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1.
We have studied the localization of neutral sphingomyelinase (N-SMase) in rat liver nuclei. The levels of neutral sphingomyelinase in regenerating liver nuclei were also assessed.We found that rat liver nuclei contain a sphingomyelinase having a pH optima of 7.2 and a kDa of 92. In intact nuclei, neutral sphingomyelinase was associated predominantly with the nuclear envelope. In regenerating/proliferating rat liver (during DNA synthesis), neutral sphingomyelinase was translocated from the nuclear envelope to the nuclear matrix. The levels of sphingomyelin in whole nuclei decreased in reverse proportion to an increase in the levels of neutral sphingomyelinase. By contrast, there was a corresponding increase in the levels of ceramide and sphingosine during cell regeneration/proliferation. Thus, endogenous nuclear neutral sphingomyelinase may play a role in the regulation of sphingomyelin levels and in relevant signal transduction reactions involving cell regeneration/proliferation. The potential significance of ceramide generation may be aimed at programmed cell death to allow the regeneration of liver mediated via target proteins such as, ceramide activated protein kinases/phospholipases or other unknown mechanisms.Abbreviations N-SMase neutral sphingomyelinase - A-SMase acid sphingomyelinase  相似文献   

2.
Tumor necrosis factor (TNF) contributes to insulin resistance by binding to the 55kDa TNF receptor (TNF-R55), resulting in serine phosphorylation of proteins such as insulin receptor (IR) substrate (IRS)-1, followed by reduced tyrosine phosphorylation of IRS-1 through the IR and, thereby, diminished IR signal transduction. Through independent receptor domains, TNF-R55 activates a neutral (N-SMase) and an acid sphingomyelinase (A-SMase), that both generate the sphingolipid ceramide. Multiple candidate kinases have been identified that serine-phosphorylate IRS-1 in response to TNF or ceramide. However, due to the fact that the receptor domain of TNF-R55 mediating inhibition of the IR has not been mapped, it is currently unknown whether TNF exerts these effects with participation of N-SMase or A-SMase. Here, we identify the death domain of TNF-R55 as responsible for the inhibitory effects of TNF on tyrosine phosphorylation of IRS-1, implicating ceramide generated by A-SMase as a downstream mediator of inhibition of IR signaling.  相似文献   

3.
We have previously shown that cultured human proximal tubular cells (PT) incubated with gentamicin contain numerous "myeloid bodies." This morphological change was accompanied by the storage of phosphatidylcholine and sphingomyelin. In order to delineate the biochemical mechanisms responsible for the accumulation of sphingomyelin in cells incubated with gentamicin, we pursued detailed studies on the activity of sphingomyelinase. Characterization studies on sphingomyelinase revealed that this enzyme has a bimodal pH optima in PT cells. Optimum activity was observed at pH 5.6 (designated as acid sphingomyelinase, A-SMase) and at pH 7.4 (designated as neutral sphingomyelinase, N-SMase). The activity of both the enzymes increased proportionately in control cells as a function of days of incubation. The activity of A-SMase was 16% lower in cells incubated with gentamicin as compared to control. The most striking observation was a gradual decline in the activity of N-SMase in cells incubated with gentamicin. Thus, following 21 days of incubation of cells with 0.3 mM gentamicin, the N-SMase was 2.7-fold lower than control cells. Mg2+ stimulated and Triton X-100 inhibited the activity of N-SMase. Whereas Mg2+ had no effects, Triton X-100 stimulated the activity of the A-SMase in PT cells. Moreover, A-SMase was relatively more heat-resistant than the N-SMase. The Km values for sphingomyelin using A-SMase in control cells and cells incubated with gentamicin were 0.07 X and 0.016 X 10(-7) M, respectively, whereas the Km values for sphingomyelin using N-SMase in control cells and cells incubated with gentamicin were 1.8 X and 1.5 X 10(-7) M, respectively. These findings suggest that gentamicin exerts a competitive inhibition of the A-SMase in PT cells. In contrast, gentamicin exerts a noncompetitive inhibition of the N-SMase in PT cells. Subcellular fractionation studies revealed that A-SMase was exclusively localized in the "lysosome-rich" fraction, whereas most, if not all, the N-SMase was localized in the microsomal fraction and "plasma-membrane"-rich fraction in cultured PT cells. Cells incubated with gentamicin for 21 days contained 25% lower activity of A-SMase associated with the lysosomal fraction as compared to control. In contrast, N-SMase activity in the microsomal and plasma membrane fraction was one-half as compared to control. We conclude that gentamicin-mediated decrease in sphingomyelinase activity may be responsible for the storage of sphingomyelin in cultured human PT cells.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

