Christophe Poirier scite author profile

Background:In AD, amyloid protein is associated with neurodegeneration, which may involve amyloid effects on astrocytes. Results: In astrocytes, amyloid peptide triggers secretion of proapoptotic exosomes ("apoxosomes") that are associated with ceramide and PAR-4. Conclusion: Activation of nSMase2 and expression of PAR-4 is critical for the secretion of apoxosomes and glial apoptosis. Significance: Apoxosomes may contribute to glial apoptosis, and therefore, neurodegeneration in AD.Amyloid protein is well known to induce neuronal cell death, whereas only little is known about its effect on astrocytes. We found that amyloid peptides activated caspase 3 and induced apoptosis in primary cultured astrocytes, which was prevented by caspase 3 inhibition. Apoptosis was also prevented by shRNA-mediated down-regulation of PAR-4, a protein sensitizing cells to the sphingolipid ceramide. Consistent with a potentially proapoptotic effect of PAR-4 and ceramide, astrocytes surrounding amyloid plaques in brain sections of the 5xFAD mouse (and Alzheimer disease patient brain) showed caspase 3 activation and were apoptotic when co-expressing PAR-4 and ceramide. Apoptosis was not observed in astrocytes with deficient neutral sphingomyelinase 2 (nSMase2), indicating that ceramide generated by nSMase2 is critical for amyloid-induced apoptosis. Antibodies against PAR-4 and ceramide prevented amyloid-induced apoptosis in vitro and in vivo, suggesting that apoptosis was mediated by exogenous PAR-4 and ceramide, potentially associated with secreted lipid vesicles. This was confirmed by the analysis of lipid vesicles from conditioned medium showing that amyloid peptide induced the secretion of PAR-4 and C18 ceramide-enriched exosomes. Exosomes were not secreted by nSMase2-deficient astrocytes, indicating that ceramide generated by nSMase2 is critical for exosome secretion. Consistent with the ceramide composition in amyloid-induced exosomes, exogenously added C18 ceramide restored PAR-4-containing exosome secretion in nSMase2-deficient astrocytes. Moreover, isolated PAR-4/ceramide-enriched exosomes were taken up by astrocytes and induced apoptosis in the absence of amyloid peptide. Taken together, we report a novel mechanism of apoptosis induction by PAR-4/ceramide-enriched exosomes, which may critically contribute to Alzheimer disease.

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Endothelial disruptive proinflammatory effects of nicotine and e-cigarette vapor exposures

Schweitzer

Chen

Law

et al. 2015

American Journal of Physiology-Lung Cellular and Molecular Phys

227

190

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The increased use of inhaled nicotine via e-cigarettes has unknown risks to lung health. Having previously shown that cigarette smoke (CS) extract disrupts the lung microvasculature barrier function by endothelial cell activation and cytoskeletal rearrangement, we investigated the contribution of nicotine in CS or e-cigarettes (e-Cig) to lung endothelial injury. Primary lung microvascular endothelial cells were exposed to nicotine, e-Cig solution, or condensed e-Cig vapor (1-20 mM nicotine) or to nicotine-free CS extract or e-Cig solutions. Compared with nicotine-containing extract, nicotine free-CS extract (10-20%) caused significantly less endothelial permeability as measured with electric cell-substrate impedance sensing. Nicotine exposures triggered dose-dependent loss of endothelial barrier in cultured cell monolayers and rapidly increased lung inflammation and oxidative stress in mice. The endothelial barrier disruptive effects were associated with increased intracellular ceramides, p38 MAPK activation, and myosin light chain (MLC) phosphorylation, and was critically mediated by Rho-activated kinase via inhibition of MLC-phosphatase unit MYPT1. Although nicotine at sufficient concentrations to cause endothelial barrier loss did not trigger cell necrosis, it markedly inhibited cell proliferation. Augmentation of sphingosine-1-phosphate (S1P) signaling via S1P1 improved both endothelial cell proliferation and barrier function during nicotine exposures. Nicotine-independent effects of e-Cig solutions were noted, which may be attributable to acrolein, detected along with propylene glycol, glycerol, and nicotine by NMR, mass spectrometry, and gas chromatography, in both e-Cig solutions and vapor. These results suggest that soluble components of e-Cig, including nicotine, cause dose-dependent loss of lung endothelial barrier function, which is associated with oxidative stress and brisk inflammation.

