Prostaglandin E2 alters the metabolism of labelled glucose in uteri isolated from ovariectomized rats. Effects of 17-beta estradiol and indomethacin

Lipid metabolism in the embryos of diabetic rats during early organogenesis: modulatory effect of prostaglandin E2

The purpose of this work was to evaluate de novo lipid biosynthesis and the lipid profile, and to study the effect of prostaglandin E2 (PGE2; prostaglandin has previously been found to be involved in diabetes embryopathy) on lipid metabolism in embryos from control and streptozotocin-induced diabetic rats during organogenesis. Increased levels of triacylglycerols were found in embryos of diabetic rats compared with controls, whereas no differences were detected in the levels of cholesterol, cholesterylester, phosphatidylcholine and phosphatidylethanolamine. When the de novo synthesis of lipids in the embryo was studied using [14C]acetate as a tracer, a diminished rate of incorporation of [14C]acetate into the evaluated lipid classes was detected in the diabetic embryo compared with controls. Addition of PGE2 did not modify the incorporation of [14C]acetate into any of the lipid species of control embryos, but enhanced the incorporation of [14C]acetate into triacylglycerol, cholesterylesters, phosphatidylcholine and phosphatidylethanolamine of embryos from diabetic rats. The study's results show alterations in both synthesis and concentrations of lipids in the embryos of diabetic rats. Interestingly, the results demonstrate that the addition of PGE2, a prostaglandin that reverses the embryonic morphological abnormalities induced by diabetes, prevents disturbances in embryo lipid synthesis caused by diabetes.

Influence of interleukin-1alpha and COX-2 over the metabolism of arachidonic acid and glucose in isolated uterus of restricted diet rats

Isolated uteri from rats fed with a normal diet convert [14C]arachidonate into eicosanoids: PGE(2), PGF(2alpha), TXB(2) and 6-keto-F(1alpha). Restricted diet (50% of the normal diet, during 25 days) diminishes the levels of PGE(2), PGF(2alpha) and TXB(2). The addition of Interleukin-1alpha to the Krebs-Ringer bicarbonate medium increases sharply the production of eicosanoids. Inhibitors of nitric oxide synthase, Nomega-nitro-L-arginine methyl ester or aminoguanidine, do not prevent eicosanoids increase. Conversely, NS-398 (a selective inhibitor of COX-2) blocks the increase of eicosanoids while PGE(2) blocks eicosanoids production mediated by IL-1alpha. Other experiments with uteri of underfed rats confirm that interleukin-1alpha produces an increase in the glucose metabolism. The addition of Nomega-nitro-L-arginine methyl ester, aminoguadinine or NS-398 blocked such stimulation. It is concluded that Interleukin-1alpha produces an increase of glucose metabolism in uteri isolated from underfed rats by two different mechanisms, both involving COX-2: (1) nitric oxide independent and (2) nitric oxide dependent.

Effect of interleukin 1alpha and interleukin 2 over glucose metabolism in isolated uterus of restricted diet rats. Influence of NO and COX-2

A 25-day dietary restriction (50% of the normal diet) produce a fall in the production of 14CO2 from 14C-glucose in rats isolated uteri. The addition of 10 or 20 ngml(-1) interleukin 1alpha (IL-1alpha) or interleukin 2(IL-2) to the Krebs-Ringer bicarbonate solution medium stimulates glucose metabolism in uteri from underfed rats. Such concentrations are not effective in control rats. The addition of Nomega-nitro-L arginine methyl ester--an inhibitor of both the constitutive and inducible forms of nitric oxide synthase (NOS)--and of aminoguadinine--a preferential inhibitor of the inducible form of NOS--block such stimulation. In other experiments, the addition to the medium of arginine-a substrate for the formation of nitric oxide-increases interleukin stimulation of glucose metabolism, which is blocked by NOS inhibitor. At the same time, NS-398--a selective inhibitor of inducible cyclooxygenase (COX)--eliminates the interleukin metabolism stimulation. We conclude that IL-1alpha and IL-2 produce an increase of glucose metabolism in uteri isolated from underfed rats. Nitric oxide produced by the inducible form of NOS mediates the interleukins-induced glucose metabolism stimulation with the participation of inducible COX.

