the major metabolite

Prostaglandin biosynthesis was studied in the rat uterus during the oestrous cycle. Uterine homogenates were incubated for 20 minutes in the presence of exogenous substrate (2.10⁻⁵M). PGF_2α and PGE₂ were measured by R.I.A.. A sharp peak PGF_2α and a smaller peak of PGE₂ were observed at prooestrus, 20 h. Another small PGE₂ peak occurred at dioestrus II, 15 h. The lowest values of both PGs were found on dioestrus, 15 h. Plasma oestradiol concentration were highest at proestrus, 15 h and 20 h. A sharp progesterone peak occurred at prooestrus, 20 h. The PGF_2α peak is next to the oestradiol peak and is superimposable or lags slightly beyond the progesterone peak.Incubation with ¹⁴C arachidonic acid and subsequent analysis of extracts by TLC and scanning showed that the major metabolite is PGI₂, identified as 6 keto PGF_1α. The conversion rate of arachidonic acid into 6 keto PGF_1α is 5 times higher than into PGF_2α. 6 keto PGF_1α was further identified by GC/MS. No significant difference was observed between 6 keto PGF_1α production during oestrus and dioestrus.     

Inhibitory action of lanthanum(La) on PGF2α- induced contraction of guinea-pig stomach muscle

The effects of lanthanum(La) on contractions induced by prostaglandin F_2α(PGF_2α) or isotonic K⁺ were investigated in the isolated stomach muscle of guinea-pig.Low concentrations of La(0.1–1 μM) inhibited the contraction to PGF_2α 1 μM in a dose-dependent manner, without affecting the tonic contraction to isotonic K⁺.0.1 and 1 μM La shifted the dose-response curve for PGF_2α(0.001 – 1 μM) to the right and reduced the maximum response.The IC₅₀ of La against PGF_2α and K⁺ were 0.6 μM and 30 μM, respectively.These results support the suggestion that PGF_2α -induced contraction in the stomach muscle depends mainly on the intracellular release of sequestered Ca, which would be depleted or immobilized by La.     

Prostaglandin release from the guinea-pig uterus superfused in vitro. Effect of stage of estrous cycle, progesterone, estradiol, oxytocin and A23187

Prostaglandin (PG) E₂ was the major PG released from the superfused guinea-pig uterus on Day 7, followed by in descending order 6-oxo-PGF_1α, thromboxane (TX) B₂ and PGF_2α. However, the outputs of all four substances were low and were very similar. By Day 15, PGF_2α output from the superfused uterus had increased 21.9-fold, whereas the outputs of PGE₂, 6-oxo-PGF_1α and TXB₂ had increased only 1.8-, 2.9- and 1.2-fold, respectively. A mechanism is apparently “switched on” between Days 7 and 15 which causes a fairly specific increase in the release of PGF_2α from the uterus.Progesterone and/or estradiol had no effect on PG or TX release when superfused over the uterus on Day 7, nor did they have any effect on PG and TX release from the Day 15 uterus when administered separately. When administered together, however, they significantly inhibited PGF_2α, PGE₂ and 6-oxo-PGF_1α, but not TXB₂, release from the Day 15 uterus. Oxytocin had no effect on PG release from the Day 7 or Day 15 uterus, while A23187 stimulated PGF_2α, 6-oxo-PGF_1α and, to a lesser extent, PGE₂ release from the uterus on both Days 7 and 15 Oxytocin is apparently not important for stimulating PGF_2α release from the guinea-pig uterus in relation to luteolysis, whereas increasing intracellular free Ca⁺⁺ levels may be part of the mechanism for “switching on” uterine PG synthesis. Furthermore, changes in intracellular free Ca⁺⁺ levels in the endometrium may be responsible for the pulsatile nature of PGF_2α release from the uterus.     

