Release of secretory phospholipase A2 from rat neuronal cells and its possible function in the regulation of catecholamine secretion

Matsuzawa, Atsushi; Murakami, Makoto; Atsumi, Gen Ichi; Imai, Kazuhiro; Prados, Pablo; Inoue, Kazuhide; Kudo, Ichiro

doi:10.1042/bj3180701

Cited by 100 publications

(86 citation statements)

References 53 publications

(59 reference statements)

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“…Although both cPLA 2 and sPLA 2 were activated in some of those studies (Kim et al, 1995), it is likely that mainly cPLA 2 was activated in ours, as cPLA 2 is sensitive to the low Ca 2 + concentrations, 300 nM to 1 mM (Clark et al, 1995;Ismailov et al, 2004) that occur during normal neuronal activation. sPLA 2 activation requires a much higher Ca 2 + concentration, 16-18 mM, and is involved mainly in the presynaptic release of synaptic vesicles (Dennis, 1994;Matsuzawa et al, 1996;Wei et al, 2003). iPLA 2 is Ca 2 + -independent and selective for DHA acid rather than AA (Dennis, 1994;Strokin et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

“…cPLA 2 has been localized at postsynaptic neuronal membranes in the brain (Basavarajappa et al, 1998;Ong et al, 1999;Pardue et al, 2003) and is activated by 300 nM to 1 mM Ca 2 + (Clark et al, 1995), in the physiological range of intracellular Ca 2 + during neuronal activation (Ismailov et al, 2004). sPLA 2 is activated at much higher Ca 2 + concentrations, 16-18 mM (Dennis, 1994), and is localized in presynaptic vesicles that are released by exocytosis during membrane depolarization (Matsuzawa et al, 1996;Wei et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Chronic Lithium Chloride Administration Attenuates Brain NMDA Receptor-Initiated Signaling via Arachidonic Acid in Unanesthetized Rats

Basselin

Chang

Bell

et al. 2005

Neuropsychopharmacol

103

132

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It has been proposed that lithium is effective in bipolar disorder (BD) by inhibiting glutamatergic neurotransmission, particularly via N-methyl-D-aspartate receptors (NMDARs). To test this hypothesis and to see if the neurotransmission could involve the NMDARmediated activation of phospholipase A 2 (PLA 2 ), to release arachidonic acid (AA) from membrane phospholipid, we administered subconvulsant doses of NMDA to unanesthetized rats fed a chronic control or LiCl diet. We used quantitative autoradiography following the intravenous injection of radiolabeled AA to measure regional brain incorporation coefficients k* for AA, which reflect receptormediated activation of PLA 2 . In control diet rats, NMDA (25 and 50 mg/kg i.p.) compared with i.p. saline increased k* significantly in 49 and 67 regions, respectively, of the 83 brain regions examined. The regions affected were those with reported NMDARs, including the neocortex, hippocampus, caudate-putamen, thalamus, substantia nigra, and nucleus accumbens. The increases could be blocked by pretreatment with the specific noncompetitive NMDA antagonist MK-801 ((5R,10S)-( + )-5-methyl-10,11-dihydro-5H-dibenzo[a,d] cyclohepten-5,10-imine hydrogen maleate) (0.3 mg/kg i.p.), as well by a 6-week LiCl diet sufficient to produce plasma and brain lithium concentrations known to be effective in BD. MK-801 alone reduced baseline values for k* in many brain regions. The results show that it is possible to image NMDA signaling via PLA 2 activation and AA release in vivo, and that chronic lithium blocks this signaling, consistent with its suggested mechanism of action in BD.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Chronic Lithium Chloride Administration Attenuates Brain NMDA Receptor-Initiated Signaling via Arachidonic Acid in Unanesthetized Rats

Basselin

Chang

Bell

et al. 2005

Neuropsychopharmacol

103

132

View full text Add to dashboard Cite

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“…For neural differentiation, the cells (10 4 cells/ml) were cultured with appropriate concentrations of rat nerve growth factor (NGF; Sigma) in type I collagen-coated 6-or 12-well plates (Iwaki Glass) for up to 3 days (14). Normal human pulmonary fibroblasts (NHPF) and culture media with supplements for these cells were purchased from BioWhittaker.…”

Section: Methodsmentioning

confidence: 99%

“…2D), indicating that sPLA 2 -X accumulates in the Golgi prior to secretion. sPLA 2 -X Induces Neurite Outgrowth in PC12 Cells-In an attempt to identify some functional aspects of sPLA 2 -X in peripheral neuronal cells, we took advantage of PC12 cells, which differentiate into sympathetic neuron-like cells following culture with 100 ng/ml NGF (14), as shown in Fig. 3A.…”