4.
Sodium nitroprusside (SNP), a NO donor, has been recognized as an inducer of apoptosis in various cell lines. Here, we demonstrated the intracellular formation of ceramide, a lipid signal mediator, in SNP-induced apoptosis in human leukemia HL-60 cells and investigated the mechanisms of ceramide generation. The levels of intracellular ceramide increased to, at most, 160% of the control level in a time- and dose-dependent manner when the cells were treated with 1 mM SNP. SNP also decreased the sphingomyelin level to approximately 70% of the control level and increased magnesium-dependent neutral sphingomyelinase (N-SMase) activity to 160% of the control activity 2 h after treatment. Neither acid SMase nor magnesium-independent N-SMase was affected by SNP. Caspases are thought to be key enzymes in apoptotic cell death. Acetyl-Asp-Glu-Val-Asp-aldehyde, a synthetic tetrapeptide inhibitor of caspases, inhibited magnesiumdependent N-SMase, ceramide generation, and apoptosis. Moreover, recombinant purified caspase-3 increased magnesium-dependent N-SMase in a cell-free system. These results suggest that the findings that SNP increased ceramide generation and magnesium-dependent N-SMase activity via caspase-3 are interesting to future study to determine the relation between caspases and sphingolipid metabolites in NO-mediated signaling.  相似文献   

5.
Alzheimer's disease is a major illness of dementia characterized by the presence of amyloid plaques, neurofibrillary tangles, and extensive neuronal apoptosis. However, the mechanism behind neuronal apoptosis in the Alzheimer's-diseased brain is poorly understood. This study underlines the importance of neutral sphingomyelinase in fibrillar Abeta peptide-induced apoptosis and cell death in human primary neurons. Abeta1-42 peptides induced the activation of sphingomyelinases and the production of ceramide in neurons. Interestingly, neutral (N-SMase), but not acidic (A-SMase), sphingomyelinase was involved in Abeta1-42-mediated neuronal apoptosis and cell death. Abeta1-42-induced production of ceramide was redox-sensitive, as reactive oxygen species were involved in the activation of N-SMase but not A-SMase. Abeta1-42 peptides induced the NADPH oxidase-mediated production of superoxide radicals in neurons that was involved in the activation of N-SMase, but not A-SMase, via hydrogen peroxide. Consistently, superoxide radicals generated by hypoxanthine and xanthine oxidase also induced the activation of N-SMase, but not A-SMase, through a catalase-sensitive pathway. Furthermore, antisense knockdown of p22phox, a subunit of NADPH oxidase, inhibited Abeta1-42-induced neuronal apoptosis and cell death. These studies suggest that fibrillar Abeta1-42 peptides induce neuronal apoptosis through the NADPH oxidase-superoxide-hydrogen peroxide-NS-Mase-ceramide pathway.  相似文献   

