Gabriele Hessler scite author profile

Osmotic erythrocyte shrinkage leads to activation of cation channels with subsequent Ca2+ entry and stimulates a sphingomyelinase with subsequent formation of ceramide. Ca2+ and ceramide then activate a scramblase leading to breakdown of phosphatidylserine asymmetry of the cell membrane. The mediators accounting for activation of erythrocyte sphingomyelinase and phosphatidylserine exposure remained elusive. The study demonstrates that platelet-activating factor (PAF) is released from erythrocytes upon hyperosmotic cell shrinkage. The experiments further disclose the presence of PAF receptors in erythrocytes and show that PAF stimulates the breakdown of sphingomyelin and the release of ceramide from erythrocytes at isotonic conditions. PAF further triggers cell shrinkage (decrease of forward scatter) and phosphatidylserine exposure (annexin binding) of erythrocytes. The stimulation of annexin-binding is blunted by a genetic knockout of PAF receptors, by the PAF receptor antagonist ABT491 or by inhibition of sphingomyelinase with urea. In conclusion, PAF activates an erythrocyte sphingomyelinase and the then formed ceramide leads to the activation of scramblase with subsequent phosphatidylserine exposure.

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Regulation of hematogenous tumor metastasis by acid sphingomyelinase

Carpinteiro

Becker

Japtok

et al. 2015

EMBO Mol Med

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Metastatic dissemination of cancer cells is the ultimate hallmark of malignancy and accounts for approximately 90% of human cancer deaths. We investigated the role of acid sphingomyelinase (Asm) in the hematogenous metastasis of melanoma cells. Intravenous injection of B16F10 melanoma cells into wild-type mice resulted in multiple lung metastases, while Asm-deficient mice (Smpd1−/− mice) were protected from pulmonary tumor spread. Transplanting wild-type platelets into Asm-deficient mice reinstated tumor metastasis. Likewise, Asm-deficient mice were protected from hematogenous MT/ret melanoma metastasis to the spleen in a mouse model of spontaneous tumor metastasis. Human and mouse melanoma cells triggered activation and release of platelet secretory Asm, in turn leading to ceramide formation, clustering, and activation of α5β1 integrins on melanoma cells finally leading to adhesion of the tumor cells. Clustering of integrins by applying purified Asm or C16 ceramide to B16F10 melanoma cells before intravenous injection restored trapping of tumor cells in the lung in Asm-deficient mice. This effect was revertable by arginine-glycine-aspartic acid peptides, which are known inhibitors of integrins, and by antibodies neutralizing β1 integrins. These findings indicate that melanoma cells employ platelet-derived Asm for adhesion and metastasis.

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Characterization of the small molecule ARC39, a direct and specific inhibitor of acid sphingomyelinase in vitro

Naser¹,

Kadow²,

Schumacher³

et al. 2020

Journal of Lipid Research

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Inhibition of acid sphingomyelinase (ASM), a lysosomal enzyme that catalyzes the hydrolysis of sphingomyelin into ceramide and phosphorylcholine, may serve as an investigational tool or a therapeutic intervention to control many diseases. Specific ASM inhibitors are currently not sufficiently characterized. Here, we found that 1-aminodecylidene bis-phosphonic acid (ARC39) specifically and efficiently (>90%) inhibits both lysosomal and secretory ASM in vitro. Results from investigating sphingomyelin phosphodiesterase 1 (SMPD1/Smpd1) mRNA and ASM protein levels suggested that ARC39 directly inhibits ASM’s catalytic activity in cultured cells, a mechanism that differs from that of functional inhibitors of ASM. We further provide evidence that ARC39 dose- and time-dependently inhibits lysosomal ASM in intact cells, and we show that ARC39 also reduces platelet- and ASM-promoted adhesion of tumor cells. The observed toxicity of ARC39 is low at concentrations relevant for ASM inhibition in vitro, and it does not strongly alter the lysosomal compartment or induce phospholipidosis in vitro. When applied intraperitoneally in vivo, even subtoxic high doses administered short-term induced sphingomyelin accumulation only locally in the peritoneal lavage without significant accumulation in plasma, liver, spleen, or brain. These findings require further investigation with other possible chemical modifications. In conclusion, our results indicate that ARC39 potently and selectively inhibits ASM in vitro and highlight the need for developing compounds that can reach tissue concentrations sufficient for ASM inhibition in vivo.