Stimulatory effect of prostaglandins on the production of hexosamine-containing substances by cultured fibroblasts (4) adenosine 3′:5′-cyclic monophosphate independent stimulation by prostaglandin F2α

The mechanism of the stimulatory effect of prostaglandin (PG) F_2α on the production of hexosamine-containing substances by cultured fibroblasts was studied with special reference to adenosine 3′:5′- cyclic monophosphate (cAMP). At the stationary phase, the cells were exposed for 6 hrs to PGF_2α, E₁, cAMP or dibutyryl-cAMP in a wide range of concentrations. cAMP itself showed a slight stimulation on the production of hexosamine-containing substances, and the effect was enhanced by using the dibutyryl derivative. PGF_2α had much a greater capacity than either the exogeneous cAMP or the dibutyryl-cAMP for enhancing the production of hexosamine-containing substances. To know whether cAMP is involved in the stimulatory effect of PGF_2α, intracellular cAMP level was concomitantly measured in both PGF_2α and PGE₁ treated cultures. Although the cellular cAMP level in PGE₁ treated cultures was much higher than that in the PGF_2α treated cultures, the stimulatory effect on the production of hexosamine-containing substances in PGE₁ treated cultures was always much smaller than that in the PGF_2α treated cultures. Moreover, PGF_2α had a significant stimulatory effect on the production of hexosamine-containing substances even at a low concentration as 100 pg/ml, which is small enough not to increase any cellular cAMP level. From these results, it was concluded that the stimulatory effect of PGF_2α on the production of hexosamine-containing substances by cultured fibroblasts is not mediated by cAMP and is caused by a mechanism different from that caused by cAMP.     

Effect of in vivo prostaglandin treatment on H-PGF2α uptake in hamster corpora lutea

Pregnant hamsters were administered (SC) prostaglandin or vehicle on the morning of the 4th day of pregnancy. Serum progesterone was significantly depressed (p<.01) at 0.5, 2, and 6 hours after treatment with 100 μg PGF_2α. Serum progesterone levels were unchanged 2 hours and 6 hours after treatment with 100 μg PGF_2β and 2 hours after treatment with 1 mg PGF_2β. Progesterone levels were depressed to less than 1 ng/ml 6 hours after treatment with 1 mg PGF_2β. The specific uptake of ³H-PGF_2α in whole hamster corpora lutea was significantly depressed 2 hours and 6 hours following 100 μg PGF_2α treatment. A 15% depression in specific uptake occurred 0.5 hour post-treatment. Treatment with 100 μg PGF_2β resulted in no change. Administration of 1 mg PGF_2β resulted in depressed ³H-PGF_2α uptake at both 2 and 6 hours post-treatment.Prostacyclin (PGI₂) treatment resulted in no change in either ³H-PGF_2α specific uptake or serum progesterone 2 hours after 100 μg treatment SC. These parameters were both reduced approximately 30% 6 hours post-treatment. Treatment with 6-keto-PGF_1α resulted in a complete lack of measurable ³H-PGF_2α uptake and serum progesterone levels less than 1 ng/ml at both 2 and 6 hours after treatment with 1 mg SC.     

Characterization of the stimulatory effects of PGF2α on the release of arachidonic acid

Fibroblasts derived from a rat carrageenin granuloma were cultured in the presence of radioactive arachidonic acid, palmitic acid and linoleic acid. More than 90% of each labeled fatty acid was incorporated into a phospholipid fraction by the cells in 18 hrs. Arachidonic acid was evenly incorporated into phosphatidylcholine and phosphatidylethanolamine, while both palmitic acid and linoleic acid were almost entirely incorporated into phosphatidylcholine. The position of phosphatidylcholine where the fatty acids were incorporated was different for each fatty acid. The ratio of the amount of fatty acid incorporated into the 2-position to the amount incorporated into the 1-position of phosphatidylcholine for each fatty acid was >90% for arachidonic acid, 2:1 for palmitic acid and 5:1 for linoleic acid. In the case of phosphatidylethanolamine, most arachidonic acid (>90%) was incorporated into the 2-position. PGF_2^α caused the stimulation of arachidonic acid release but not of palmitic acid and linoleic acid from pre-labeled fibroblasts.The serum in the medium was completely replaceable by bovine serum albumin. The effect of PGF_2^α increased with an increasing concentration of bovine serum albumin, suggesting that serum only acts as a ‘trap’ for released arachidonic acid. The effect of PGF_2^α was greater than bradykinin, and no synergistic effect was seen, although an additive effect was observed.The effect of PGF_2^α depended on the concentration of calcium ions under magnesium-supplemented conditions.     

