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Particulate Fraction (particulate + fraction)

Distribution by Scientific Domains
Chemistry41%
Medical Sciences23%
Life Sciences23%

Selected Abstracts

Routes of zinc entry in mouse cortical neurons: role in zinc-induced neurotoxicity

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 1 2000
Philippe Marin
Abstract Exposure of central neurons to Zn2+ triggers neuronal death. The routes of Zn2+ entry were investigated in living cortical neurons from the mouse using the specific Zn2+ fluorescent dye N-(6-methoxy-8-quinolyl)-p-toluene sulphonamide (TSQ), which preferentially detects membrane-bound Zn2+. Exposure of cortical neurons to increasing concentrations of Zn2+ (1,100 ,m) induced a progressive increase in the fluorescence of TSQ. This fluorescence signal was not attenuated by the permeation of plasma membrane with digitonin. Accordingly, the major part of TSQ fluorescence (two-thirds) was associated to the particulate fraction of cortical neurons exposed to Zn2+. These results suggest that Zn2+ detected with TSQ in neurons is mainly bound to membranes. TSQ fluorescence measured in neurons exposed to 3 ,m Zn2+ was enhanced by Na+ -pyrithione, a Zn2+ ionophore, ,-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA), N-methyl- d -aspartate (NMDA) or KCl-induced depolarization. However, in the absence of any treatment, TSQ labelling of neurons exposed to 3 ,m Zn2+ was only decreased by NMDA receptor antagonists, whereas it remained unaltered in the presence of antagonists of AMPA receptors or L-type voltage-gated Ca2+ channels. Zn2+ entry through NMDA receptors did not contribute to Zn2+ -induced neuronal death, as it was prevented by antagonists of NMDA receptors only when they were added after the Zn2+ exposure. Finally, Zn2+ induced a delayed accumulation of extracellular glutamate which might be responsible for the delayed NMDA receptor activation that leads to neuronal death. [source]

Inactivation of phosphorylase is a major component of the mechanism by which insulin stimulates hepatic glycogen synthesis

FEBS JOURNAL, Issue 13 2003
Susan Aiston
Multiple signalling pathways are involved in the mechanism by which insulin stimulates hepatic glycogen synthesis. In this study we used selective inhibitors of glycogen synthase kinase-3 (GSK-3) and an allosteric inhibitor of phosphorylase (CP-91149) that causes dephosphorylation of phosphorylase a, to determine the relative contributions of inactivation of GSK-3 and dephosphorylation of phosphorylase a as alternative pathways in the stimulation of glycogen synthesis by insulin in hepatocytes. GSK-3 inhibitors (SB-216763 and Li+) caused a greater activation of glycogen synthase than insulin (90% vs. 40%) but a smaller stimulation of glycogen synthesis (30% vs. 150%). The contribution of GSK-3 inactivation to insulin stimulation of glycogen synthesis was estimated to be less than 20%. Dephosphorylation of phosphorylase a with CP-91149 caused activation of glycogen synthase and translocation of the protein from a soluble to a particulate fraction and mimicked the stimulation of glycogen synthesis by insulin. The stimulation of glycogen synthesis by phosphorylase inactivation cannot be explained by either inhibition of glycogen degradation or activation of glycogen synthase alone and suggests an additional role for translocation of synthase. Titrations with the phosphorylase inactivator showed that stimulation of glycogen synthesis by insulin can be largely accounted for by inactivation of phosphorylase over a wide range of activities of phosphorylase a. We conclude that a signalling pathway involving dephosphorylation of phosphorylase a leading to both activation and translocation of glycogen synthase is a critical component of the mechanism by which insulin stimulates hepatic glycogen synthesis. Selective inactivation of phosphorylase can mimic insulin stimulation of hepatic glycogen synthesis. [source]

Heptachlor and o-p,DDT effects on protein kinase activities associated with human placenta particulate fractions

JOURNAL OF BIOCHEMICAL AND MOLECULAR TOXICOLOGY, Issue 3 2009
Gladis Magnarelli
Abstract Organochlorine pesticides have been detected in placenta. The ability of heptachlor (HC) and 1,1,1-tricholoro-2-(2-chlorophenyl)-2-4-chlorophenyl)ethane (o-p,DDT) to interfere with protein phosphorylation was evaluated. In vitro incubations of cell-free placental villi homogenates with a concentration range 1,100 µM were performed. In particulate fractions, total serine/threonine kinase activity was increased by 10 µM HC and o-p, DDT (59% and 82%, respectively). Maximum eightfold increase was observed with 10 µM o-p, DDT on protein kinase A activity. By contrast, protein kinase C activity was reduced by 10 µM HC and o-p, DDT (40% and 52%, respectively). Endogenous substrate phosphorylation studies demonstrated that slight but significant increase in 24-kDa band labeling was produced in nuclear samples with 1, 10, and 100 µM HC and 100 µM o-p, DDT. Exposition to 100 µM HC increased 85-kDa band labeling. In mitochondrial fractions, 10 µM HC and o-p, DDT increased 24- and 65-kDa bands' labeling. These data indicate that both pesticides affect protein kinase activities in particulate fraction. Nuclear compartmentalization of these compounds, insertion in membranes, and chemical stress production may be associated to the observed effects, thus suggesting deleterious consequences in signaling pathways. © 2009 Wiley Periodicals, Inc. J Biochem Mol Toxicol 23:185,192, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/jbt.20277 [source]

Effect of aroclor 1248 and two pure PCB congeners on phospholipase D activity in rat renal tubular cell cultures