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TNFR1-induced sphingomyelinase activation modulates TCR signaling by impairing store-operated Ca2+ influx

Church

Hessler

Goodall

et al. 2005

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Tumor necrosis factor alpha (TNF-alpha) is a potent, pleiotrophic cytokine, which is proinflammatory but can also suppress T lymphocyte function. In chronic inflammatory disease such as rheumatoid arthritis, exposure of T cells to TNF-alpha alters their ability to mount a response by modulating the T cell receptor (TCR) signaling pathway, but the mechanisms involved remain obscure. Here, we investigated the specific role of TNF receptor 1 (TNFR1) signaling in the modulation of the TCR signaling pathway. We observed a down-regulation of the intracellular calcium ([Ca(2+)](i)) signal in Jurkat T cells after just 30 min exposure to TNF-alpha, and maximum suppression was reached after 3 h. This effect was transient, and signals returned to normal after 12 h. This depression of [Ca(2+)](i) was also observed in human CD4+ T lymphocytes. The change in Ca(2+) signal was related to a decrease in the plasma membrane Ca(2+) influx, which was apparent even when the TCR signal was bypassed using thapsigargin to induce a Ca(2+) influx. The role of TNF-alpha-induced activation of the sphingolipid cascade in this pathway was examined. The engagement of TNFR1 by TNF-alpha led to a time-dependent increase in acid sphingomyelinase (SMase; ASM) activity, corresponding with a decrease in cellular sphingomyelin. In parallel, there was an increase in cellular ceramide, which correlated directly with the decrease in the magnitude of the Ca(2+) response to phytohemagglutinin. Exogenous addition of SMase or ceramide mimicked the effects of TNFR1 signals on Ca(2+) responses in Jurkat T cells. Direct evidence for the activation of ASM in this pathway was provided by complete abrogation of the TNF-alpha-induced inhibition of the Ca(2+) influx in an ASM-deficient murine T cell line (OT-II(+/+)ASM(-/-)). This potent ability of TNF-alpha to rapidly modulate the TCR Ca(2+) signal via TNFR1-induced ASM activation can explain its suppressive effect on T cell function. This TNFR1 signaling pathway may play a role as an important regulator of T cell responses.

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Regulation of Arthritis Severity by the Acid Sphingomyelinase

Beckmann

Becker

Walter

et al. 2017

Cell Physiol Biochem

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Background/Aims: Rheumatoid arthritis is a chronic autoimmune disease hallmarked by inflammation in synovial joints. Treatment is hampered by the lack of a cure and current disease-modifying drugs are associated with potentially severe toxicities. Methods: We investigated arthritis severity by measuring joint swelling and pro-inflammatory cytokine production in a murine experimental model of inflammatory arthritis (antigen-induced arthritis). We analyzed acid sphingomyelinase knock-out mice and wild-type littermates, as well as mice treated with the pharmacological acid sphingomyelinase inhibitor amitriptyline. Results: Genetic ablation or pharmacological inhibition of acid sphingomyelinase reduced joint swelling and levels of pro-inflammatory cytokines in the arthritic joint. Conclusion: We identified acid sphingomyelinase as a novel druggable target in rheumatoid arthritis. Functional inhibitors of acid sphingomyelinase have been clinically used for decades, are well tolerated and suitable for long-term treatment. They would be immediately available for clinical development as a novel rheumatoid arthritis therapy.

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