6.
7.
Acid sphingomyelinase (A-SMase, EC 3.1.4.12) catalyzes the lysosomal degradation of sphingomyelin to phosphorylcholine and ceramide. Inherited deficiencies of acid sphingomyelinase activity result in various clinical forms of Niemann-Pick disease, which are characterised by massive lysosomal accumulation of sphingomyelin. Sphingomyelin hydrolysis by both, acid sphingomyelinase and membrane-associated neutral sphingomyelinase, plays also an important role in cellular signaling systems regulating proliferation, apoptosis and differentiation. Here, we present a potent and selective novel inhibitor of A-SMase, L-alpha-phosphatidyl-D-myo-inositol-3,5-bisphosphate (PtdIns3,5P2), a naturally occurring substance detected in mammalian, plant and yeast cells. The inhibition constant Ki for the new A-SMase inhibitor PtdIns3,5P2 is 0.53 microM as determined in a micellar assay system with radiolabeled sphingomyelin as substrate and recombinant human A-SMase purified from insect cells. Even at concentrations of up to 50 microM, PtdIns3,5P2 neither decreased plasma membrane-associated, magnesium-dependent neutral sphingomyelinase activity, nor was it an inhibitor of the lysosomal hydrolases beta-hexosaminidase A and acid ceramidase. Other phosphoinositides tested had no or a much weaker effect on acid sphingomyelinase. Different inositol-bisphosphates were studied to elucidate structure-activity relationships for A-SMase inhibition. Our investigations provide an insight into the structural features required for selective, efficient inhibition of acid sphingomyelinase and may also be used as starting point for the development of new potent A-SMase inhibitors optimised for diverse applications.  相似文献   

8.
Ceramide and other sphingolipids are now recognized as novel intracellular signal mediators. One of the important and regulated steps in the metabolism of sphingolipids is the hydrolysis of sphingomyelin into ceramide by sphingomyelinases. Whereas some studies suggest a role for acid sphingomyelinase in cell regulation, several lines of investigation suggest that neutral sphingomyelinase (N-SMase) plays a critical role in stress responses including apoptosis. Recently the advanced purification of neutral membrane-bound magnesium-dependent sphingomyelinase from rat brain was reported on. The specific activity of the purified N-SMase was increased by approximately 3000-fold over the rat brain homogenate, and it is specifically activated by phosphatidylserine. In cells, N-SMase may be coupled to either the redox state and/or glutathione metabolism. The significance of N-SMase and ceramide in stress responses is discussed.  相似文献   

9.
Okamoto Y  Obeid LM  Hannun YA 《FEBS letters》2002,530(1-3):104-108
Recent studies demonstrate a role for intracellular oxidation in the regulation of neutral sphingomyelinase (N-SMase). Glutathione (GSH) has been shown to regulate N-SMase in vitro and in cells. However, it has not been established whether the effects of GSH in cells are due to direct action on N-SMase. In this study, treatment of human mammary carcinoma MCF-7 cells with diamide, a thiol-depleting agent, caused a decrease in intracellular GSH and degradation of sphingomyelin (SM) to ceramide. The SM pool hydrolyzed in response to diamide belonged to the bacterial SMase-resistant pool of SM. Importantly, pretreatment of MCF-7 cells with GSH, N-acetylcysteine, an antioxidant, or GW69A, a specific N-SMase inhibitor, prevented diamide-induced degradation of SM to ceramide, suggesting that intracellular levels of GSH regulate the extent to which SM is degraded to ceramide and that this probably involves a GW69A-sensitive N-SMase. Unexpectedly, expression of Bcl-xL prevented tumor necrosis factor--induced SM hydrolysis and ceramide accumulation but not the decrease in intracellular GSH. Furthermore, Bcl-xL inhibited diamide-induced SM hydrolysis and ceramide accumulation but not the decrease in intracellular GSH. These results suggest that the site of action of Bcl-xL is downstream of GSH depletion and upstream of ceramide accumulation, and that GSH probably does not exert direct physiologic effects on N-SMase.  相似文献   

