Indacrinone: modification of diuretic, uricosuric, and kaliuretic actions by amiloride

1. The metabolism of some vasoactive hormones perfused through pulmonary vessels was studied in samples of human lung obtained at operations. 2. 5-Hydroxytryptamine was inactivated and this inactivation was inhibited by desmehtylimipramine and mebanazine. 3. Beta-[14C]Phenylethylamine was also metabolized in human lung. 4. Prostaglandin E2 was inactivated and this inactivation inhibited by bromocresol green and frusemide. 5. About 10% of the radioactivity from infused [14C]arachidonic acid emerged from the lung and a small amount of biological activation occurred. 6. Of [14C]arachidonic acid retained by the lung, most was present in phopholipid with lesser amounts in neutral lipid and free acid fractions. 7. The fate of the hormones studied was qualitatively similar to their fate in animal lungs.     

Incorporation of exogenous fatty acids into molecular species of rat hepatocyte phosphatidylcholine

Freshly isolated rat hepatocytes were incubated for 20 and 60 min with [U-14C]glycerol and unlabeled palmitic (16:0), oleic (18:1), or arachidonic (20:4) acid, added as albumin complex in 10% ethanol. Each fatty acid increased glycerol incorporation into total lipids by a factor of 8-10 over control, whereas ethanol alone (final concentration 100 mM) yielded a threefold increase of glycerol uptake. Glycerol incorporation stopped after 20 min and cellular acyl turnover continued in the absence of useable labeled substrate. In each case, radioactivity recovered in hepatocyte lipids was present primarily in triacylglycerol (37-64%), phosphatidylcholine (22-37%), and phosphatidylethanolamine (10-22%). Separation by high-performance liquid chromatography of the diacylglycerol dinitrobenzoates derived from phosphatidylcholine showed that the molecular species had drastically different labeling patterns in the presence of the exogenous fatty acids, whereas the pattern obtained in the presence of ethanol alone was virtually the same as that for the control incubations. The labeling patterns indicated that exogenous fatty acids, including arachidonic acid, were incorporated into phosphatidylcholine primarily by the de novo pathway yielding highly labeled species with the exogenous fatty acid esterified at both the sn-1 and sn-2 positions of glycerol. After 20 min incubation with arachidonic acid, the 20:4-20:4 phosphatidylcholine contained about one-half of the [U-14C]glycerol label recovered in this lipid class. The data also showed that newly synthesized molecular species were extensively remodeled within 1 h.     

Potential use of cytokine therapy in poultry

The time course of incorporation of [14C]arachidonic acid and [3H]docosahexaenoic acid into various lipid fractions in placental choriocarcinoma (BeWo) cells was investigated. BeWo cells were found to rapidly incorporate exogenous [14C]arachidonic acid and [3H] docosahexaenoic acid into the total cellular lipid pool. The extent of docosahexaenoic acid esterification was more rapid than for arachidonic acid, although this difference abated with time to leave only a small percentage of the fatty acids in their unesterified form. Furthermore, uptake was found to be saturable. In the cellular lipids these fatty acids were mainly esterified into the phospholipid (PL) and the triacyglycerol (TAG) fractions. Smaller amounts were also detected in the diacylglycerol and cholesterol ester fractions. Almost 60% of the total amount of [3H]Docosahexaenoic acid taken up by the cells was esterified into TAG whereas 37% was in PL fractions. For arachidonic acid the reverse was true, 60% of the total uptake was incorporated into PL fractions whereas less than 35% was in TAG. Marked differences were also found in the distribution of the fatty acids into individual phospholipid classes. The higher incorporation of docosahexaenoic acid and arachidonic acid was found in PC and PE, respectively. The greater cellular uptake of docosahexaenoic acid and its preferential incorporation in TAG suggests that both uptake and transport modes of this fatty acid by the placenta to fetus is different from that of arachidonic acid.     

Binocular processes in vernier acuity

The contribution of synthesis and dietary sequestration to the high arachidonate content of the lone star tick, Amblyomma americanum, salivary glands was investigated by assessing the salivary metabolites of various radiolabeled fatty acid substrates administered to partially fed females. A portion of each of the fatty acids studied was incorporated into the fatty acid moiety of the phospholipid fraction. [14C]acetate was metabolized only into myristic, palmitic, palmitoleic, steric, and oleic acids. [3H]oleic acid, [14C]linoleic acid, [14C]gamma-linolenic acid and [14C]eicosatrienoic acids were incorporated into salivary gland phospholipids but underwent little change including elongation and/or desaturation to arachidonate. Ingested [3H]arachidonic acid was readily taken up by the salivary gland and distributed among the lipid classes in a pattern markedly different from that of the other fatty acids tested. We conclude that ticks are unable to synthesize arachidonic acid for incorporation into the salivary glands, but rather sequester it from the host bloodmeal.     

