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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two amphiphilic peptides from hymenopterid insects, melittin and mastoparan, stimulate secretion in a variety of cell types. In PC12 cells, both peptides stimulate calcium influx with melittin some 20-fold more potently than mastoparan.
Melittin
stimulates both breakdown of phosphoinositides (Pl) by phospholipase C to yield inositol phosphates and hydrolysis of phospholipids by phospholipase A2 to release arachidonic acid (AA). Mastoparan stimulates Pl breakdown, but has no effect on AA release. Maximal stimulation of Pl breakdown occurs at 1 to 2.5 micrograms/ml melittin and 30 micrograms/ml mastoparan, whereas maximal stimulation of AA release occurs at 2 to 5 micrograms/ml melittin. Organic calcium channel blockers (nifedipine, verapamil, diltiazem) have little or no effect on responses to the peptides. The influx of calcium elicited by melittin or mastoparan is completely or nearly completely blocked by inorganic calcium channel blockers (Co++, Mn++, Cd++). Mn++ and Cd++ inhibit melittin-induced Pl breakdown and AA release and mastoparan-induced Pl breakdown. Co++ has no effect on melittin-induced Pl breakdown and potentiates mastoparan-induced Pl breakdown.
Pertussis
toxin has no effect on the Pl breakdown induced by either peptide. The responses to melittin and mastoparan in PC12 cells are compared to those reported for maitotoxin.
...
PMID:Effects of the amphiphilic peptides melittin and mastoparan on calcium influx, phosphoinositide breakdown and arachidonic acid release in rat pheochromocytoma PC12 cells. 130 80
Dexamethasone 21-acetate (DMS 21-A) time- and dose-dependently suppressed bradykinin-stimulated prostacyclin synthesis in porcine aortic endothelial cells. The suppression was more prominent in the presence of
pertussis
toxin, which by itself could enhance bradykinin-induced prostacyclin synthesis. The DMS 21-A treatment diminished prostacyclin synthesis also in response to vasopressin. In contrast, it did not affect prostacyclin synthesis in response to arachidonic acid or A23187.
Melittin
-induced prostacyclin synthesis was reduced only at low doses (1-7 x 10(-7) M). The suppression of bradykinin-induced prostacyclin synthesis by DMS 21-A was completely blocked by cycloheximide. DMS 21-A had no effect on the cellular level of lipocortin I protein, but increased the anti-phospholipase A2 activity in EDTA extracts of the cells. These results suggest that the DMS 21-A treatment induces phospholipase A2 inhibitor protein(s) other than lipocortin I and reduces prostacyclin production in response to limited stimuli.
...
PMID:Glucocorticoid treatment reduces prostacyclin synthesis in response to limited stimuli. 182 73
The cellular cGMP content increased in response to a variety of receptor agonists, which activate [e.g., prostaglandin (PG) E1, E2, and F2 alpha] or inhibit (e.g., alpha-adrenergic, muscarinic, and opiate agonists) adenylate cyclase in neuroblastoma X glioma hybrid NG108-15 cells. The responses were additive when PGF2 alpha and enkephalin were mixed. The inhibitory guanine nucleotide regulatory protein (Ni) is involved in adenylate cyclase inhibition; this function of Ni is lost when it is ADP-ribosylated by islet-activating protein (IAP),
pertussis
toxin [H. Kurose, T. Katada, T. Amano, and M. Ui (1983) J. Biol. Chem. 258, 4870-4875]. The cGMP rise induced by stimulation of the receptors linked to adenylate cyclase inhibition was also diminished by IAP; the time course and dose response for the IAP-induced diminution were the same between adenylate cyclase inhibition and cGMP generation. Ni thus appears to mediate guanylate cyclase activation as well as adenylate cyclase inhibition initiated via the same receptors.