Influence of insulin on the metabolism of glucose in uteri isolated from ovariectomized and non ovariectomized underfed rats

The effects of insulin on the metabolism of U14C-glucose in uteri isolated from ovariectomized and non-ovariectomized rats receiving a restricted diet (50% of the normal food intake) for 25 days, were studied. As a result of food restriction, the production of 14CO2 diminishes in intact rats, while results are reversed in ovariectomized ones. Various concentrations of insulin were added to the medium, but only 0.50 IU. ml(-1)was effective in increasing glucose metabolism in intact rats receiving a restricted diet; neither underfed castrated animals nor control ones receiving a normal diet, reacted to this concentration. The increase of 14CO2 produced by insulin is not affected by acetyl salicylic acid. Insulin does not alter the effect of underfeeding over arachidonic acid metabolism. On the contrary, the increase in glucose metabolism was blocked by N(G)methyl-L-arginine or by hemoglobin, increased with the addition of L arginine and is not affected by acetyl salicylic acid. Hemoglobin and L-arginine show no effects without insulin. We can conclude that the stimulating effect of insulin on glucose metabolism in uteri isolated from intact rats subjected to dietary restriction, is nitric oxide dependent.

Blood flow-dependent prostaglandin f(2alpha) regulates intestinal glucose uptake from the blood

Intestinal glucose uptake (GUi) from blood increased when blood flow (BF) was increased. The increase in BF could elevate shear stress. Therefore, we hypothesize that shear stress-induced release of autacoids mediates the increase in GU(i). A surgically separated segment of small intestine was perfused in situ with the use of an arterial circuit in anesthetized cats. Arterial and portal blood samples were taken simultaneously for assessment of GU(i). Adenosine was used to elevate intestinal BF. The GU(i) increased by 45.0 +/- 18.3 from 25.3 +/- 3.8 micromol. min(-1). 100 g tissue(-1) when the BF increased about four times. It was not a direct effect of adenosine because GU(i) was not altered if the flow was held constant. This increase was blocked by a cyclooxygenase inhibitor, indomethacin, but not by nitric oxide synthase blocker N(G)-nitro-L-arginine methyl ester. Furthermore, prostaglandin F(2alpha) (PGF(2alpha)) but not PGE(2) or PGI(2) reversed the blockade of the increase in GU(i) after indomethacin during elevated blood flow, whereas they had no influence on basal uptake. The results suggest that shear stress-induced release of PGF(2alpha) mediated the increase in GU(i) when blood flow was elevated.

Effect of a restricted diet on the metabolism of glucose in uteri isolated from immature rats: influence of indomethacin and nordihydroguaiaretic acid

In immature female rats (21 days), a restricted diet (50% of the daily normal intake for 25 days) interrupts sexual development, leaving animals in a state of sexual immaturity. Food restriction does not affect the use of glycogen in uteri isolated and increases 14CO2 production from U14C-glucose in relation to animals receiving normal feeding that reach sexual maturity. Indomethacin and acetylsalicylic acid stop the increase of glucose metabolism produced by underfeeding, without affecting the uteri of rats receiving normal feeding. The addition of PGE2 and PGF2alpha changes the inhibitory effect of indomethacin. Nordihydroguaiaretic acid produces the opposite effect, increasing glucose metabolism only in uteri isolated from immature animals. These results show that immature animals have a higher glucose metabolism if compared to mature rats. The restricted diet, which slows down sexual maturity, keeps this parameter high due to the influence of some eicosanoids.