5-HT1C receptor-mediated phosphoinositide hydrolysis in the rat choroid plexus after chronic treatment with clozapine

Chronic treatment with clozapine (14 days; 10 and 25 mg/kg/day) decreases 5-HT1C receptor density but not affinity in rat choroid plexus measured with [3H]mesulergine. We now report the effects of the same clozapine treatment regimens on the function of 5-HT1C receptors (measured by maximal stimulation of 5-HT1C receptor-mediated phosphoinositide hydrolysis) in relation to receptor changes in rat choroid plexus. Quantitative 5-HT1C receptor autoradiography indicated that chronic clozapine treatment decreased, in a dose-related manner, 5-HT1C receptor binding sites labeled by antagonist ([3H]mesulergine) and agonist ([125I](+/-)-1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane, [125I]DOI) radioligands. However, only the higher dose of clozapine decreased statistically significantly the maximal 5-HT1C receptor-mediated phosphoinositide hydrolysis response. Chronic administration of haloperidol (0.5 mg/kg/day) did not change any of the 5-HT1C receptor parameters. In conclusion, chronic clozapine treatment is able to modulate the function of 5-HT1C receptors. This further strengthens the possibility that 5-HT1C receptors may contribute to some of the atypical effects of clozapine.     

Arachidonate 15-lipoxygenase in human corneal epithelium and 12- and 15-lipoxygenases in bovine corneal epithelium: comparison with other bovine 12-lipoxygenases

Lipoxygenases of bovine and human corneal epithelia were investigated. The bovine epithelium contained an arachidonate 12-lipoxygenase and a 15-lipoxygenase. The 12-lipoxygenase was found in the microsomal fraction, while the 15-lipoxygenase was mainly present in the cytosol (100,000 x g supernatant). 12S-Hydroxyeicosatetraenoic acid (12S-HETE) and 15S-hydroxyeicosatetraenoic acid (15S-HETE) were identified by GC-MS and chiral HPLC. BW A4C, an acetohydroxamic acid lipoxygenase inhibitor, reduced the biosynthesis of 12S-HETE and 15S-HETE by over 90% at 10 microM. IC50 for the 12-lipoxygenase was 0.3 microM. The bovine corneal 12-lipoxygenase was compared with the 12-lipoxygenases of bovine platelets and leukocytes. All three enzymes metabolized 14C-labelled linoleic acid and alpha-linolenic acid poorly (5-16%) in comparison with [14C]arachidonic acid. [14C]Docosahexaenoic acid and [14C]4,7,10,13,16-docosapentaenoic acid appeared to be less efficiently converted by the corneal enzyme than by the platelet and leukocyte enzymes. Immunohistochemical analysis of the bovine corneal epithelium using a polyclonal antibody against porcine leukocyte 12-lipoxygenase gave positive staining. The cytosol of human corneal epithelium converted [14C]arachidonic acid to one prominent metabolite. The product co-chromatographed with 15S-HETE on reverse phase HPLC, straight phase HPLC and chiral HPLC. Our results suggest that human corneal epithelium contains a 15-lipoxygenase and that bovine corneal epithelium contains both a 15-lipoxygenase and a 12-lipoxygenase. The corneal 12-lipoxygenase appears to differ catalytically from earlier described bovine 12-lipoxygenases.     

U73122 affects the equilibria between the phosphoinositides as well as phospholipase C activity in unstimulated and thrombin-stimulated human and rabbit platelets

