Annie-France Prigent

The cAMP-specific Phosphodiesterase PDE4D3 Is Regulated by Phosphatidic Acid Binding CONSEQUENCES FOR cAMP SIGNALING PATHWAY AND CHARACTERIZATION OF A PHOSPHATIDIC ACID BINDING SITE

Hormones and growth factors induce in many cell types the production of phosphatidic acid (PA), which has been proposed to play a role as a second messenger. We have previously shown in an acellular system that PA selectively stimulates certain isoforms of type 4 cAMP-phosphodiesterases (PDE4). Here we studied the effect of endogenous PA on PDE activity of transiently transfected MA10 cells overexpressing the PA-sensitive isoform PDE4D3. Cell treatment with inhibitors of PA degradation, including propranolol, induced an accumulation of endogenous PA accompanied by a stimulation of PDE activity and a significant decrease in both cAMP levels and protein kinase A activity. Furthermore, in FRTL5 cells, which natively express PDE4D3, pretreatment with compounds inducing PA accumulation prevented both cAMP increase and cAMP-responsive element-binding protein phosphorylation triggered by thyroid-stimulating hormone. To determine the mechanism of PDE stimulation by PA, endogenous phospholipids were labeled by preincubating MA10 cells overexpressing PDE4D3 with [32P]orthophosphate. Immuno- precipitation experiments showed that PA was specifically bound to PDE4D3, supporting the hypothesis that PDE4D3 activation occurs through direct binding of PA to the protein. PA binding site on PDE4D3 was characterized by engineering deletions of selected regions in the N-terminal regulatory domain of the enzyme. Deletion of amino acid residues 31–59 suppressed both PA-activating effect and PA binding, suggesting that this region rich in basic and hydrophobic residues contains the PA binding site. These observations strongly suggest that endogenous PA can modulate cAMP levels in intact cells, through a direct activation of PDE4D3.

Influence of very low dietary intake of marine oil on some functional aspects of immune cells in healthy elderly people

Ageing is a multifactorial process involving decreased antioxidant defences and immune functions. n-3 Polyunsaturated fatty acids have been associated with human health benefits, especially against inflammatory and autoimmune diseases. However, their immunomodulatory effects were usually observed with high dosages (>2 g/d) known to increase lipid peroxidation. In contrast, very low doses, that may prevent lipid peroxidation, might affect the immune system differently. To study the latter hypothesis further, we investigated whether the supplementation of healthy elderly people with very low doses of marine oil (MO), a docosahexaenoate (DHA)- and eicosapentaenoate (EPA)-rich triacylglycerol, was able to affect lymphocyte proliferation and biochemical markers known to be altered with age. In a randomized, double-blind design, twenty healthy elderly subjects were assigned to a placebo group (600 mg sunflower oil/d) or to a group consuming 600 mg MO/d providing 150 mg DHA + 30 mg (EPA) for 6 weeks. At day 42, the proliferative responses of lymphocytes to several mitogens were significantly (P<0.01) decreased in the MO group compared with control values. This was accompanied by a slight lowering of their cytosolic cyclic nucleotide phosphodiesterase (PDE) activity, a marked and significant (P<0.05) increase of their particulate PDE activity (+56-57 %) and a slight but significant (P<0.05) increase in cyclic nucleotide intracellular levels. At the same time, the glutathione peroxidase activity was markedly and significantly (P<0.01) depressed in the MO group. None of these modifications could be seen in the placebo group. Collectively, these results demonstrate that even very low doses of n-3 fatty acids are sufficient to affect the immune responses of elderly subjects.

Disruption of Lipid Rafts Stimulates Phospholipase D Activity in Human Lymphocytes: Implication in the Regulation of Immune Function

Recent evidence suggests that phospholipase D (PLD) can be regulated through its association/dissociation to lipid rafts. We show here that modifying lipid rafts either by cholesterol depletion using methyl-β-cyclodextrin and filipin or by conversion of sphingomyelin to ceramide with exogenous bacterial sphingomyelinase (bSMase) markedly activated the PLD of human PBMC. bSMase was the most potent PLD activator, giving maximal 6- to 7-fold increase in PLD activity. Triton X-100-treated lysates prepared from control PBMC and from bSMase-treated cells were fractionated by centrifugation on sucrose density gradient. We observed that bSMase treatment of the cells induced a larger ceramide increase in raft than in nonraft membranes and displaced both the Src kinase Lck and PLD1 out of the raft fractions. In addition, the three raft-modifying agents markedly inhibited the lymphoproliferative response to mitogenic lectin. To examine further the potential role of PLD activation in the control of lymphocyte responses, we transiently overexpressed either of the PLD1 and PLD2 isoforms in Jurkat cells and analyzed the phorbol ester plus ionomycin-induced expression of IL-2 mRNA, which is one of the early responses of lymphocyte to activation. We observed a 43% decrease of IL-2 mRNA level in Jurkat cells overexpressing PLD1 as compared with mock- or PLD2-transfected cells, which indicates that elevated PLD1, but not PLD2, activity impairs lymphocyte activation. Altogether, the present results support the hypothesis that PLD1 is activated by exclusion from lipid rafts and that this activation conveys antiproliferative signals in lymphoid cells.