Dose and time dependent luteotropic and luteolytic action of prostaglandin F2α in the luteinized rabbit ovary

The mechanism of stimulatory and inhibitory action of PGF_2α on ovarian steroidogenesis both under and conditions has been studied in the pseudo-pregnant rabbits. Short term incubation of the ovaries with PGF_2α (2.82 × 10⁻⁵M) resulted in an increased synthesis of progesterone and 20α-OH P. The addition of PGF_2α in the medium and further incubation of the ovaries obtained from rabbits that had been constantly infused with PGF_2α (0.5 μg/min.) for two hours resulted in increased synthesis of these progestins. The ratio of progesterone to 20α -OH P was also enhanced under these conditions and thus supported the luteotropic action of small doses of PGF_2α under short term incubations. However, as the amount of PGF_2α infused was increased to 5 μg/min., the addition of PGF_2α under conditions strikingly decreased the production of these progestins. The ratio of progesterone to 20α -OH P was also decreased and thus was indicative of luteolytic action of higher doses of PGF_2α. High doses of PGF_2α (5.64 × 10⁻⁴M) failed to I cause any significant change in the progestin synthesis under short term incubation. These results thus suggest that the luteotropic and luteolytic action of PGF_2α in the luteinized rabbit ovary is dose and time dependent.     

PGF2α-induced loss of corpus luteum gonadotrophin receptors

In experiments and we have previously shown that PGF_2α directly antagonized the action of gonadotrophins on the corpus luteum. To determine if this action of PGF_2α may occur as a consequence of an induced loss of gonadotrophin receptors, binding of hCG to rat luteal tissue was measured following PGF_2α treatment . In immature rats which were treated with exogenous gonadotrophin to luteinize the gonads, PGF_2α produced a marked and highly significant decrease in circulating progesterone when administered 24 hours before sacrifice. Although the affinity constant (Ka; 1.2-2 × 10¹⁰ L/M) of the luteal receptor to hCG was not affected, PGF_2α treatment produced a marked fall in the binding capacity of the luteal tissue to hCG. This response was absent, however, when PGF_2α was incubated directly with luteal receptor or administered during early pseudopregnancy when corpora lutea are more resistant to luteolysis. Experiments are in progress to determine if the decrease in capacity of luteal receptors to bind hCG is the mechanism or a consequence of luteolysis produced by PGF_2α.     

Stereospecificity of enzymatic reduction of prostaglandin E2 to F2α

Antibodies directed toward PGF_2β were prepared in rabbits. The serologic specificity of the immune reaction was determined by inhibition of sodium borohydride-reduced (³H) PGE₂ anti-PGF_2β binding by several prostaglandins. The antibodies to PGF_2β recognize the β-hydroxyl configuration in the cyclopentane ring of PGF_2β. With the use of both anti-PGF_2α and anti-PGF_2β, the product of PGE₂ reduction by 9-ketoreductase purified from chicken heart was identified as PGF_2α. Guinea pig liver and kidney homogenates were examined for PGE 9-ketoreductase activity. Although enzyme activity was present, no evidence of PGF_2β production was found.     