The effect of the putative phospholipase C inhibitor U73122 (1-[6-[[17 beta-3-methoxyestra-1,3,5(10)trien-17-yl]amino]hexyl]-1H- pyrrole-2,5-dione) on platelet phosphoinositide metabolism was examined. In unstimulated rabbit platelets prelabeled with [32P]phosphate and [3H]glycerol, U73122 caused decreases of up to 50% in the amount and labeling of phosphatidylinositol 4,5-bisphosphate (PIP2) and phosphatidylinositol 4-phosphate (PIP), but not phosphatidylinositol, within 1 min of addition and inhibited incorporation of [32P]phosphate and [3H]glycerol into PIP2 and PIP during incubations of up to 1 hr. These results point to inhibition by U73122 of the phosphatidylinositol and PIP kinases, although stimulation of the PIP and PIP2 phosphomonoesterases could be involved. In platelets stimulated with thrombin, U73122 blocked the thrombin-induced increases in PIP and phosphatidic acid; most increases in the inositol phosphates were blocked, but significant formation of inositol phosphate was found at 120 sec. The effects on inositol phosphates and phosphatidic acid were consistent with U73122 inhibiting phospholipase C; however, parallel dose-response curves with U73122 for the decreases in PIP2 and inhibition of thrombin-stimulated formation of inositol phosphates indicate that the inhibition of phospholipase C by U73122 may be due to decreased substrate availability rather than direct inhibition. Thrombin-stimulated decreases in PIP2 and PIP, found in the presence of U73122, could be explained by the action of phospholipase C in the absence of resynthesis. Although the changes were not as large, U73122 had a similar effect on PIP2 and PIP in unstimulated and stimulated human platelets.(ABSTRACT TRUNCATED AT 250 WORDS)     

Metabolism of [1-(14)C] and [2-(14)C] leucine in cultured skin fibroblasts from patients with isovaleric acidemia. Characterization of metabolic defects

Leucine metabolism in cultured skin fibroblasts from patients with isovaleric acidemia was compared with that in normal fibroblasts and in cells from patients with maple syrup urine disease using [1-(14)C] and [2-(14)C] leucine as substrates. Inhibitory effects of methylenecyclopropylacetic acid on leucine metabolism in normal cells were also investigated. Production of 14CO2 from [2-(14)C] leucine was very reduced (96-99%) in both types of mutant cells. Radioactive isovaleric acid accumulated in assay media with isovaleric acidemia cells but not in those with maple syrup urine disease cells. Unexpectedly, 14CO2 production from [1-(14)C] leucine was partially depressed (80%) in isovaleric acidemia cells whereas in maple syrup urine disease cells it was strongly depressed (99%) as expected. These two mutant cells were clearly distinguished by detection of 14C-isovaleric acid accumulation after incubation with [2-(14)C] leucine. A pattern of inhibition of leucine oxidation similar to that seen in isovaleric acidemia cells was induced in normal cells by the addition of 0.7 mM methylenecyclopropylacetic acid to the assay medium. The partial inhibition of [1-(14)C] leucine oxidation seen in isovaleric acidemia cells and also in normal cells in the presence of the inhibitor appears to be, at least in part, due to an accumulation of isovalerate in the cells. Isovaleric acid (5-10) mM) inhibited [1-(14)C] leucine oxidation 32-68% when added to the assay medium with normal cells. Addition of flavin adenine dinucleoside to culture medium or assay medium or both did not restore oxidation of either leucine substrate in isovaleric acidemia cells.     

Laxity and flexibility of the ankle following reconstruction with the Chrisman-Snook procedure

Anandamide (arachidonylethanolamide) is an endogenous ligand for cannabinoid receptors, and exerts various cannabimimetic activities. Since cannabinoids and anandamide were pharmacologically active with the eye, we examined metabolism of anandamide in a variety of porcine ocular tissues. In the presence of ethanolamine, [14C]arachidonic acid was converted to [14C]anandamide by a homogenate of retina, choroid, iris, optic nerve and lacrimal gland with a specific enzyme activity of 1.9-4.2 nmol min-1 mg-1 protein at 37 degrees C. On the other hand, [14C]anandamide was hydrolysed to [14C]arachidonic acid by a homogenate of each tissue with a specific enzyme activity of 1.2-3.5 nmol min-1 mg-1 protein. Thus, both activities of anandamide synthase and hydrolase were found in these ocular tissues. As for the subcellular distribution, the two enzyme activities were mostly recovered in particulate fractions rather than the cytosol. With the retina microsome palmitic acid was converted to its ethanolamide at a lower rate than arachidonic acid, and palmitoylethanolamide was less active than anandamide as a substrate for the hydrolase.     

