Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The neutral ceramidase is a key enzyme in the regulation of cellular ceramide levels. Previously we have reported that stimulation of rat renal mesangial cells with nitric oxide (NO) donors leads to an inhibition of neutral ceramidase activity which is due to increased degradation of the enzyme. This and the concomitant activation of the sphingomyelinase results in an amplification of ceramide levels. Here, we show that the NO-triggered degradation of neutral ceramidase involves activation of the ubiquitin/proteasome complex. The specific proteasome inhibitor lactacystin completely reverses the NO-induced degradation of ceramidase protein and neutral ceramidase activity. As a consequence, the cellular amount of ceramide, which drastically increases by NO stimulation, is reduced in the presence of lactacystin. Furthermore, ubiquitinated neutral ceramidase accumulates after NO stimulation. In summary, our data clearly show that the ubiquitin/proteasome complex is an important determinant of neutral ceramidase activity and thereby regulates the availability of ceramide.
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PMID:Nitric oxide induces neutral ceramidase degradation by the ubiquitin/proteasome complex in renal mesangial cell cultures. 1248 9

Several lines of evidence suggest that neutral ceramidase is involved in the regulation of ceramide-mediated signaling. Recently, the enzymes from mouse and rat were found to be localized at plasma membranes as a type II integral membrane protein, occasionally being detached from the cells after proteolytic processing of the NH(2)-terminal anchoring region (Tani, M., Iida, H., and Ito, M. (2003) J. Biol. Chem. 278, 10523-10530). We report here that conserved hydrophobic amino acid residues in the COOH-terminal tail are indispensable for the correct folding and localization, and enzyme activity of neutral ceramidase. Truncation of four, but not three, amino acid residues from the COOH terminus of rat neutral ceramidase resulted in a complete loss of enzyme activity as well as cell surface expression in HEK293 cells. Point mutation analysis revealed that Ile(758), the 4(th) amino acid residue from the COOH terminus, and Phe(756) are essential for the enzyme to function. The truncated and mutated enzymes were found to be retained in the endoplasmic reticulum (ER) and rapidly degraded without transportation to the Golgi apparatus. Treatment of the cells expressing the aberrant COOH-terminal enzyme with MG-132, a specific inhibitor for the proteasome, increased the accumulation of the enzyme in the ER, indicating that the misfolded enzyme was degraded by the proteasome. It was also found that the COOH-terminal tail was indispensable for the enzyme activity and correct folding of the prokaryote ceramidase from Pseudomonas aeruginosa, indicating that the importance of the COOH-terminal tail of the enzyme has been preserved through evolution.
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PMID:Conserved amino acid residues in the COOH-terminal tail are indispensable for the correct folding and localization and enzyme activity of neutral ceramidase. 1512 44

During the selection process in the thymus, most thymocytes are eliminated by apoptosis through signaling via TCR or glucocorticoids. The involvement of ceramide (Cer) and sphingosine (SP), important apoptotic mediators, remains poorly defined in glucocorticoid-induced apoptosis. We report that, in mouse thymocytes, apoptosis triggered by 10(-6) M dexamethasone (DX) was preceded by a caspase-dependent Cer and SP generation, together with activation of acidic and neutral ceramidases. Apoptosis was drastically reduced by blocking either sphingolipid production (by acid sphingomyelinase inhibitor) or SP production (by ceramidase inhibitors), but not by inhibition of de novo Cer synthesis. Thus, SP generated through acid sphingomyelinase and ceramidase activity would contribute to the apoptotic effect of DX. Consistent with this hypothesis, SP addition or inhibition of SP kinase induced thymocyte apoptosis. DX induced a proteasome-dependent loss of mitochondrial membrane potential (Deltapsim) and caspase-8, -3, and -9 processing. Apoptosis was abolished by inhibition of Deltapsim loss or caspase-8 or -3, but not caspase-9. Deltapsim loss was independent of SP production and caspase-8, -3, and -9 activation. However, inhibition of SP production reduced caspase-8 and -3, but not caspase-9 processing. Proteasome inhibition impaired activation of the three caspases, whereas inhibition of Deltapsim loss solely blocked caspase-9 activation. These data indicate that DX-induced apoptosis is mediated in part by SP, which contributes, together with proteasome activity, to caspase-8-3 processing independently of mitochondria, and in part by the proteasome/mitochondria pathway, although independently of caspase-9 activation.
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PMID:Sphingosine contributes to glucocorticoid-induced apoptosis of thymocytes independently of the mitochondrial pathway. 1535 25