Melittin
also increased cGMP. No additivity was shown when enkephalin and melittin were combined, suggesting that phospholipase A2 might play a role in Ni-mediated guanylate cyclase activation. On the other hand, the PGF2 alpha-induced cGMP rise was associated with increased incorporation of 32Pi into phosphatidylinositol; was not affected by cholera toxin, IAP or forskolin; and showed no additivity when combined with A23187, which increased cGMP by itself. PGs would occupy receptors linked to phosphatidylinositol breakdown, thereby increasing the availability of intracellular Ca2+, which is responsible for guanylate cyclase activation. Thus, dual pathways are proposed for a receptor-mediated cGMP rise in NG108-15 cells.
...
PMID:Dual pathways of receptor-mediated cyclic GMP generation in NG108-15 cells as differentiated by susceptibility to islet-activating protein, pertussis toxin. 298 51
The biochemical signaling mechanisms involved in transducing the effects of interferon-gamma (IFN-gamma) on human leukemia-derived HL-60 cell differentiation are not completely understood. Recent studies established the existence of a sphingomyelin (SM) cycle that operates in response to the action of IFN-gamma on HL-60 cells, but the mechanisms by which IFN-gamma induces the SM hydrolysis remain unexplored. In this study, biochemical events mediating IFN-gamma effects on SM turnover and their specificity and role in HL-60 differentiation were investigated. The activation of the SM cycle by IFN-gamma occurred rapidly, with a decrease of approximately 20% in the SM level observed after 60 minutes with a concomitant increase in ceramide level. Treatment of HL-60 cells with IFN-gamma did not influence the 1,2-diacylglycerol concentration, intracellular Ca2+ concentration, or phospholipase D activity. IFN-gamma stimulated a rapid release of arachidonic acid (AA) from HL-60 cells; the effect was abolished by the pretreatment of cells with
pertussis
toxin, suggesting a role for a
pertussis
-toxin-sensitive G protein in IFN-gamma-mediated activation of phospholipase A2 (PLA2). At 4 to 120 hours after the stimulation of the cells with IFN-gamma, a significant increase in the particulate and soluble PLA2 activity was observed, corresponding to an increase in the level of immunoreactive cPLA2 in both cytosol and membrane fractions. The treatment of cells with tyrosine kinase inhibitor herbimycin A completely abolished the effect of IFN-gamma on PLA2 activity in membrane and cytosolic fractions, but had no effect on IFN-gamma-mediated early AA release suggesting dual mechanism of PLA2 activation.
Melittin
, potent activator of PLA2, and AA mimicked the effect of IFN-gamma on SM hydrolysis. Pretreatment of HL-60 cells with the PLA2 inhibitor, bromophenacyl bromide (BPB), or
pertussis
toxin abolished the effect of IFN-gamma on SM hydrolysis; exogenous addition of AA overcame the effects of BPB and
pertussis
toxin. Long-term exposure (5 days) of HL-60 cells to IFN-gamma caused an increase in nitroblue tetrazolium (NBT)-reducing and nonspecific esterase (NSE) activity and induced expression of Fc gamma RI (CD64) without significant effects on cell number, adherence, or phagocytic activity. The treatment of cells with AA or melittin induced NBT, NSE, and CD64 expression to the level similar to that observed with IFN-gamma, and no further increase was observed with the combination of IFN-gamma and AA or IFN-gamma and melittin. Treatment of HL-60 cells with indomethacin, an inhibitor of cyclo-oxygenase, and nordihydroguaiaretic acid (NDGA), an inhibitor of lipoxygenase, had no effects on IFN-gamma-mediated induction of CD64 expression. These studies indicate a key role for the phospholipase A2/AA pathway, as an early biochemical signal elicited by the occupation of IFN-gamma-receptor, in mediating IFN-gamma induction of the SM cycle and phenotypic changes associated with differentiation of HL-60 along monocytic lineage.
...
PMID:Arachidonic acid mediates interferon-gamma-induced sphingomyelin hydrolysis and monocytic marker expression in HL-60 cell line. 897 80
We have investigated the possible interaction (cross talk) between the phospholipase A2 (PLA2) and inositol 1,4,5-trisphosphate/protein kinase C (PKC) signaling pathways in rat lactotroph-enriched cell cultures.