Effects of inhibitors of nitric oxide synthase on isolated uteri of fasting rats

The effects of inhibitors of nitric oxide synthase on the glucose metabolism of uteri isolated from 4-day underfed rats were studied. In control rats receiving normal feeding, the addition of indomethacin (5 x 10(-6) M); acetyl salicylic acid (10(-4) M); 400 microM of N(G)methyl-L-arginine, (L-NMMA) or 400 microM of sodium nitroprusside (SNP), does not modify the production of 14CO2 from U14C-glucose. On the contrary, in fasted rat uteri, indomethacin increases glucose oxidation significantly, while acetyl salicylic acid does not alter it. Also, the addition of L-NMMA has no effect. In another group of experiments, in the preparations containing indomethacin of uteri isolated from underfed rats, the addition of L-NMMA significantly changes the effect of indomethacin. Another inhibitor of nitric oxide synthase, N(omega)nitro-L-arginine methyl ester (L-NAME), or hemoglobin (2 microg ml(-1)) a nitric oxide scavenger have the same effects while N(omega)nitro arginine-D-methyl ester (D-NAME) does not. However (SNP), a nitric oxide donor, does not alter the production of 14CO2 in uteri isolated from fasted rats. These results show that in underfed rats, indomethacin increases glucose oxidation independently from its inhibiting effect on cyclooxygenase. Specific inhibitors of nitric oxide synthase can reverse this effect.

Do E-series prostaglandins and their metabolites influence oxidation of native and glycated low-density lipoproteins?

Oxidation of lipoproteins, and, in particular, low-density lipoproteins (LDL), has been shown to play a significant role in the pathogenesis of atherosclerosis. Oxidized LDL are endocytosed via scavenger receptors to form lipid-laden foam cells. The non-enzymatic reaction of glucose with proteins and lipoproteins results in a modified LDL involved in the pathogenesis of late complications in diabetes mellitus. In the present paper, the influence of various E-series prostaglandins (PGE1; 13,14-dihydro PGE1; 13,14-dihydro 15-keto PGE1; and PGE2) on oxidation of native and glycated LDL was investigated. The effect of these agents in the concentration range from 1 pg/mL to 1.6 micrograms/mL on copper-induced oxidation of native and glycated LDL was tested. The concentration of each agent causing the maximal effect on oxidation of native LDL, as measured by the formation of thiobarbituric acid-reacting substances, was chosen to estimate the effect on 2, 4, 8, and 24 h oxidation of glycated LDL. The study was performed with LDL isolated by sequential ultracentrifugation from normolipidemic individuals. LDL (0.25 mg protein/mL) was oxidatively modified with 5 microM CuSO4. The glycosylation of LDL was performed by incubation of LDL with 500 mM glucose for varying periods of time ranging from 10 to 31 days. Our results show that only 13,14-dihydro PGE1 significantly inhibits copper-induced oxidation of native LDL, while the other examined E-series prostaglandins in vitro are ineffective as reducing agents in LDL-oxidation.

Effect of fasting on the contractile activity and metabolism of labelled glucose and arachidonic acid in uteri isolated from intact and ovariectomized rat

The effects of fasting for 4 days on the isometric developed tension (IDT) and on the metabolism of labelled glucose and arachidonic acid in uteri from intact and spayed (25 days) rats, were explored. Starvation produces a fall in the contractile activity of intact rats, while in ovariectomized ones, no differences can be seen with respect to their controls. Fasting produces a fall in the glucose metabolism of both intact and ovariectomized rats, being more noticeable in the former group. Indomethacin (5 x 10(-6) M) increases the metabolism of labelled glucose in all experimental groups, significantly. The metabolism of exogenous arachidonic acid into different eicosanoids, PGE2, PGF2 alpha, 6-keto-F1 alpha and TXB2, shows that total food deprivation diminishes significantly the production of PGE2 in intact rats. In contrast, in ovariectomized starved rats, PGE2 increases markedly. The rest of the metabolites studied are not influenced by fasting. These results show that the effects of fasting on the contractile activity and on the release of some metabolites from arachidonic acid by the uteri isolated from intact rats are not seen in ovariectomized animals.

