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Excitatory neurosteroids attenuate apoptotic and excitotoxic cell death in primary cortical neurons

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Leskiewicz M., Jantas D., Budziszewska B., Lason W.
Journal of Physiology and Pharmacology
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2008
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tom 59
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nr 3
457-475
Some neurosteroids show neuroprotective action in in vitro and in vivo studies, but their interaction with apoptotic/necrotic processes has been only partially unraveled. The aim of the present study was to examine the effect of dehydroepiandrosterone (DHEA), dehydroepiandrosterone sulfate (DHEAS), pregnenolone (PGL) and allopregnanolone (Allo) on staurosporine-, glutamate-, and NMDA-induced damage in primary cortical neuronal culture. DHEA, DHEAS and PGL (0.1 and 1 µM) inhibited the staurosporine-evoked LDH release and decreased the number of apoptotic cells as shown by Hoechst`s staining, whereas Allo was without effect. The neurosteroids affected neither the staurosporine-evoked changes in caspase-3 activity nor the decrease in mitochondrial membrane potential. It was also shown that protective effects of DHEA, DHEAS and PGL against staurosporine-induced LDH release were attenuated by extracellular signal-regulated kinase (ERK) - mitogen-activated protein kinase (MAPK) inhibitor – PD 98059 (5 µM) but not by phosphatidylinositol-3-kinase (PI3-K) inhibitors such as LY 294002 (1 µM) or wortmannin (10 nM). The involvement of ERK2-MAPK in protective effects of neurosteroids was confirmed by Western blot study. Further study demonstrated that glutamate-induced cell damage was attenuated by DHEA, DHEAS, and PGL, but not by Allo. None of the steroids influenced NMDA-induced LDH release. The results of the present in vitro studies suggest that excitatory neurosteroids DHEA, DHEAS and PGL at physiological concentrations participate in the inhibition of cortical neuronal degeneration elicited by staurosporine and glutamate, whereas the most potent positive modulator of GABAA receptor - Allo - has no effect. Moreover, neurosteroids appear to attenuate the staurosporine-induced cell damage in a caspase-3 independent way and their neuroprotective mechanism of action involves the increase in ERK-MAPK phosphorylation.
2

Gastrin activates tyrosine kinase and phospholipase C in isolated rat colonocytes

100%
Malecka-Panas E., Tureaud J., Majumdar A. P. N.
Acta Biochimica Polonica
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1996
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tom 43
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nr 3
Postreceptor regulation of the trophic action of gastrin is not fully elucidated. Tyrosine kinase (Tyr-kinase) has been associated with receptors of a number of growth factors and plays an important role in regulation of cellular growth within the gastrointestinal tract. The aim of this study was to determine, whether Tyr-kinase plays a role in mediating the growth promoting action of gastrin and whether phos­pholipase C (PLC) is involved in the signal transduction pathway. Colonocytes isolated from Fischer 344 rats were incubated for 2 min with gastrin (10-8 M) and assayed for Tyr-kinase and PLC activities. Incubations with gastrin resulted in 60%-70% rise in Tyr-kinase and 150%-200% rise in PLC activities over the corresponding basal levels. When processed separately, in proximal colon Tyr-kinase activation by gastrin was 15%-20%, while in distal colon 70%-80% as compared to the buffer control. Gastrin activation of both Tyr-kinase and PLC was abolished by Tyr-kinase inhibitor, tyrphostin-25 (3.2 nM) and was not affected by staurosporine (20 ng/ml). We conclude that Tyr-kinase is involved in the mechanism of trophic action of gastrin, and PLC activation appears to be the next step in the signal transduction pathway.
3

Replicon size and the dynamics of DNA replication during staurosporine- and vanadate-stimulated endo-S phases in primary roots of Pisum sativum

100%
Rosiak M., Maszewski J.
Folia Histochemica et Cytobiologica
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2003
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tom 41
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nr 3
4

The formation of ceramide from sphingomyelin is associated with cellular apoptosis

80%
Dawson G., Goswami R., Kilkus J., Wiesner D.
Acta Biochimica Polonica
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1998
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tom 45
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nr 2
The apoptotic response of the immature B-cell to the cross-linking of surface IgM receptors provides a good model for cell death and we show in WEHI-231 B-cells that the time course of apoptosis corresponds to the increased formation of ceramide, as measured either by mass (using the diacylglycerol kinase method) or radiolabelling with [3H]palmitate. Inhibitors of sphingosine biosynthesis have no effect on cell death induced by anti-IgM in WEHI-231 but inhibitors of ceramidase accelerate apoptosis, suggesting that activation of sphingomyelinase is the key event in apoptosis. We have demonstrated this by in vitro assay of neutral sphingomyelinase. Apoptosis is also important in normal brain development and neuronal survival is dependent upon phosphatidylinositol 3-kinase (PI3-kinase) activation by growth factors (insulin, nerve growth factor etc.). Withdrawal of these growth factors or inhibition of PI3-kinase with wortmannin or LY294002 activated the pro-apoptotic CPP32 (Yama/Apopain/caspase 3, EC 3.4.22), activated neutral sphingomyelinase and increased ceramide formation in an immortalized dorsal root ganglion cell line F-11. Protection against apoptosis can be achieved by overexpression of the bcl2 family of proteins or addition of drugs which elevate cAMP levels. cAMP protects against apoptosis induced by either wortmannin or staurosporine. The specificity for cAMP was confirmed by showing protection with the specific agonist (Sp)cAMPS and increased killing with the antagonist (Rp)cAMPS. However, cAMP did not protect against ceramide killing, suggesting that there are at least two major pathways of apoptosis in neuronal cells.
5

A possible involvement of plasma membrane NAD[P]H oxidase in the switch mechanism of the cell death mode from apoptosis to necrosis in menadione-induced cell injury

80%
Niemczyk E., Majczak A., Hallmann A., Kedzior J., Wozniak M., Wakabayashi T.
Acta Biochimica Polonica
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2004
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tom 51
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nr 4
The effects of inhibitors of plasma membrane NADPH oxidase on menadione-in­duced cell injury processes were studied using human osteosarcoma 143B cells. The intracellular level of superoxide in the cells treated with menadione for 6 h reached a maximum followed by an abrupt decrease. The population of apoptotic cells detected by Annexin V and propidium iodide double staining also reached its maximum at 6 h of menadione-treatment while that of necrotic cells increased continuously reaching 90% of the total population at 9 h of the treatment. Pretreatment of the cells with in­hibitors of NADPH oxidase, including diphenyliodonium chloride, apocynin, N-vani- llylnonanamide and staurosporine was effective in lowering the menadione-induced elevations of superoxide, and also in the suppression of the switch of the cell death mode from apoptosis to necrosis in menadione-treated cells except for the case of staurosporine. These results strongly suggest that superoxide generated by NADPH oxidase, besides that generated by the mitochondria, may contribute to the remark­able increase in the intracellular level of superoxide in the cells treated with menadione for 6 h resulting in the switch from apoptosis to necrosis, although a di­rect evidence of the presence of active and inactive forms of NADPH oxidase in con­trol and menadione-treated 143B cells is lacking at present.
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