In many cell systems, sphingosine 1-phosphate (SPP) increases cytosolic Ca2+ concentration (Ca2+i) by acting as intracellular mediator and extracellular ligand. We recently demonstrated (Meacci E, ...Cencetti F, Formigli L, Squecco R, Donati C, Tiribilli B, Quercioli F, Zecchi-Orlandini S, Francini F, and Bruni P. Biochem J 362: 349-357, 2002) involvement of endothelial differentiation gene (Edg) receptors (Rs) specific for SPP in agonist-mediated Ca2+ response of a mouse skeletal myoblastic (C2C12) cell line. Here, we investigated the Ca2+ sources of SPP-mediated Ca2+ transients in C2C12 cells and the possible correlation of ion response to cytoskeletal rearrangement. Confocal fluorescence imaging of C2C12 cells preloaded with Ca2+ dye fluo 3 revealed that SPP elicited a transient Ca2+ increase propagating as a wave throughout the cell. This response required extracellular and intracellular Ca2+ pool mobilization. Indeed, it was significantly reduced by removal of external Ca2+, pretreatment with nifedipine (blocker of L-type plasma membrane Ca2+ channels), and inositol 1,4,5-trisphosphate Ins(1,4,5)P3-mediated Ca2+ pathway inhibitors. Involvement of EdgRs was tested with suramin (specific inhibitor of Edg-3). Fluorescence associated with Ins(1,4,5)P3Rs and L-type Ca2+ channels was evident in C2C12 cells. SPP also induced C2C12 cell contraction. This event, however, was unrelated to Ca2+i increase, because the two phenomena were temporally shifted. We propose that SPP may promote C2C12 cell contraction through Ca2+-independent mechanisms.
Phospholipase D (PLD) is involved in the signaling by many extracellular ligands, and its regulation appears to be quite complex. We investigated the signaling pathways initiated by bradykinin (BK) ...or sphingosine 1-phosphate (S1P) in A549 cells to define molecular mechanisms responsible for their additive effects on PLD activity. BK and S1P each elicited a sustained increase in phosphatidic acid content through a rapid and transient activation of PLD. The two pathways demonstrated rapid homologous downregulation, but heterologous desensitization was not observed. Action of both agonists required protein kinase C (PKC) activation and Ca(2+) influx but was mediated by different heterotrimeric G proteins. In membranes, inhibition of PKCdelta by rottlerin enhanced BK activation of PLD but inhibited that by S1P. Rottlerin inhibited activation of PLD in nuclei by both BK and S1P. By in situ immunofluorescence or cell fractionation followed by immunoblotting, PLD1 was concentrated primarily in nuclei, whereas the membrane fraction contained PLD2 and PLD1. Moreover, PKCdelta specifically phosphorylated recombinant PLD2, but not PLD1. BK and S1P similarly enhanced RhoA translocation to nuclei, whereas BK was less efficacious than S1P on RhoA relocalization to membranes. Effects of both agonists on the nuclear fraction, which contains only PLD1, are compatible with a RhoA- and PKCdelta-dependent process. In membranes, which contain both PLD1 and PLD2, the stimulatory effect of S1P on PLD activity can best be explained by RhoA- and PKCdelta-dependent activation of PLD1; in contrast, the effects of BK on RhoA translocation and enhancement of BK-stimulated PLD activity by PKC inhibition are both consistent with PLD2 serving as its primary target.
Postoperative air leaks and in particular persistent air leaks (>5 days) after pulmonary resection still represent a common complication and the first cause of hospital stay delay. Aim of this ...experimental trial was to investigate the efficacy of the use of bovine pericardium strips (in terms of reduction of postoperative leakage and hospital stay) in "critical" patients (COPD, emphysema etc.) who underwent pulmonary resection.
From October 2010 to February 2011, eight patients (experimental group, Group A) were preoperative selected and underwent pulmonary resection with bovine pericardium strips (Peri-Strips Dry; Synovis ). The inclusion criteria of a "frail patient" were established by a dedicate pneumologist according with clinical and functional data (predicted postoperative FEV1 ranging from 35% and 80% of the theorical predicted value). For comparison, from January 2010 to September 2010, we retrospectively reviewed the data of 28 patients who satisfied the same inclusion criteria and underwent pulmonary resection with standard surgical procedures. This group of patients represents our control group (Group B).