Prostanoid modulation of glucose transport in isolated diabetic rat uterus

3-O-14C-methyl-D-Glucose (3-O-MG) transport and 14C-saccharose incorporation were measured in isolated uterine strips from ovariectomized-estrogenized diabetic rats. Glucose transport was decreased in uterine strips from diabetic rats compared with control animals. PGE1 and PGE2 (10(-7) M) stimulated 3-O-MG transport, PGF2 alpha failed to modify this parameter at the same concentration, while insulin (0.5 U/ml) evoked an improvement 30% greater than PGs. In spite of the negative influence exerted by TXA2 over glucose metabolism in the isolated rat uterus, U46619, 10(-5) M (a TXA2 analogue), and OKY064, 10(-7) M (an inhibitor of TXA2 synthesis), failed to modify basal or insulin-treated hexose transport. Neither additive or synergistic interactions between PGE1 or PGE2 (10(-7) M) and insulin at 0.5 U/ml and 0.25 U/ml were detected. We conclude that the stimulatory action of PGE1 and PGE2 on glucose metabolism that has been previously described by us, involves enhancement of glucose transport.

Effects of ovarian steroids on glucose metabolism in uterus horns isolated from underfed rats. Influence of castration

The effect of a restricted diet (50% of the normal intake) during 25 days, on the glucose metabolism was explored in uterus horn strips isolated from intact and ovariectomized rats. In intact underfed rats, the formation of 14CO2 from U14C-glucose was significantly lower than in their controls. In castrated rats, the formation of 14CO2 increased after underfeeding. The return to ad libitum feeding increased glucose metabolism in both groups. Total food deprivation for 4 days diminished 14CO2 formation both in non-ovariectomized rats and in ovariectomized ones as measured at the end of this fasting period. This diminution was greater in intact rats. The increase of glucose metabolism provoked by the administration of s.c. estradiol, progesterone or their combination was more important in underfed intact animals. In intact rats, blood levels of endogenous estradiol and progesterone decreased as a result of underfeeding. In spayed ones, their low concentration increased in relation to their controls.

The role of nitric oxide in the metabolism of labeled glucose in isolated rat uterus. Influence of 17 beta-estradiol

The influence of nitric oxide (NO) on the production of 14CO2 from labeled glucose in uteri isolated from ovariectomized-estrogenized rats was studied. Nitroprusside, an NO donor (NP), 200 microM increased the formation of labeled CO2 from [U-14C]glucose. This effect was blunted by hemoglobin (Hb) 20 micrograms/mL, an NO scavenger. The addition of N-monomethyl arginine (NMMA), an inhibitor of NO synthase decreased the stimulatory action of NP at 400 mM. Incubation of uterine strips in the presence of NP plus acetylsalicylic acid (ASA) 10(-4) M (a cyclooxygenase inhibitor), inhibited the stimulatory action of NP on glucose metabolism. PGE2 (10(-7) M) added to the incubation medium containing NP and ASA reversed the effect of the inhibitor. Neither NP nor Hb nor NMMA modified the 14CO2 production from labeled glucose in uterine strips from ovariectomized rats. The addition of NP to the incubating medium increased PGE accumulation by uterine strips from rats treated with estradiol, but not in ovariectomized animals. These results suggest that NO exerts a positive influence on glucose metabolism and PGE synthesis in isolated rat uteri from estrogenized animals.

Influence of prostaglandins on glucose transport in isolated rat uterus

Glucose transport by uterine strips from ovariectomized estrogenized rats was explored. Sugar transport was significantly different from saccharose values (non-specific diffusion) only after 60 min of incubation. The addition of cytochalasin B demonstrated that we are measuring a specific mechanism for glucose transport. Insulin-enhanced sugar transport only at 0.5 or 0.25 U/ml prostaglandin E1 (PGE1), PGE2 and PGF2 alpha (10(-7) M) significantly improved glucose transport, but indomethacin (10(-6) M) failed in modifying this parameter in either control nor insulin-treated tissues. We did not observe an additive or synergistic action between PGE2 (10(-7) M) and insulin (used at maximal or submaximal concentration).