Synthesis of deoxyglucose-1-phosphate, deoxyglucose-1,6-bisphosphate, and other metabolites of 2-deoxy-D-[14C]glucose in rat brain in vivo: influence of time and tissue glucose level

When the kinetics of interconversion of deoxy[14C]glucose ([14C]DG) and [14C]DG-6-phosphate ([14C]DG-6-P) in brain in vivo are estimated by direct chemical measurement of precursor and products in acid extracts of brain, the predicted rate of product formation exceeds the experimentally measured rate. This discrepancy is due, in part, to the fact that acid extraction regenerates [14C]DG from unidentified labeled metabolites in vitro. In the present study, we have attempted to identify the 14C-labeled compounds in ethanol extracts of brains of rats given [14C]DG. Six 14C-labeled metabolites, in addition to [14C]DG-6-P, were detected and separated. The major acid-labile derivatives, DG-1-phosphate (DG-1-P) and DG-1,6-bisphosphate (DG-1,6-P2), comprised approximately 5 and approximately 10-15%, respectively, of the total 14C in the brain 45 min after a pulse or square-wave infusion of [14C]DG, and their levels were influenced by tissue glucose concentration. Both of these acid-labile compounds could be synthesized from DG-6-P by phosphoglucomutase in vitro. DG-6-P, DG-1-P, DG-1,6-P2, and ethanol-insoluble compounds were rapidly labeled after a pulse of [14C]DG, whereas there was a 10-30-min lag before there was significant labeling of minor labeled derivatives. During the time when there was net loss of [14C]DG-6-P from the brain (i.e., between 60 and 180 min after the pulse), there was also further metabolism of [14C]DG-6-P into other ethanol-soluble and ethanol-insoluble 14C-labeled compounds. These results demonstrate that DG is more extensively metabolized in rat brain than commonly recognized and that hydrolysis of [14C]DG-1-P can explain the overestimation of the [14C]DG content and underestimation of the metabolite pools of acid extracts of brain. Further metabolism of DG does not interfere with the autoradiographic DG method.     

Stereoselective epoxidation of arachidonic acid by cytochrome P-450s 2CAA and 2C2

In the present study, we determined the stereoselective epoxidation of arachidonic acid by cytochrome P-450 (P-450) 2CAA and P-450 2C2, two arachidonic acid epoxygenases found in rabbit renal cortex, by chiral normal-phase high-performance liquid chromatography (HPLC)-analysis. Purified P-450 2CAA reconstituted with P-450 oxidoreductase, lipid and cytochrome b5 or microsomes isolated from COS-1 cells expressing P-450 2C2 were incubated in the presence of [1-14C]arachidonic acid. The epoxide metabolites 14,15- and 11,12-epoxyeicosatrienoic acids (EETs) were purified by reverse-phase HPLC and derivatized to methyl (14,15-EET) and pentafluorobenzyl (11,12-EET) esters. Enantiomers of 14,15-EET-methyl ester and 11,12-EET-pentafluorobenzyl ester were resolved on Chiralcel OB and OD columns, respectively, with a mobile phase of 0.15% 2-propanol in n-hexane. P-450 2CAA and P-450 2C2 produce 11,12- and 14,15-EETs in distinct ratios but are equally stereoselective at the 11,12-position. P-450 2CAA produced 11(S), 12(R)-EET with 63% stereoselectivity, and P-450 2C2 produced the same enantiomer with 61% stereoselectivity. Both enzymes are also stereoselective at the 14,15- position, preferentially producing the 14(R), 15(S)-EET. P-450 2CAA produces this enantiomer with 72% selectivity, and P-450 2C2 produces it with 62% selectivity. The results of this study indicate that P-450 2CAA and P-450 2C2 are not only regioselective but also exhibit a high degree of stereoselectivity.     

Bacterial colonization of distal airways in healthy subjects and chronic lung disease: a bronchoscopic study

[14C]-labelled palmitic acid (PA), oleic acid (OA), linoleic (LA) and arachidonic (AA) acids were transferred from macrophages (M phi) to lymphocytes (LY) when equal numbers of the two cell types were co-cultured. The relative degree and amounts of the fatty acids transferred from M phi to LY are as follow: AA (368.57 +/- 21.62) = OA (274.52 +/- 15.41) > LA (42.11 +/- 8.31) = PA (36.53 +/- 2.45). The transfer units are nmol/10(10) M phi/10(10) LY and the values are mean +/- SEM for 7 experiments. The [14C]-radioactivity transferred was mainly directed to the phospholipid fraction of the lymphocytes (85% by PA, 86% by LA, 83% by OA and 79% by AA). In the same order as above, phosphatidylcholine was the phospholipid moiety most heavily labelled (82% by PA, 71% by LA, 66% by OA and 47% by AA). The amount of [14C]-radioactivity transferred to stimulated lymphocytes of thioglycollate treated animals remained unchanged for LA, PA and AA but reduced for OA (71%). The significance of these observations for the immune functions of the cells and resolution of the question of whether some of the [14C]-isotope transfer involves a component of exchange or is unequivocally net fatty acid mass transfer are still being investigated.     