10.
Magnesium-dependent neutral sphingomyelinase (N-SMase) present in plasma membranes is an enzyme that can be activated by stress in the form of inflammatory cytokines, serum deprivation, and hypoxia. The design of small molecule N-SMase inhibitors may offer new therapies for the treatment of inflammation, ischemic injury, and cerebral infarction. Recently, we synthesized a series of difluoromethylene analogues (SMAs) of sphingomyelin. We report here the effects of SMAs on the serum/glucose deprivation-induced death of neuronally differentiated pheochromocytoma (PC-12) cells and on cerebral infarction in mice. SMAs inhibited the enhanced N-SMase activity in the serum/glucose-deprived PC-12 cells, and thereby suppressed the apoptotic sequence: ceramide formation, c-Jun N-terminal kinase phosphorylation, caspase-3 activation, and DNA fragmentation in the nuclei. Administration of SMA-7 (10 mg/kg i.v.) with IC50= 3.3 microM to mice whose middle cerebral arteries were occluded reduced significantly the size of the cerebral infarcts, compared to the control mice. These results suggest that N-SMase is a key component of the signaling pathways in cytokine- and other stress-induced cellular responses, and that inhibiting or stopping N-SMase activity is an important strategy to prevent neuron death from ischemia.  相似文献   

11.
Activation of sphingomyelinase (SMase) by extracellular stimuli is the major pathway for cellular production of ceramide, a bioactive lipid mediator acting through sphingomyelin (SM) hydrolysis. Previously, we reported the existence of six forms of neutral pH–optimum and Mg2+-dependent SMase (N-SMase) in the membrane fractions of bovine brain. Here, we focus on N-SMase ε from salt-extracted membranes. After extensive purification by 12,780-fold with a yield of 1.3%, this enzyme was eventually characterized as N-SMase2. The major single band of 60-kDa molecular mass in the active fractions of the final purification step was identified as heat shock protein 60 (Hsp60) by matrix-assisted laser desorption/ionization time-of-flight mass spectrometric analysis. Proximity ligation assay and immunoprecipitation study showed that Hsp60 interacted with N-SMase2, prompting us to examine the effect of Hsp60 on N-SMase2 and ceramide production. Interestingly, Hsp60 siRNA treatment significantly increased the protein level of N-SMase2 in N-SMase2-overexpressed HEK293 cells. Furthermore, transfection of Hsp60 siRNA into PC12 cells effectively increased both N-SMase activity and ceramide production and increased dopamine re-uptake with paralleled increase. Taken together, these results show that Hsp60 may serve as a negative regulator in N-SMase2-induced dopamine re-uptake by decreasing the protein level of N-SMase2.  相似文献   

12.
Oxidative stress and excessive nitric oxide production via induction of inducible nitric oxide synthase (NOS)-2 have been shown in the pathogenesis of liver ischemia–reperfusion (IR) injury. Neutral sphingomyelinase (N-SMase)/ceramide pathway can regulate NOS2 expression therefore this study determined the role of selective N-SMase inhibition on nitrative and oxidative stress markers following liver IR injury. Selective N-SMase inhibitor was administered via intraperitoneal injections. Liver IR injury was created by clamping blood vessels supplying the median and left lateral hepatic lobes for 60 min, followed by 60 min reperfusion. Nitrative and oxidative stress markers were determined by evaluating NOS2 expression, protein nitration, nitrite/nitrate levels, 4-hydroxynonenal (HNE) formation, protein carbonyl levels and xanthine oxidase/xanthine dehydrogenase (XO/XDH) activity. Levels of sphingmyelin and ceramide in liver tissue were determined by an optimized multiple reaction monitoring method using ultra-fast liquid chromatography coupled with tandem mass spectrometry (MS/MS). Spingomyelin levels were significantly increased in all IR groups compared to controls. Treatment with a specific N-SMase inhibitor significantly decreased all measured ceramides in IR injury. NOS2 expression, nitrite/nitrate levels and protein nitration were significantly greater in IR injury and decreased with N-SMase inhibition. Treatment with a selective N-SMase inhibitor significantly decreased HNE formation, protein carbonyl levels and the hepatic conversion of XO. Data confirm the role of nitrative and oxidative injury in IR and highlight the protective effect of selective N-SMase inhibition. Future studies evaluating agents blocking N-SMase activity can facilitate the development of treatment strategies to alleviate oxidative injury in liver I/R injury.  相似文献   