There were no significant differences between the two groups in age, gender, preoperative risk factors for developing a postoperative air leak, preop FEV1 and type of resection. No technical deficiencies in the use of bovine pericardium strips were observed in Group A. Postoperative leakage was significant different in the two groups being persistent air leak detected in 0% in Group A versus 17.8% of Group B (P=0.046). Consequently, chest tube duration (6.75±0.84 days Group A vs. 9.70±1.26 days (Group B), P=0.019) and hospital stay (10.13±0.83 days Group A vs. 12.95±1.37 days Group B, P=0.013) were lower in the experimental group.
Bovine pericardium strips are safe and easy-to-do technique to reduce postoperative air leaks after pulmonary resection in "critical" patients.
ADP-ribosylation factors (ARFs) are 20-kDa guanine nucleotide-binding proteins that require specific guanine nucleotide-exchange proteins (GEPs) to accelerate the conversion of inactive ARF-GDP to ...active ARF-GTP. Cytohesin-1, a 46-kDa ARF GEP, contains a central Sec7 domain of 188 amino acids similar in sequence to a region of the yeast Sec7 protein. Cytohesin-1 and its 22-kDa Sec7 domain (C-1 Sec7), synthesized in Escherichia coli, were assayed with recombinant non-myristoylated ARFs and related proteins to compare their GEP activities. Both were effective with native mammalian ARFs 1 and 3. Cytohesin-1 accelerated GTPγS (guanosine 5′-3-O-(thio)triphosphate) binding to recombinant human ARF1 (rARF1), yeast ARF3, and ARD1 (a 64-kDa guanine nucleotide-binding protein containing a C-terminal ARF domain). In contrast, C-1 Sec7 enhanced GTPγS binding to recombinant human ARFs 1, 5, and 6; yeast ARFs 1, 2, and 3; ARD1; two ARD1 mutants that contain the ARF domain; and Δ13ARF1, which lacks the N-terminal α-helix. Neither C-1 Sec7 nor cytohesin-1 increased GTPγS binding to human ARF-like ARL proteins 1, 2, and 3. Thus, ARLs, initially differentiated from ARFs because of their inability to activate cholera toxin, differ also in their failure to interact functionally with C-1 Sec7 or cytohesin-1. As C-1 Sec7 was much less substrate-specific than cytohesin-1, it appears that structure outside of the Sec7 domain is important for ARF specificity. Data obtained with mutant ARF constructs are all consistent with the conclusion that the ARF N terminus is an important determinant of cytohesin-1 specificity.
Neutral ceramidase (CDase) is a key enzyme of sphingomyelin (SM) metabolism implicated in cell signaling triggered by a variety of extracellular ligands. Previously it was shown that in murine ...endothelial cells a portion of neutral CDase is localized in detergent-resistant light membranes. In this study subcellular distribution of neutral CDase was further investigated. In accordance with the previous finding, the enzyme was identified in caveolae. Moreover, the same protein was detected in medium-speed supernatant of cell-conditioned medium, accounting for CDase activity measurable in the medium at neutral pH. Notably, these cells released also the caveolae-scaffolding protein caveolin-1 (cav-1). Interestingly, secreted neutral CDase and cav-1 coimmunoprecipitated. In addition, acid sphingomyelinase (SMase) activity was detectable in cav-1 immunocomplexes. These findings are consistent with the view that neutral CDase is released, in part, in association with cav-1 together with acid SMase. It remains to be established whether the here-identified secreted cav-1-enriched complex acts as platform to facilitate extracellular metabolism of SM.
Sphingomyelinase (SMase) and ceramidase (CDase) activities participate in sphingomyelin (SM) metabolism and have a role in the signal transduction of a variety of ligands. In this study evidence is ...presented that caveolin-enriched light membranes (CELMs) of murine endothelial cells, characterized by high SM, ceramide (Cer) and cholesterol content, bear acid and neutral SMase as well as neutral CDase activities. Localization of neutral CDase in CELMs was confirmed by Western analysis. Notably, cell treatment with cyclodextrin, which depleted cell cholesterol, did not affect acid or neutral SMase activities but significantly enhanced neutral CDase activity in CELMs, indicating a negative role for cholesterol in CDase regulation. These findings suggest that neutral CDase is implicated, together with SMase activities, in the control of caveolar Cer content that may be critical for caveola dynamics.