Utilization of 1-14C- glucose, 1-14C-acetate and 1-14C-palmitate during lipid synthesis in vitro in the liver and skeletal muscles of pigs at different ontogenic stages

The specific radioactivity of lipids synthesized in the liver and quadriceps muscle of 110-day embryos, and 1-, 30-, 60-, 90-day and 12-month pigs in vitro from [1-14C]acetate, [1-14C] glucose and [1-14C] palmitate was investigated. The lipid synthesis from most of the above compounds in the fetal liver developed at a greater rate and in the fetal skeletal muscles at a smaller rate than in livers and skeletal muscles of newborn piglets. During the first months after birth the lipid synthesis from [1-14C] acetate, [1-14C] glucose and [1-14C] palmitate in the liver increased gradually. At the same time the lipid synthesis in skeletal muscles from [1-14C]glucose and [1-14C]palmitate decreased and from [1-14C] acetate increased. The utilization of the above compounds in the lipid synthesis of the liver and quadriceps muscle of pigs follows the decreasing order: [1-14C] palmitate greater than [1-14C]acetate greater than [1-14C]glucose.     

Biotransformation of 17-alkylsteroids in the equine: gas chromatographic-mass spectral identification of ten intermediate metabolites of methyltestosterone

Parenterally administered domoic acid, a structural analog of the excitatory amino acids glutamic acid and kainic acid, has specific effects on brain histology in rats, as measured using different anatomic markers. Domoic acid-induced convulsions affects limbic structures such as hippocampus and entorhinal cortex, and different anatomic markers can detect these neurotoxic effects to varying degrees. Here we report effects of domoic acid administration on quantitative indicators of brain metabolism and gliosis. Domoic acid, 2.25 mg/kg i.p., caused stereotyped behavior and convulsions in approximately 60% of rats which received it. Six to eight days after domoic acid or vehicle administration, the animals were processed to measure regional brain incorporation of the long-chain fatty acids [1-(14)C]arachidonic acid ([14C]AA) and [9,10-(3)H]palmitic acid ([3H]PA), or regional cerebral glucose utilization (rCMRglc) using 2-[1-(14)C]deoxy-D-glucose, by quantitative autoradiography. Others rats were processed to measure brain glial fibrillary acidic protein (GFAP) by enzyme-linked immunosorbent assay. Domoic acid increased GFAP in the anterior portion of cerebral cortex, the caudate putamen and thalamus compared with vehicle. However, in rats that convulsed after domoic acid GFAP was significantly increased throughout the cerebral cortex, as well as in the hippocampus, septum, caudate putamen, and thalamus. Domoic acid, in the absence of convulsions, decreased relative [14C]AA incorporation in the claustrum and pyramidal cell layer of the hippocampus compared with vehicle-injected controls. In the presence of convulsions, relative [14C]AA incorporation was decreased in hippocampus regions CA1 and CA2. Uptake of [3H]PA into brain was unaffected. Relative rCMRglc decreased in entorhinal cortex following domoic acid administration with or without convulsions. These results suggest that acute domoic acid exposure affects discrete brain circuits by inducing convulsions, and that domoic acid-induced convulsions cause chronic effects on brain function that are reflected in altered fatty acid metabolism and gliosis.     

Phospholipase D- and protein kinase C isoenzyme-dependent signal transduction pathways activated by the calcitonin receptor