13.
The relative content of phosphatidylcholine is lower and that of sphingomyelin is higher in transplantable fast growing mouse hepatoma-22, thus decreasing their ratio approximately 2.5-fold versus normal liver. The ceramide content and the neutral sphingomyelinase activity is markedly higher (3- and 6.5-fold, respectively), whereas the acid sphingomyelinase activity is 4-fold lower in hepatoma-22 versus normal liver. The content of saturated fatty acids in ceramide and sphingomyelin of hepatoma-22 is higher than in normal liver. All sphingolipids of hepatoma-22 contain a considerable amount (25-37%) of sphinganine (dihydrosphingosine) along with sphingenine (sphingosine), whereas sphingolipids of normal liver contain predominantly sphingenine (over 95%). These results indicate that the activity of enzymes involved in sphingolipid biosynthesis and catabolism is disturbed in the transplantable mouse hepatoma-22 compared to normal liver.  相似文献   

14.
The sphingolipid ceramide is considered to be an important intracellular mediator. However, many aspects of its action and the role of several different ceramide generating sphingomyelinases are still unclear. Recently, we reported on the synthesis of the first selective irreversible inhibitor of the neutral sphingomyelinase (N-SMase), as well as the identification of Manumycin A and some of its analogues as irreversible inhibitors of N-SMase. For the development of pharmacologically interesting competitive inhibitors of N-SMase, structure-activity studies are essential. Herein we show the synthesis and enzymatic investigation of two scyphostatin analogues 3a and 3b, revealing the importance of the primary hydroxy group in compound 2 for N-SMase inhibition.  相似文献   

15.
Previous studies have revealed the activation of neutral sphingomyelinase (N-SMase)/ceramide pathway in hepatic tissue following warm liver ischemia reperfusion (IR) injury. Excessive ceramide accumulation is known to potentiate apoptotic stimuli and a link between apoptosis and endoplasmic reticulum (ER) stress has been established in hepatic IR injury. Thus, this study determined the role of selective N-SMase inhibition on ER stress and apoptotic markers in a rat model of liver IR injury. Selective N-SMase inhibitor was administered via intraperitoneal injections. Liver IR injury was created by clamping blood vessels supplying the median and left lateral hepatic lobes for 60?min, followed by 60?min reperfusion. Levels of sphingmyelin and ceramide in liver tissue were determined by an optimized multiple reactions monitoring (MRM) method using ultrafast-liquid chromatography (UFLC) coupled with tandem mass spectrometry (MS/MS). Spingomyelin levels were significantly increased in all IR groups compared with controls. Treatment with a specific N-SMase inhibitor significantly decreased all measured ceramides in IR injury. A significant increase was observed in ER stress markers C/EBP-homologous protein (CHOP) and 78?kDa glucose-regulated protein (GRP78) in IR injury, which was not significantly altered by N-SMase inhibition. Inhibition of N-SMase caused a significant reduction in phospho-NF-kB levels, hepatic TUNEL staining, cytosolic cytochrome c, and caspase-3, -8, and -9 activities which were significantly increased in IR injury. Data herein confirm the role of ceramide in increased apoptotic cell death and highlight the protective effect of N-SMase inhibition in down-regulation of apoptotic stimuli responses occurring in hepatic IR injury.  相似文献   

16.
There is strong evidence indicating a role for ceramide as a second messenger in processes such as apoptosis, cell growth and differentiation, and cellular responses to stress. Ceramide formation from the hydrolysis of sphingomyelin is considered to be a major pathway of stress-induced ceramide production with magnesium-dependent neutral sphingomyelinase (N-SMase) identified as a prime candidate in this pathway. The recent cloning of a mammalian N-SMase-nSMase2- and generation of nSMase2 knockout/mutant mice have now provided vital tools with which to further study the regulation and roles of this enzyme in both a physiological and pathological context. In the present review, we summarize current knowledge on N-SMase relating this to what is known about nSMase2. We also discuss the future areas of nSMase2 research important for molecular understanding of this enzyme and its physiological roles.  相似文献   

