An increased production of superoxide has been shown to mediate glutamate-induced neuron death. We monitored intracellular superoxide production of hippocampal neurons during and after exposure to the glutamate receptor agonist NMDA (300 microm). During a 30 min NMDA exposure, intracellular superoxide production increased significantly and remained elevated for several hours after wash-out of NMDA. After a 5 min exposure, superoxide production remained elevated for 10 min, but then rapidly returned to baseline. Mitochondrial membrane potential also recovered after wash-out of NMDA. However, recovery of mitochondria was transient and followed by delayed mitochondrial depolarization, loss of cytochrome c, and a secondary rise in superoxide production 4-8 hr after NMDA exposure. Treatment with a superoxide dismutase mimetic before the secondary rise conferred the same protection against cell death as a treatment before the first. The secondary rise could be inhibited by the complex I inhibitor rotenone (in combination with oligomycin) and mimicked by the complex III inhibitor antimycin A. To investigate the relationship between cytochrome c release and superoxide production, human D283 medulloblastoma cells deficient in mitochondrial respiration (rho(-) cells) were exposed to the apoptosis-inducing agent staurosporine. Treatment with staurosporine induced mitochondrial release of cytochrome c, caspase activation, and cell death in control and rho(-) cells. However, a delayed increase in superoxide production was only observed in control cells. Our data suggest that the delayed superoxide production in excitotoxicity and apoptosis occurs secondary to a defect in mitochondrial electron transport and that mitochondrial cytochrome c release occurs upstream of this defect.
We have previously shown that nerve growth factor (NGF)-induced activation of nuclear factor-jB increased neuronal expression of Bcl-xL, an anti-apoptotic Bcl-2 family protein. In the present study we determined the role of the p75 neurotrophin receptor in constitutive and NGF-induced survival signalling. Treatment of rat pheochromocytoma (PC12) cells with a blocking anti-rat p75 antibody or inhibition of p75 expression by antisense oligonucleotides reduced constitutive and NGF-induced bcl-xL expression. Treatment with the blocking anti-p75 antibody also inhibited NGF-induced activation of the survival kinase Akt. Inhibition of phosphatidylinositol-3-kinase (PI3 kinase) activity or overexpression of a dominant-negative mutant of Akt kinase inhibited NGF-induced nuclear factor-jB activation. Activation of Akt kinase by NGF was also observed in PC12nnr5 cells and cultured rat hippocampal neurones which both lack significant TrkA expression. Treatment of hippocampal neurones with the blocking anti-p75 antibody inhibited constitutive and NGFinduced Bcl-xL expression, activation of Akt, and blocked the protective effect of NGF against excitotoxic and apoptotic injury. Our data suggest that the p75 neurotrophin receptor mediates constitutive and NGF-induced survival signalling in PC12 cells and hippocampal neurones, and that these effects are mediated via the PI3-kinase pathway.
Main conclusion
Two isoforms of phenylalanine ammonia-lyase (PAL) have been isolated as cDNA sequences from the hornwort Anthoceros agrestis. The encoded enzymes convert l-phenylalanine and to lower extents l-tyrosine and l-histidine. Thus, the functional presence of the general phenylpropanoid pathway in one of the earliest land plant groups is established.
Abstract
The hornwort Anthoceros agrestis has an elaborated phenolic metabolism resulting in phenolic compounds, such as rosmarinic acid or megacerotonic acid. The general phenylpropanoid pathway is involved in the biosynthesis of these compounds. Two phenylalanine ammonia-lyase (PAL) genes, AaPAL1 and AaPAL2, have been identified in Anthoceros agrestis and the protein with an N-terminal 6xHis-tag heterologously synthesized in Escherichia coli for a full biochemical characterization. Both PAL proteins accept l-phenylalanine, l-tyrosine as well as l-histidine as substrates, although the activity is explicitly the highest with l-phenylalanine. Km values as well as catalytic efficiencies were determined for phenylalanine (Km AaPAL1 39 µM, AaPAL2 18 µM) and tyrosine (Km AaPAL1 3.3 mM, AaPAL2 3.5 mM). In suspension cultures of Anthoceros agrestis, PAL genes were transcribed in parallel to rosmarinic acid (RA) accumulation and both showed highest abundance in the early growth phase. In a phylogenetic tree, both AaPAL amino acid sequences grouped within a clade with PAL amino acid sequences of diverse origin ranging from non-vascular to vascular plants, while most PALs from eudicots and monocots were mainly found in two other clades. The similarity of the hornwort PAL amino acid sequences to PAL sequences from vascular plants is more than 80% showing a strong conservation within the land plants. With this characterization of PALs from Anthoceros agrestis together with former investigations concerning cinnamic acid 4-hydroxylase and 4-coumaric acid CoA-ligase, the functional presence of the general phenylpropanoid pathway in this hornwort is proven.
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