The calcitonin receptor expressed by the porcine LLC-PK1 renal tubule cells is a seven-transmembrane domain, G protein-coupled receptor activating adenylyl-cyclase and phospholipase C. Salmon calcitonin stimulated dose- and time-dependent release of the phospholipase D-dependent phosphatidylcholine product [3H] choline with an EC50 = 2.5 +/-0.3 x 10(-8) M, similar to that determined for phosphoinositide metabolism (EC50 = 4.5 +/-1.0 x 10(-8)M). The hormone failed to induce release of [3H]phosphocholine and [3H]glycerophosphocholine, ruling out activation of phosphatydilcholine-specific phospholipase C and phospholipase A. Calcitonin stimulated phosphatidic acid, a product of phospholipase D-dependent phosphatydilcholine hydrolysis. Activation of phospholipase D was confirmed by release of [3H]phosphatydilethanol, a specific and stable product in the presence of a primary alcohol. Activation of calcitonin receptor induced diacylglycerol formation, with a rapid peak followed by a prolonged increase, due to activation of phospholipase C and of phospholipase D. Consequently, the protein kinase-C alpha, but not the delta isoenzyme, was cytosol-to-membrane translocated by approximately 50% after 20 min exposure to calcitonin, whereas protein kinase-C zeta, which was approximately 40% membrane-linked in unstimulated cells, translocated by approximately 19%. The human calcitonin receptor expressed by BIN-67 ovary tumor cells, although displaying higher affinity for calcitonin, failed to activate phospholipase D and protein kinase-C in response to the hormone. This receptor lacks the G protein binding consensus site due to the presence of a 48-bp cassette encoding for a 16-amino acid insert in the predicted first intracellular loop. This modification is likely to prevent the calcitonin receptor from associating to phospholipase-coupled signaling.     

Active and passive factors in inferior glenohumeral stabilization: a biomechanical model

M-5011 (d-2-[4-(3-methyl-2-thienyl)phenyl]propionic acid) is a newly developed nonsteroidal anti-inflammatory drug (NSAID) that displays potent anti-inflammatory and analgesic properties with low ulcerogenic activities in animal models. In this study, the effects of M-5011 on arachidonic acid (AA) metabolism in synovial fibroblasts from patients with rheumatoid arthritis were evaluated and compared with those of other NSAIDs in vitro. Either M-5011 or ketoprofen potently inhibited prostaglandin (PG) E2 production by cyclooxygenase (COX)-2 from exogenous AA in interleukin-1beta (IL-1beta)-stimulated cells. The IC50 values of M-5011 and ketoprofen were 4.4 x 10(-7) and 5.9 x 10(-7) M, respectively. However, diclofenac and indomethacin were one order less potent. Although the latter two drugs exhibited time-dependent and irreversible inhibition on COX-2 in IL-1beta-stimulated cells, the inhibitory effects of M-5011 and ketoprofen were reversible. PGE2 production by COX-1 from exogenous AA in non-stimulated cells was also inhibited by M-5011 with a potency less than that of ketoprofen. In addition, M-5011 inhibited [14C]AA release from prelabeled synovial cells stimulated with bradykinin. However, ketoprofen hardly affected the [14C]AA release. It is likely that the effects of M-5011 on AA metabolism are, in part, responsible for its in vivo efficacy and safety profile.     

Insight and competence to consent to psychiatric hospitalization

The effect of chronic ethanol consumption (2 months) on atrial contractility and the myocardial phosphoinositide signaling system was examined in rat heart. Two months of ethanol consumption was not associated with changes in heart weight-to-body weight ratios; however, developed twitch tension was significantly lower in the ethanol atria compared with the control atria. Cytosolic and membrane-associated phospholipase C activity in atrial and ventricular tissue was measured and ethanol consumption was only associated with changes in ventricular cytosolic phospholipase C activity. When examining alpha(1)-adrenergic stimulated phosphoinositide turnover in [3H]inositol radiolabeled left atria, no differences in phenylephrine (10 microM)-stimulated inositol monophosphate, inositol bisphosphate, inositol trisphosphate, and inositol tetrakisphosphate were found between groups before or at various times after the addition of phenylephrine. It is concluded that short-term ethanol consumption is associated with depressed contractile function, but not the development of hypertrophy or changes in alpha(1)-adrenoreceptor-stimulated phosphoinositide turnover.     

Effects of feeding medium-chain triacylglycerols on maternal lipid metabolism and pup growth in lactating rats