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A Mutation in the Inner Mitochondrial Membrane Peptidase 2-Like Gene (Immp2l) Affects Mitochondrial Function and Impairs Fertility in Mice1

et al. 2008

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The mitochondrion is involved in energy generation, apoptosis regulation, and calcium homeostasis. Mutations in genes involved in mitochondrial processes often result in a severe phenotype or embryonic lethality, making the study of mitochondrial involvement in aging, neurodegeneration, or reproduction challenging. Using a transgenic insertional mutagenesis strategy, we generated a mouse mutant, Immp2lTg(Tyr)979Ove, with a mutation in the inner mitochondrial membrane peptidase 2-like (Immp2l) gene. The mutation affected the signal peptide sequence processing of mitochondrial proteins cytochrome c1 and glycerol phosphate dehydrogenase 2. The inefficient processing of mitochondrial membrane proteins perturbed mitochondrial function so that mitochondria from mutant mice manifested hyperpolarization, higher than normal superoxide ion generation, and higher levels of ATP. Homozygous Immp2lTg(Tyr)979Ove females were infertile due to defects in folliculogenesis and ovulation, whereas mutant males were severely subfertile due to erectile dysfunction. The data suggest that the high superoxide ion levels lead to a decrease in the bioavailability of nitric oxide and an increase in reactive oxygen species stress, which underlies these reproductive defects. The results provide a novel link between mitochondrial dysfunction and infertility and suggest that superoxide ion targeting agents may prove useful for treating infertility in a subpopulation of infertile patients.

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Tumor necrosis factor‐α‐induced neutral sphingomyelinase‐2 modulates synaptic plasticity by controlling the membrane insertion of NMDA receptors

Wheeler

Knapp

Bandaru

et al. 2009

Journal of Neurochemistry

175

172

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Modifications in the number and complement of glutamatesensing receptors in the post-synaptic membrane are key mechanisms used to adjust synaptic strength. There is abundant evidence that the trafficking of a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors is critical for long-term potentiation (LTP) and long-term depression of synaptic strength [see (Malinow and Malenka 2002;Song and Huganir 2002;Bredt and Nicoll 2003) for reviews], and emerging evidence suggests that trafficking of NMDA receptors is also important for synaptic plasticity (Lan et al. 2001;Roche et al. 2001;Nong et al. 2003;Scott et al. 2004;Lavezzari et al. 2004;Washbourne et al. 2004;Barria and Malinow 2002;Rao and Craig 1997;Quinlan et al. 1999;Watt et al. 2000). Although the identification and characterization of protein components involved in the trafficking of glutamate receptors has been an active and productive area of research, there has been little progress in understanding how changes in membrane lipid components affect the function and trafficking of glutamate receptors. Recent experimental evidence suggests that up to 60% of NMDA receptors are located in lipid rafts (Besshoh et al. Abbreviations used: AMPA, a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid; DAG, diacylglycerol; EPSC, excitatory post-synaptic current; IL, interleukin; ISP-1, myriocin; LTP, long-term potentiation; MS, mass spectrometry; nSMase2, neutral sphingomyelinase 2; PBS, phosphate-buffered saline; PKA/C, protein kinase A/C; PLC, phospholipase C; TNF, tumor necrosis factor. AbstractThe insertion and removal of NMDA receptors from the synapse are critical events that modulate synaptic plasticity. While a great deal of progress has been made on understanding the mechanisms that modulate trafficking of NMDA receptors, we do not currently understand the molecular events required for the fusion of receptor containing vesicles with the plasma membrane. Here, we show that sphingomyelin phosphodiesterase 3 (also known as neutral sphingomyelinase-2) is critical for tumor necrosis factor (TNF) a-induced trafficking of NMDA receptors and synaptic plasticity. TNFa initiated a rapid increase in ceramide that was associated with increased surface localization of NMDA receptor NR1 subunits and a specific clustering of NR1 phosphorylated on serines 896 and 897 into lipid rafts. Brief applications of TNFa increased the rate and amplitude of NMDA-evoked calcium bursts and enhanced excitatory post-synaptic currents. Pharmacological inhibition or genetic mutation of neutral sphingomyelinase-2 prevented TNFa-induced generation of ceramide, phosphorylation of NR1 subunits, clustering of NR1, enhancement of NMDA-evoked calcium flux and excitatory post-synaptic currents.

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A deletion in the gene encoding sphingomyelin phosphodiesterase 3 (Smpd3) results in osteogenesis and dentinogenesis imperfecta in the mouse

et al. 2005

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The mouse mutation fragilitas ossium (fro) leads to a syndrome of severe osteogenesis and dentinogenesis imperfecta with no detectable collagen defect. Positional cloning of the locus identified a deletion in the gene encoding neutral sphingomyelin phosphodiesterase 3 (Smpd3) that led to complete loss of enzymatic activity. Our knowledge of SMPD3 function is consistent with the pathology observed in mutant mice and provides new insight into human pathologies.

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