Different effect of a restricted diet on isolated uteri of ovariectomized and non-ovariectomized rats. Influence of indomethacin and prostaglandins

The effect of restricted diet (50% of the normal intake during 25 days) on the metabolism of labelled glucose, in uteri isolated from ovariectomized (25 days) and non-ovariectomized rats, was explored. In intact rats subjected to dietary restriction, the formation of 14CO2 from U 14C-glucose is significantly lower than in controls. Indomethacin increases glucose metabolism, being even higher in underfed rats' uteri. This effect is not altered by the addition of prostaglandins E1, E2 or F2 alpha to the medium. In castrated rats, the formation of 14CO2 increases due to underfeeding and this result is not altered by indomethacin. Glycogen and triglyceride values in the isolated uterus were measured immediately after killing (O time) and after 60 min of incubation in a glucose-free KRB medium. The post-incubation levels of glycogen from intact normal fed animals diminished in comparison to initial values, and this result was not altered by the addition of indomethacin. In rats subjected to dietary restriction, glycogen did not decline further after incubation, and the addition of indomethacin led to a significant fall. In spayed rats, glycogen diminished after 60 min both in normal fed rats and in underfed ones, and they were not affected by the indomethacin. In intact underfed rats, uterine triglycerides fall after 60 min. Indomethacin changes this situation, which is again evoked by the addition of PGF2 alpha. In ovariectomized rats, uterine triglycerides are neither altered by a restricted diet nor affected by indomethacin.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of a restricted diet on in vitro spontaneous activity and glucose metabolism in isolated rat uterus. Influence of castration

The effects of a restricted-diet (50% of the normal intake during 25 d) on the isometric developed tension (IDT), the metabolism of labelled glucose, and the levels of glycogen, of uteri isolated from ovariectomized (25 d) and non-ovariectomized rats were explored. The restriction of food intake produced a fall in the contractile activity of normal, non-ovariectomized, rats in permanent diestrous compared to normally fed rats in diestrous. On the contrary, in castrated rats, the IDT of isolated uterus from underfed rats, was significantly higher than its normal-fed controls. In normal rats the formation of 14CO2 from U 14C-glucose was significantly lower in uterine preparations from restricted-diet animals than the control one. On the other hand, in castrated rats, the formation of 14CO2 increased as a result of underfeeding. The post-incubation levels of glycogen in uteri from normal-fed animals diminished significantly in comparison to 0 time values. In uteri from rats subjected to a dietary restriction, the initial glycogen values were lower than in normal-fed controls, but they did not decline further after incubation in KRB medium. On the contrary, even when the levels of glycogen were significantly lower at 0 time than in diestrous animals, they diminished in ovariectomized rats after incubation, no matter the diet. The above results indicate that the effects of restricted-diet on contractile activity, levels of glycogen and glucose metabolism were not observed in ovariectomized rats. Further researches are needed to clarify that point.

Effects of prostaglandins and of leukotriene C4 on the metabolism of labelled glucose in uteri isolated from ovariectomized-diabetic rats. Influences of 17-beta-estradiol and of insulin

The influences of exogenous PGE1, PGE2, PGF2 alpha, LTC4 and insulin (INS) on glucose oxidation in uterine strips isolated from ovariectomized-diabetic (OVD) and ovariectomized-estrogenized-diabetic (OVED) rats, were studied. The spayed animals were made diabetic by a single injection of streptozotocin (65 mg.kg-1 body weight). The effects of prostaglandins were studied in the presence of indomethacin (INDO) in the incubation medium and the effects of LTC4 in the presence of INDO and nordihydroguaretic acid (NDGA). These procedures were followed in order to avoid the possible influences of endogenous derivatives of arachidonic acid formed by the activity of cyclooxygenase and of lipoxygenases. INDO and NDGA did not modify significantly the formation of 14CO2 from U-14C-glucose in uteri from OVD and from OVED rats. INS (0.5 U.ml-1) augmented significantly labelled glucose metabolism, both in OVD as well as in OVED rats. On the other hand, added PGE1, PGE2, PGF2 alpha or LTC4 failed to alter glucose metabolism in uteri from OVD rats. Only PGE1 was able to increase significantly (p less than 0.05) 14CO2 production from labelled glucose in uterine strips from OVED rats. In OVD rats the stimulatory action of INS on uterine glucose metabolism was significantly enhanced by exogenous PGE1, but not modified by PGE2, by PGF2 alpha or by LTC4. PGE1, PGE2 and LTC4 sensitized uterine strips obtained from OVED rats to the effects of INS. The possible importance of PGE1 in improving uterine glucose metabolism in diabetic animals is discussed.