Influence of polyunsaturated fatty acids on lipid metabolism in human blood mononuclear cells and early biochemical events associated with lymphocyte activation

n-3 and n-6 polyunsaturated fatty acids are involved in the regulation of the immune response. Although different hypotheses related to modifications of arachidonic acid metabolism or alterations at the level of the cell membrane have been put forward to explain their suppressive effect on the lymphocyte growth, their mechanism of action remains largely unknown. Cyclic nucleotide phosphodiesterase (PDE) has been shown to be an important target involved in the control of lymphocyte proliferation. The present study aimed to determine whether in vitro addition of a physiological concentration (5 microM) of n-6 (20:3n-6) or n-3 (18:4n-3, 20:5n-3, 22:6n-3) fatty acids to human peripheral blood mononuclear cells (PBMC) was able to alter the PDE activity of these cells, and especially the PDE increase in response to Con A stimulation. Pretreatment of human PBMC for a short period of time (90 min) with 5 microM of either 20:3n-6, 20:5n-3 or 22:6n-3 was sufficient to induce a significant enrichment of cellular phospholipids in the corresponding fatty acid, whereas 18:4n-3 was poorly incorporated. Either fatty acid significantly increased both cAMP- and cGMP-PDE activities in the cytosolic compartment, the particulate PDE activities being less sensitive to their stimulatory effect. In contrast, they significantly lowered the PDE increase to Con A stimulation. Except 20:5 n-3, the three other fatty acids did not alter significantly the basal or Con A-induced oxygenated metabolism of arachidonic acid (AA), appreciated by the measurement of radioactive eicosanoids formed in [3H]AA-labelled cells. Furthermore, only 20:5n-3 significantly inhibited the lymphoproliferative response to Con A, whereas 16:0, 18:0, 18:1n-9, 20:3n-6 and 20:4n-6 were inactive. The inhibitory effect was not prevented by antioxidant vitamins C and E. The present results suggest that the lymphocyte growth suppressive effect of 20:5n-3 20:5n-3 is very likely to be independent on both the cAMP system and eicosanoid synthesis, and does not seem to involve their conversion to peroxidised products.

Regulation of PDE-4 cAMP phosphodiesterases by phosphatidic acid

Phosphatidic acid (PA) has been previously shown to activate specifically some of the isoforms of type 4 cylic nucleotide phosphodiesterases (PDE-4) in an acellular system. In the present work, we have investigated the mechanism of PA-activating effect by using a recombinant PA-sensitive isoform, PDE-4D3. The enzyme was specifically activated by acidic phospholipids, but not by zwitterionic phospholipids or anionic detergents. The importance of the role of PA acidic groups in the activation process was confirmed by studying the influence of pH and ionic strength on activation. Crosslinking experiments suggested that PA might influence the ability of PDE-4D3 to form dimers. Binding studies performed with radiolabeled PA showed that PA binds to a PDE-4D3 preparation in a saturable manner. Specifically bound PA was displaced by anionic, but not by zwitterionic phospholipids. With a preparation of PDE-4B2, a PDE-4 isoform insensitive to PA activation, PA binding was only displaced by high concentrations of unlabeled PA, suggesting that high-affinity PA binding sites are only present on PDE-4D3. These data support the hypothesis that PA-activating effect depends on direct binding of the effector on specific sites carried by the PDE-4D3 protein.

Effects of an Extract of Ginkgo biloba on the 3′,5′‐Cyclic AMP Phosphodiesterase Activity of the Brain of Normal and Triethyltin‐Intoxicated Rats

Abstract: For clarification of the beneficial effects of the extract of Ginkgo biloba (EGB) on triethyltin (TET) toxicity in rats, the phosphodiesterase (PDE) activities of the cerebral tissue were measured under in vitro and ex vivo conditions. Under in vitro conditions, low concentrations of EGB (0.25–4.0 mg/L) activated the enzyme, whereas after higher concentrations (5–250 mg/L), dose‐dependent inhibition of the enzyme activity was observed. In the lower concentration range, the extract also partially restored the high‐affinity PDE activity (measured with 0.25 μM cyclic AMP) of the particulate fraction of the brain inhibited by TET in vitro. In contrast, the inhibitory influence of TET on the low‐affinity PDE activity (measured with 50 μM cyclic AMP) of the particulate fraction was enhanced by the extract. Although treatment with a single large dose of EGB lowered the particulate PDE activities of the brain of normal rats, no effects of the extract could be detected in animals after repeated daily administrations of EGB during a 4‐day period. Curative treatment of the TET‐intoxicated rats with EGB during a 7‐day period accelerated the recovery of the edematous state of the white matter caused by the intoxication and also normalized the lowered PDE activity of the particulate fraction of the edematous brain tissue. Furthermore, when preventively administered, EGB counteracted both the edema formation and the fall in PDE activity observed with treatment by TET alone. These observations strongly suggest that some beneficial effects of EGB might be due to its modulating influences on cellular cyclic AMP levels via activation of membrane‐bound PDE.

Phorbol ester-induced differentiation of L6 myogenic cells involves phospholipase D activation

TPA, a potent PKC activator, inhibits myogenic differentiation and activates phospholipase D (PLD). We evaluated the involvement of PLD in the TPA effects on L6 myoblasts differentiation. TPA, at concentrations inhibiting differentiation of L6 cells, induced a strong, though transient, PLD activation. Surprisingly, at nanomolar concentration, TPA induced both myogenic differentiation and sustained activation of PLD. Differential effect of TPA can be ascribed to PKC downregulation induced by highest TPA concentrations. TPA‐induced differentiation was inhibited by 1‐butanol, confirming the involvement of PLD in this effect. These data suggest that prolonged elevation of PLD activity is required for myogenic differentiation.

Early induction of ornithine decarboxylase occurs simultaneously with inositol phosphate accumulation in concanavalin A-stimulated rat thymocytes.

Stimulation of rat thymocytes with the lectin ConA produced an early peak of ornithine decarboxylase (ODC) activity within 10 min. This ODC induction appeared as early as the well-known inositol phosphate accumulation following mitogenic stimulation, and may be part of the signal transduction mechanism. The distribution of counts among the inositol phosphates was constant during the overall time of Concanavalin A (ConA) stimulation. We conclude that early induction of pre-existing ODC may be independent of protein kinase C action.