17.
18.
There is strong evidence indicating a role for ceramide as a second messenger in processes such as apoptosis, cell growth and differentiation, and cellular responses to stress. Ceramide formation from the hydrolysis of sphingomyelin is considered to be a major pathway of stress-induced ceramide production with magnesium-dependent neutral sphingomyelinase (N-SMase) identified as a prime candidate in this pathway. The recent cloning of a mammalian N-SMase-nSMase2- and generation of nSMase2 knockout/mutant mice have now provided vital tools with which to further study the regulation and roles of this enzyme in both a physiological and pathological context. In the present review, we summarize current knowledge on N-SMase relating this to what is known about nSMase2. We also discuss the future areas of nSMase2 research important for molecular understanding of this enzyme and its physiological roles.  相似文献   

19.
A neutral sphingomyelinase which cleaves phosphorylcholine from sphingomyelin at a pH optima of 7.4 was purified 440-fold to apparent homogeneity from normal human urine concentrate employing Sephadex G-75 column chromatography, preparative isoelectric focusing, and sphingosylphospholcholine CH-Sepharose column chromatography. The enzyme is composed of a single polypeptide whose apparent molecular weight is 92,000. Analytical isoelectric focusing revealed that the pI of this enzyme is 6.5. Purified neutral sphingomyelinase was devoid of beta-galactosidase and beta-N-acetylglucosaminidase activity originally present in the urine concentrate. The purified neutral sphingomyelinase (N-SMase) had low levels of phospholipase A1 and A2 activity when phosphatidylcholine was used as a substrate and detergents were included in the assay mixture. However, it had no phospholipase activity toward phosphatidylglycerol and sphingomyelin at pH 4.5 irrespective of the presence or absence of detergents. Monospecific polyclonal antibodies raised against N-SMase immunoprecipitated approximately 70% of N-SMase activity from urine, human kidney proximal tubular cells, and partially purified membrane-bound N-SMase from these cells. Western immunoblot assays revealed that the monospecific polyclonal antibody against urinary N-SMase recognized both the urinary N-SMase and the membrane-bound N-SMase. Because this enzyme is distinct biochemically and immunologically as compared to acid sphingomyelinase (EC 3.1.4.12), we would like to assign it an enzyme catalog number of EC 3.1.4.13. The availability of N-SMase and corresponding antibody will be useful in studying various aspects of this enzyme in biological systems.  相似文献   

20.
The magnesium-dependent, plasma membrane-associated neutral sphingomyelinase (N-SMase) catalyzes hydrolysis of membrane sphingomyelin to form ceramide, a lipid signaling molecule implied in intracellular signaling. We report here the biochemical purification to apparent homogeneity of N-SMase from bovine brain. Proteins from Nonidet P-40 extracts of brain membranes were subjected to four purification steps yielding a N-SMase preparation that exhibited a specific enzymatic activity 23,330-fold increased over the brain homogenate. When analyzed by two-dimensional gel electrophoresis, the purified enzyme presented as two major protein species of 46 and 97 kDa, respectively. Matrix-assisted laser desorption/ionization-mass spectrometry analysis of tryptic peptides revealed at least partial identity of these two proteins. Amino acid sequencing of tryptic peptides showed no apparent homologies of bovine N-SMase to any known protein. Peptide-specific antibodies recognized a single 97-kDa protein in Western blot analysis of cell lysates. The purified enzyme displayed a K(m) of 40 microM for sphingomyelin with an optimal activity at pH 7-8. Bovine brain N-SMase was strictly dependent on Mg(2+), whereas Zn(2+) and Ca(2+) proved inhibitory. The highly purified bovine N-SMase was effectively blocked by glutathione and scyphostatin. Scyphostatin proved to be a potent inhibitor of N-SMase with 95% inhibition observed at 20 microM scyphostatin. The results of this study define a N-SMase that fulfills the biochemical and functional criteria characteristic of the tumor necrosis factor-responsive membrane-bound N-SMase.  相似文献   

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