Melittin
, a bee venom peptide, stimulated release of [3H]arachidonic acid ([3H]AA) from [3H]AA-labeled enriched lactotrophs in a dose-dependent manner. Moreover, melittin and exogenous AA induced a redistribution of PKC catalytic activity and PKC alpha and beta immunoreactivity from the soluble to the particulate fraction in resting and substance P (SP)-stimulated cells.
Melittin
had no effect on phospholipase C (PLC) activity. Pretreatment of cell cultures with the PLA2 inhibitors quinacrine and aristolochic acid resulted in a dose-dependent inhibition of melittin-stimulated PKC isozyme translocation as did the inhibitor of lipoxygenase, nordihydroguaiaretic acid, whereas the cyclooxygenase inhibitor indomethacin had no effect. SP and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) dose-dependently increased levels of [3H]AA released from cells. Pretreatment of cell cultures with quinacrine reduced the effect of SP on [3H]AA formation. After long-term treatment (24 h) of cells with TPA, the effect of TPA on [3H]AA production was not different from control, whereas SP still displayed [3H]AA-releasing abilities although not at full scale. Pretreatment of cells with thapsigargin, U 73122, methoxyverapamil, and RHC 80267, an inhibitor of diacylglycerol lipase, all resulted in reduced SP-stimulated [3H]AA liberation. Treatment of cell cultures with
pertussis
toxin (PTX) reduced the release of [3H]AA induced by SP, whereas PTX had no effect on SP-stimulated generation of 3H-inositol phosphates. On the basis of these results, it is concluded that (1) the PLA2 pathways interfere with the phosphoinositide-PLC signaling system at the level of PKC isozymes alpha and beta, the product responsible for this interaction being either AA or a metabolite produced by the action of lipoxygenase; (2) SP and TPA are able to activate the PLA2 pathway at a level at or beyond PLA2, and this effect is mediated, in part, through PKC alpha and beta species and (for SP) intracellular Ca2+ recruited from internal stores as well as from external sources; and (3) SP also activates PLA2 through a PTX-sensitive pathway distinct from the one coupled to phosphoinositide-PLC, which is PTX insensitive.
...
PMID:Cross talk between substance P and melittin-activated cellular signaling pathways in rat lactotroph-enriched cell cultures. 923 37
Abstract We have recently shown that glutamate primarily induces somatostatin release in hypothalamic neurons through N-methyl-D-aspartate (NMDA)-type receptor sites. Here we report that glutamate and NMDA also stimulate the release of [(3)H]arachidonic acid in a dose-dependent manner. The NMDA-induced effects (arachidonic acid release and somatostatin secretion) were both inhibited by MK-801, an NMDA receptor-type antagonist, or mepacrine, a phospholipase A(2) inhibitor. In addition, mepacrine was able to inhibit A23187-stimulated arachidonic acid release and somatostatin secretion. p-Bromophenacylbromide, another phospholipase A(2) inhibitor, also blocked NMDA-induced secretion of somatostatin. However, responses to NMDA were unaffected by H7 (inhibitor of protein kinase C), nordihydroguaiaretic acid or indomethacin (inhibitors of lipoxygenase and cyclooxygenase).
Melittin
, a phospholipase A(2) activator, was found to stimulate both responses, but omission of extracellular Ca(2+) from the incubation media strongly reduced melittin-induced somatostatin release. Six-h
pertussis
toxin pretreatment did not significantly reduce the action of NMDA on either of the two parameters studied. High-performance liquid chromatography analysis of [(3)H]metabolites released in the medium after NMDA stimulation revealed that [(3)H]arachidonic acid was the only detectable metabolite. External addition of arachidonic acid increased the release of somatostatin, whereas E(2) and F(2)alpha prostaglandins had no effect. Our results show a close correlation between arachidonic acid release and somatostatin secretion, the two parameters we investigated.
...
PMID:Phospholipase A and Somatostatin Release are Activated in Response to N-Methyl-D-Aspartate Receptor Stimulation in Hypothalamic Neurons in Primary Culture. 1921 1