Effects of superovulation, arachidonic acid or endometrium on release of prostaglandins and synthesis of proteins by bovine trophoblast

This study was conducted in vitro to examine factors that may regulate prostaglandin release by bovine trophoblast and endometrial slices. Trophoblastic tissues and endometrial slices were recovered from superovulating and normally-ovulating cattle on day 16 or 20 of pregnancy and incubated for 24 h. Release of PGF_2^α and 13,14-dihydro-15-keto-PGF_2^α (PGMF), and incorporation of [¹⁴C]-leucine into proteins were quantified and expressed per μg DNA, which gives a measure of cellular activity. Activity of trophoblastic tissue for synthesizing protein was decreased (P<.05) and for releasing PGMF was increased (P<.05) on day 20 compared to day 16 of pregnancy. Neither supercovulation nor day of pregnancy altered trophoblastic activity for releasing PGF_2^α. Supercovulation increased (P<.05) endometrial release of PGF_2^α. Endometrial release of PGF_2^α was less (P<.05) on day 20 than on day 16 of pregnancy. When arachidonic acid (0, 100, 200 or 400 μg) was added at the start of incubation, trophoblastic release of PGF_2^α changed (P<.05) quadratically with dose of arachidonic acid. When arachidonic acid was added 8 h after the start of incubation, triphoblastic release of PGF_2^α increased linearly (P<.01) with dose of arachidonic acid. Adding arachidonic acid to incubation medium did not affect trophoblastic or endometrial protein synthesis. Endometrial slices suppressed (P<.05) trophoblastic protein synthesis and release of PGF_2^α. Apparently, endometrium can modulate trophoblastic release of prostaglandins and synthesis of proteins in vitro, and trophoblastic tissue from supercovulated cattle 16 or 20 days pregnant can be used to study trophoblastic synthesis of prostaglandins and proteins.     

Metabolism of prostacyclin. III. Urinary metabolite profile of 6-keto PGF1α in rat

The in vivo metabolism of 6-keto PGF_1α was investigated in rats. Following continuous intravenous infusion for 14 days the urinary metabolites were isolated and identified. A substantial amount of unchanged 6-keto PGF_1α was recovered in the urine. The metabolic pattern very closely resembles that of PGI₂ in rats. Metabolites were found which represented 15-dehydrogenation, β-oxidation, ω and ω-1-hydroxylation and oxidation.Previous work showed that 6-keto PGF_1α is very poorly oxidized by 15-PGDH. We administered 15-[H³]-PGI₂ and 15-[H³]-6-keto PGF_1α to rats and measured urinary tritiated water as an index for in vivo 15-PGDH activity. The results showed that PGI₂ and 6-keto PGF_1α were both oxidized to the 15-keto product, although the rate of oxidation of PGI₂ was greater than that of 6-keto PGF_1α. We concluded that the administered PGI₂ was oxidized by 15-PGDH before hydrolysis to 6-keto PGF_1α. A portion of the dose is probably hydrolyzed before 15-dehydrogenation.     

The effects of synthetic prostaglandin analogs on canine hepatic bile flow

The synthetic prostaglandin analogs 16, 16-dimethyl PGF_2α and 16, 16-dimethyl PGE₂ were administered to dogs with chronic biliary and gastric fistulas. The effects of 16, 16 diMePGF_2α and 16, 16 diMePGE₂ were evaluated on bile flow and composition and bile adenosine 3′, 5′ monophosphate (cyclic AMP) secretion. 16, 16 diMePGF_2α in doses of 0.125 and 0.25 μg-kg-min significantly increased hepatic bile flow. The choleresis was characterized by increased cloride and bicarbonate secretion. Measurement by radioimmunoassay of bile cyclic AMP concentration demonstrated no evident increase in bile cyclic AMP secretion associated with the choleresis produced by 16, 16 diMePGF_2α. The administration of 16, 16 diMePGE₂ in a dose range 0.01 to 1.0 μg-kg-min did not significantly alter bile flow rates or composition. Bile erythritol-¹⁴C clearance, a measure of canalicular bile flow, was significantly increased by PGF_2α but not by 16, 16-dimethyl PGF_2α, suggesting that the mechanism of action of PGF_2α in stimulating hepatic bile flow may be different from that involved in 16, 16-dimethyl PGF_2α choleresis. The results of this study indicate that the synthetic PGF_2α analog produces a choleretic response not mediated by adenylate cyclase and associated with increased chloride and bicarbonate secretion.     