A novel enhancing effect of platelet activating factor (PAF) on glucose oxidation in uteri from pregnant rats. Participation of prostaglandins and leukotrienes

The effects of platelet activating factor (PAF) on glucose oxidation in uterine strips isolated from rats in the 4 th and 5 th day of pregnancy, were explored. PAF, at a concentration of 10(-10) and 10(-8) M, augmented significantly the generation of 14CO2 from labelled glucose in uteri from pregnant rats in the 4 th day of pregnancy. When the tissue was obtained from 5 days pregnant rats, the addition of PAF at 10(-8) increased significantly more than PAF at 10(-10) M the metabolism of glucose. On the other hand, PAF at 10(-8) M failed to alter the uterine basal production of 14CO2 from labelled glucose in animals at estrus. BN52021, a specific PAF antagonist employed at 10(-5) M, blocked completely the action of PAF in the pregnant rat uterus. PGE1, PGE2 and PGF2 alpha enhanced significantly the formation of 14CO2 from labelled glucose in uteri from 5 days pregnant rats. Indomethacin, a well known inhibitor of prostaglandin synthesis, did not alter the basal glucose metabolism in uteri from 5 days pregnant rats, but antagonized completely the stimulating action of PAF on 14CO2 production from labelled glucose an effect that was partially reverted by the addition of PGE1, PGE2 or PGF2 alpha (10(-7) M). Furthermore, nordihydroguaiaretic acid (NDHGA), a specific inhibitor of 5-lipoxygenase at 10(-5) M, as well as FPL-55712, an antagonist of leukotrienes (LTs), at the same concentration, blocked the action of PAF on the metabolism of glucose. The action of NDHGA was partially counteracted by the addition of LTC4 at 10(-7) M.(ABSTRACT TRUNCATED AT 250 WORDS)

The influences of leukotriene C4 on the metabolism of labelled glucose in uteri isolated from ovariectomized and from ovariectomized-estrogenized rats. Effects of indomethacin

The effects of leukotriene C4 (LTC4), nordihydroguaiaretic acid (NDGA) and FPL-55712, on the metabolism of labelled glucose (U14C-glucose) in uteri isolated from spayed rats and from spayed-estrogenized rats, incubated in the presence and in the absence of indomethacin, were explored. Indomethacin (10(-6)M), enhanced significantly 14CO2 formation from labelled glucose, both in uteri from ovariectomized rats and in uteri from ovariectomized-estrogenized animals. In uteri from spayed not-estrogenized rats, expose 'in vitro' to indomethacin, NDGA (10(-5)M), an inhibitor of the 5-lipoxygenase, as well as FPL-55712 (10(-5)M), a LT antagonist, reduced significantly the enhanced metabolism of glucose evoked by indomethacin, an inhibitor of the cyclo- oxygenase. On the other hand, LTC4 (10(-7)M), augmented the metabolism of labelled glucose, reaching values even greater than those induced by indomethacin. In the spayed-estrogenized group LTC4 (10(-10)-10(-7)M) enhanced the formation of labelled CO2 from labelled glucose as much as indomethacin (10(-6)M) did, whereas neither NDGA nor FPL-55712 were effective. In addition, in uteri from ovariectomized-estrogenized rats, incubated with indomethacin, NDGA and FPL-55712, decreased the augmenting action of indomethacin on glucose metabolism, whereas LTC4 (10(-10)-10(-7)M) evoked a complete reversal of the inhibitory influence of NDGA on the formation of 14CO2. The force-going results suggest that tissue 5-lipoxygenase products, particularly LTC4, are involved in the metabolism of labelled glucose by rat uteri, mainly when the cyclo-oxygenase pathway is inhibited by indomethacin and the tissue is deprived of estradiol.(ABSTRACT TRUNCATED AT 250 WORDS)