In the present study evidence is provided for a rapid activation of lipid signalling pathways induced by thrombin and bradykinin (BK) in C2C12 myoblasts. Both agonists were able to increase
...3Hinositol phosphates (InsP), 1,2-
3Hdiacylglycerol (DAG) and
3Hphosphatidic acid (PtdOH) levels. In particular
3HPtdOH values were rapidly increased and maintained at significantly high values at prolonged times of incubation. BK and thrombin were able to activate phospholipase D (PLD) in vivo as demonstrated by the accumulation of
3Hphosphatidylethanol (PtdEtOH) through the transphoshatidylation reaction catalyzed by the enzyme in the presence of ethanol. The observation that ethanol could significantly reduce
3HPtdOH formation in myoblasts stimulated with BK and thrombin indicates that stimulation of PLD has a major role. The two agonists appear to stimulate PLD activity through a common molecular mechanism, involving the activation of protein kinase C (PKC). In addition, BK and thrombin appear able to activate DAG kinase at early times of incubation and also this pathway may contribute to determine the increase in
3HPtdOH levels. This is the first report which describes activation of lipid signalling pathways by BK and thrombin in myoblast cells and it is possible that these early signals may have an important role in mediating the biological effects of the two agonists.
Receptor-regulated phospholipase D (PLD) is a key signaling pathway implicated in the control of fundamental biological processes. Here evidence is presented that in addition to protein kinase C ...(PKC) and Rho GTPases, Ca
2+ response evoked by sphingosine 1-phosphate (S1P) also participates to the enzyme regulation. Ca
2+ was found critical for PKCα-mediated PLD activation. Moreover, S1P-induced PLD activity resulted diminished by calmodulin inhibitors such as W-7 and CGS9343B implicating its involvement in the process. A plausible candidate for Ca
2+-dependent PLD regulation by S1P was represented by calcineurin, in view of the observed reduction of the stimulatory effect by cyclosporin A. In contrast, monomeric GTP-binding protein Ral was translocated to membranes by S1P in a Ca
2+-independent manner, ruling out its possible role in agonist-mediated regulation of PLD.
Caveolin-3 (cav-3) is a key structural component of caveolar membrane in skeletal muscle. Cav-3-enriched light membrane (CELM) fractions obtained from C2C12 myotubes contain phospholipase D1 (PLD1) ...and its major regulators, RhoA and protein kinase Cα (PKCα). All these proteins were found bound to cav-3. An in vivo assay of PLD activity, which allows to localize the reaction product in CELMs, indicated that the enzyme associated to this membrane microdomain was active. Moreover, bradykinin (BK), thrombin and phorbol 12-myristate 13-acetate induced rapid stimulation of PLD activity in CELMs. The cav-3-PLD1 complex was not affected by BK treatment, whereas the agonist induced a marked increase of RhoA association with cav-3. Furthermore, BK-induced PLD activation in CELMs was dependent, at least in part, on PKCα.
In this study we report that human platelets display neutral (nSMase) and acid sphingomyelinase (aSMase) as well as acid ceramidase (aCerase) activity. Cell activation by thrombin resulted in a ...marked decrease of intracellular aSMase activity, accompanied by the release of enzyme into the medium. In contrast, thrombin treatment did not affect aCerase activity. Two major protein bands of 73 and 70 kDa were recognized by aSMase antibodies in resting platelet lysates and in the medium of stimulated cells. Phorbol esters together with the calcium ionophore A23187 fully reproduced thrombin action on aSMase release. The secreted enzymatic activity was insensitive to digestion with endoglycosidase H but it was stimulated by Zn2+, although to a limited extent compared to aSMase constitutively released by murine endothelial cells. Taken together, these data suggest that secreted aSMase does not originate from the lysosomal compartment but rather from other platelet vesicles.