A biochemical hypothesis to explain the mechanism of luteal regression

It seems likely that luteal regression may involve a direct biochemical action of prostaglandin F₂α (PGF₂α) on the luteal cell since there are now several reports that PGF₂α can directly inhibit steroidogenesis . However, the mechanism of such an action of PGF₂α remains obscure.This article initially reviews the central role of adenosine 3,^I5^I-mono-phosphate (c-AMP) in initiating and maintaining the structural and functional changes occurring on luteinisation. A mechanism is suggested, supported by results obtained using granulosa cells in tissue culture, in which PGF₂α initiates functional luteolysis by inhibiting further synthesis of c-AMP. This mechanism is then used in conjunction with further observations to provide a possible explanation for the inability of PGF₂α to regress newly formed corpora lutea. Finally, the possible mechanisms of structural regression are discussed.     

Prostaglandin synthesis by the cochlea

The exogenous and endogenous syntheses of prostaglandins (PG's) by the cochlea of adult mongolian gerbils were studied . After incubation of the whole membraneous cochlea with [³H]-arachidonic acid (AA), syntheses of PGF_2α, 6-keto PGF_1α, PGE₂, thromboxane (TX) B₂ and PGD₂ were evidenced in this order. The synthesis of radioactive PG's was almost completely inhibited by incubation with 10⁻⁵ M indomethacin. No significant amounts of those PG's were detected by radioimmunoassay (RIA) in the cochlea obtained from animals killed by microwave irradiation at 5.0 kw for 0.8 sec. However, when the homogenate of the whole membraneous cochlea obtained from animals without microwave irradiation was incubated at 37°C for 0–15 min, PGD₂, PGE₂, PGF₂α and 6-keto PGF₁α were found to be formed from endogenous AA in the cochlea by RIA. PG's were formed already at 0 time to considerable level (PGD₂, PGF₂α and 6-keto PGF₁α, 90–120 pg/cochlea; PGE₂, 370 pg/cochlea), reached to the maximum level (PGD₂, PGF₂α and 6-keto PGF₁α, 170–200 pg/cochlea; PGE₂, 500 pg/cochlea) at a 5-min incubation, and then gradually decreased. On the other hand, the amount of TXB₂ was lower than the detection limit by RIA (<50 pg/cochlea) even after the incubation. The cochlea was dissected into three parts: organ of Corti + modiolus (OC + M), lateral wall (LW), and cochlear nerve (CN), and then PG's formed by these tissues were determined after a 5-min incubation of the homogenates. In the CN and OC + M, PGE₂ was the major PG (100 and 160 pg/tissue, respectively), and the amounts of PGD₂, PGF₂α and 6-keto PGF₁α were about of those of PGE₂. In the LW, the amounts of PGD₂, PGE₂, PGF₂α and 6-keto PGF₁α were about the same level (70–100 pg/LW).     

The effects of prostaglandins E2 and F2α on synaptosomal accumulation and release of H-norepinephrine

Prostaglandins (PG) of both the E and F series may serve as modulators of norepinephrine (NE) release from peripheral sympathetic neurons. We have studied the effects of PGE₂ and PGF_2α on the accumulation and release of ³H-NE in the CNS using synaptosomes isolated from rat hypothalami.The release of ³H-NE from synaptosomes superfused with Krebs-Ringer bicarbonate buffer was multiphasic with an initial fast release phase followed by a slower release. Raising KC1 concentration of the superfusion medium to 56mM during the slow release phase is known to stimulate ³H-NE release. PGE₂ (1 × 10⁻⁶M) attenuated ³H-NE release during the fast phase and reduced the amount of ³H-NE released due to KC1 stimulation. At lower concentrations of PGE₂ there was no change in the release profile. PGF_2α was without effect on ³H-NE release at all concentrations tested.The accumulation of ³H-NE was significantly diminished by PGE₂ at a concentration of 1 × 10⁻⁶M, while a lower concentration (1 × 10⁻⁷M) was ineffective. PGF_2α had no effect on ³H-NE accumulation at all concentrations investigated.