To study the effects of medium-chain triacylglycerols (MCT) on maternal lipid metabolism and pup growth, MCT (200 g/kg) were incorporated into a commercial chow diet and fed to lactating rats for 8-10 d. The results were compared with similar diets containing sunflower oil (polyunsaturated fatty acids; PUFA), tristearin (saturated fatty acid) or triolein (monounsaturated fatty acid). There was decreased food and energy intake with the MCT diet and this was accompanied by decreased (35%) pup growth. All the high-fat diets inhibited lipogenesis in vivo in the lactating mammary gland, the order of effectiveness being PUFA > triolein > tristearin > MCT. Only the MCT diet increased the rate of hepatic lipogenesis (180%). Experiments feeding an MCT meal containing [1-14C]octanoate indicated that very little (3-4%) of the C was present in mammary gland lipid, unlike the findings with [1-14C]triolein meal (40%). The major portion (65%) of the absorbed [1-14C]octanoate was oxidized to 14CO2. There was no evidence for adaptation of the mammary gland to increased dietary lipid uptake on the triolein or MCT diets. It is concluded that the decreased pup growth on the MCT diet is due in part to the decreased energy intake and to the inability of dietary medium-chain fatty acids to provide substrates for milk lipid synthesis.     

Reduced effects of L-carnitine on glucose and fatty acid metabolism in myocytes isolated from diabetic rats

Depressed glucose utilization and over-reliance of muscle tissues on fat represents a major metabolic disturbance in diabetes. This study was designed to investigate the relationship between fatty acid oxidation and glucose utilization in diabetic hearts and to examine the role of L-Carnitine on the utilization of these substrates in diabetes. 14CO2 release from [1-14C]pyruvate (an index of PDH activity), [2-14C]pyruvate and [6-14C]glucose (an index of acetyl-CoA flux through the Krebs cycle), [U-14C]glucose (an index of both PDH and acetyl-CoA flux through the Krebs cycle), and [1-14C]palmitate oxidation were studied in cardiac myocystes isolated from normal and streptozotocin-injected rats. Palmitate oxidation was increased twofold in diabetic myocytes compared to normal cells (5.4 +/- 1.45 vs 2.35 +/- 0.055 nmol/mg protein/30 min, p > 0.05). L-Carnitine (5 mM) significantly increased palmitate oxidation (60-70%) in normal cells but had no effect on diabetic cells. The activity of PDH and acetyl-CoA flux through the Krebs cycle was severely depressed in diabetes (58.14 +/- 20.27 and 8.63 +/- 0.62 in diabetes vs 128.75 +/- 11.47 and 24.84 +/- 7.81 nmol/mg protein/30 min in controls, p > 0.05, respectively). The efflux of acetylcarnitine, a by-product of PDH activity was also much lower in diabetic cells than in normal cells but had no effect in diabetes. L-Carnitine also had no effect on 14CO2 release from [U-14C]glucose but significantly decreased that from [6-14C]glucose, which reflects oxidative metabolism suggesting that L-Carnitine decreases oxidative glucose utilization. Thus, these data suggest that the overreliance on fat in diabetes may be in part secondary to a reduction of carbohydrate-generated acetyl-CoA through the Krebs cycle.     

Proton-cotransport of pravastatin across intestinal brush-border membrane

PURPOSE: The purpose of the present study is to clarify the intestinal brush-border transport mechanism of a weak organic acid, pravastatin, an HMG-CoA reductase inhibitor. METHODS: The transport of pravastatin was studied by using intestinal brush-border membrane vesicles prepared from rabbit jejunum, and uptake by the membrane vesicles was measured using rapid filtration technique. RESULTS: The initial uptake of [14C]pravastatin was markedly increased with decreases in extravesicular pH and showed a clear overshoot phenomenon in the presence of a proton gradient (pHin/out = 7.5/5.5). A protonophore, carbonylcyanide p-trifluoromethoxyphenylhydrazone, significantly reduced the uptake of [14C]pravastatin. In addition, an ionophore for sodium, potassium and proton, nigericin, stimulated the uptake of [14C]pravastatin in the presence of a potassium gradient ([K+]in/[K+]out = 0/145 mM). On the other hand, neither the imposition of an inwardly directed sodium gradient nor an outwardly directed bicarbonate gradient stimulated the uptake of [14C]pravastatin. In the presence of a proton gradient (pHin/out = 7.5/5.5), the initial uptake of pravastatin was saturable with the apparent Kt of 15.2 +/- 3.2 mM and Jmax of 10.6 +/- 1.21 nmol/mg protein/10 sec. The uptake of pravastatin was significantly inhibited by monocarboxylic acid compounds such as acetic acid and nicotinic acid in a competitive manner but not by di- or tricarboxylic acids, or acidic amino acid. CONCLUSION: It was concluded that a pH-dependent transport of pravastatin across the brush-border membrane occurs by a proton-gradient dependent carrier-mediated mechanism rather than by simple diffusion of its unionized form.