Section: Spla 2 -X Is Expressed In Peripheral Neuronal Fibers In Var-mentioning

confidence: 99%

Neuronal Expression and Neuritogenic Action of Group X Secreted Phospholipase A2

Masuda

Murakami

Takanezawa

et al. 2005

Journal of Biological Chemistry

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Although individual mammalian secreted phospholipase A 2 (sPLA 2 ) enzymes exhibit unique tissue and cellular distributions, the cell type-specific functions of each enzyme remain largely unknown. In this study, we found by immunohistochemistry that group X sPLA 2 (sPLA 2 -X) is uniquely located in the peripheral neuronal fibers, an observation that was supported by detection of its transcript and protein in the neuronal cell line PC12 and in primary dorsal root ganglia neurons. Adenoviral expression of sPLA 2 -X in PC12 cells facilitated neurite outgrowth, particularly when combined with a suboptimal concentration of nerve growth factor. In neuronally differentiated PC12 cells, sPLA 2 -X was preferentially localized in the Golgi apparatus and growth cones, and proteolytic conversion of the proenzyme to mature enzyme mainly occurred after the secretion process. The neurite-extending ability of sPLA 2 -X depended on the production of its catalytic product, lysophosphatidylcholine. Moreover, nerve growth factor-induced neurite extension of PC12 cells was modestly but significantly attenuated by an anti-sPLA 2 -X antibody or by a small interfering RNA for sPLA 2 -X. These observations suggest the potential contribution of sPLA 2 -X to neuronal differentiation, and possibly repair, under certain conditions.

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“…Several phospholipases A2 have been identified that preferentially hydrolyze phosphatidic acid. These include a phospholipase A2 activity enriched in the brain and a secretory phospholipase A2, which is synthesized in astrocytes in response to inflammatory mediators, elevated in activity on cerebral ischemia/reperfusion, and released in conjunction with neurotransmitter release from synaptic vesicles (Oka and Arita, 1991;Lauritzen et a!., 1994;Fourcade et a!., 1995;Thomson and Clark, 1995;Matsuzawa et al, 1996;Snitko eta!., 1997). It is interesting that a related secretory phospho!ipase A2, was found to synergize with glutamate in the stimulation of neuronal death (Kolko et a!., 1996).…”

Section: Lpa Induces a Decrease In Mitochondrial Membrane Potentialmentioning

confidence: 99%

Lysophosphatidic Acid Induces Necrosis and Apoptosis in Hippocampal Neurons

Holtsberg¹,

Steiner²,

Keller³

et al. 1998

Journal of Neurochemistry

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A diverse body of evidence indicates a role for the lipid biomediator lysophosphatidic acid (LPA) in the CNS. This study identifies and characterizes the induction of neuronal death by LPA. Treatment of cultured hippocampal neurons from embryonic rat brains with 50~eM LPA resulted in neuronal necrosis, as determined morphologically and by the release of lactate dehydrogenase. A concentration of LPA as low as 10~iMled to the release of lactate dehydrogenase. In contrast, treatment of neurons with 0.1 or 1.0 j.tM LPA resulted in apoptosis, as determined by chromatin condensation. In addition, neuronal death induced by 1 ,aM LPA was characterized as apoptotic on the basis of terminal dUTP nick end-labeling (TUNEL) staining, externalization of phosphatidylserme, and protection against chromatin condensation, TU N EL staining, and phosphatidylserine externalization by treatment with N-benzyloxycarbonyl-Val-Ala-Aspfluoromethyl ketone, a broad-spectrum inhibitor of caspases, i.e., members of the interleukin-1/3 converting enzyme family. Studies with antagonists of ionotropic glutamate receptors did not indicate a significant role for these receptors in apoptosis induced by 1 1iM LPA. LPA (1 1iM) also induced a decrease in mitochondrial membrane potential. Moreover, pretreatment of neurons with cyclosporin A protected against the LPA-induced decrease in mitochondrial membrane potential and neuronal apoptosis. Thus, LPA, at pathophysiological levels, can induce neuronal apoptosis and could thereby participate in neurodegenerative disorders. Key Words: Lysophosphatidic acid-Apoptosis-Neurons-Mitochondrial membrane potential -Cyclosporin A.

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Release of secretory phospholipase A2 from rat neuronal cells and its possible function in the regulation of catecholamine secretion

Cited by 100 publications

References 53 publications

Chronic Lithium Chloride Administration Attenuates Brain NMDA Receptor-Initiated Signaling via Arachidonic Acid in Unanesthetized Rats

Chronic Lithium Chloride Administration Attenuates Brain NMDA Receptor-Initiated Signaling via Arachidonic Acid in Unanesthetized Rats

Neuronal Expression and Neuritogenic Action of Group X Secreted Phospholipase A2

Lysophosphatidic Acid Induces Necrosis and Apoptosis in Hippocampal Neurons

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