JOURNAL OF BIOCHEMICAL AND MOLECULAR TOXICOLOGY, Issue 2 2007
Mercedes Fernández Santiago
Abstract This paper elucidates the effect of different polychlorinated biphenyls (PCBs) on the phospholipase D (PLD) activity in soluble and particulate fractions of rat renal proximal tubular culture cells. Treatment with Aroclor 1248 (a commercial PCB mixture) caused a marked increase in the activity of PLD in intact renal tubular cells. The PLD activity was increased by Aroclor 1248 in the particulate fraction while the enzyme activity was unaffected in the soluble fraction. This work also shows that PCB 153 (2,2',4,4',5,5'-hexachlorobiphenyl, a di-ortho-substituted nonplanar congener) can increase the activity of PLD only in the particulate fraction. The exposure of cell cultures to PCB 77 (3,3',4,4'-tetrachlorobiphenyl, a non-ortho-substituted planar congener) does not alter PLD activity. These results suggest that PCB effects are structure dependent. Therefore, in order to clarify the molecular mechanism of activation of PLD by PCBs, the contents of immunoreactive PLD were examined by immunoblot analysis. Renal tubular cells expressed a PLD protein of 120 kDa corresponding with the PLD1 mammalian isoform in both the particulate and the soluble fraction. Aroclor 1248, PCB 153, and PCB 77 do not induce changes in the levels of PLD protein. These data indicate that PCBs, particularly nonplanar congeners, increase PLD activity. Moreover, these changes could not be demonstrated in the enzyme content in rat renal tubular cell cultures. © 2007 Wiley Periodicals, Inc. J Biochem Mol Toxicol 21:68,75, 2007; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/jbt.20160 [source]

Subcellular redistribution of protein kinase C isozymes is associated with rat liver cirrhotic changes induced by carbon tetrachloride or thioacetamide

JOURNAL OF GASTROENTEROLOGY AND HEPATOLOGY, Issue 1 2001
Da-Hee Jeong
Abstract Background and Aims: Protein kinase C (PKC) plays a key role in the alteration of signal transduction in the liver, which may contribute to the development of liver cirrhosis. The aim of the present study was to examine the subcellular redistribution of PKC isozymes in rat liver cirrhosis, which is induced by two different cirrhotic chemical agents, carbon tetrachloride (CCl4) and thioacetamide (TAA). Methods and Results: Thioacetamide and CCl4 were administered to rats for 8 and 30 weeks, respectively before rats were killed and autopsies performed at 9, 20 and 30 weeks later. The TAA induced a fibrotic pattern in the liver that differed from that produced by CCl4, notably in the formation of fibrous connective tissue and the proliferation of bile ductule cells. Cholangiofibrosis and clear-cell foci were also observed in TAA-treated rats at 30 weeks. Histological examination revealed that severe cirrhotic changes were present 9 weeks after the commencement of CCl4 treatment and 30 weeks after TAA treatment. Discussion: When the subcellular redistribution of PKC isozymes (PKC,, -,1, -,, and -,) was examined, all the PKC isozymes in CCl4 -treated rats were found to be translocated to the membrane fraction, which may mean PKC activation, and then downregulated by proteolytic degradation after 9 weeks of treatment, which coincided with peak cirrhotic changes. All rats treated with CCl4 recovered to the control level after 20 weeks of treatment. In the case of TAA-treated rats, PKC isozymes were translocated to the particulate fraction of the liver after 9 weeks of treatment and this persisted in most of the rats for the duration of the experiment. Conclusions: From these results, it would appear that PKC translocation preceded morphologic changes, and that an altered subcellular distribution of the PKC isozyme may be associated with the response to liver damage and carcinogenesis. [source]

Internal loading: A new solution to an old problem in aquatic sciences

LAKES & RESERVOIRS: RESEARCH AND MANAGEMENT, Issue 1 2004
Lars Håkanson
Abstract Internal loading has long been regarded as an ,Achilles heel' in aquatic science and management. Internal loading is of fundamental importance in large and shallow lakes, where even low wind velocities can cause a considerable resuspension of matter deposited on the lake bed. The resuspended matter, and the chemical substances bound to the resuspended matter, will influence almost all processes in the aquatic ecosystem, such as water clarity and depth of the photic zone, and hence, primary and secondary production. If the sediments are contaminated, it will increase the concentrations of harmful substances in water and sediments and the potential ecosystem effects related to such concentrations. This paper presents an overview of the processes regulating bottom dynamic conditions in lakes (erosion, transport, accumulation), provides examples on the role of internal loading within the context of limnology and water management, and presents a new, general approach to quantify internal loading from sediments in lakes. The new approach has been critically tested, being a key factor behind the increase in predictive power of a new generation of lake models meant to be used for practical water management. Internal loading of any water pollutant depends on sedimentation. Sedimentation in this approach is presented as a function of two substance-specific variables, including the fall velocity of the carrier-particles and the particulate fraction (which, by definition, is the only fraction of a water pollutant that can settle out on the lake bed), and three generic variables, including mean depth, suspended particulate matter and ET-areas (areas of erosion and transport). On ET-areas there is, by definition, a discontinuous sedimentation of materials that settles according to Stokes' law. Basically, internal loading is the sum of advective (resuspension) and diffusive transport from the sediments. Resuspension from ET-areas is given as a function of the lake form (a new algorithm based on the volume development) and the age of ET-sediments. [source]

Enhancement of anchorage-independent growth of human pancreatic carcinoma MIA PaCa-2 cells by signaling from protein kinase C to mitogen-activated protein kinase

MOLECULAR CARCINOGENESIS, Issue 4 2002
Keiko Ishino
Abstract We found that 12- O -tetradecanoylphorbol-13-acetate (TPA) promoted anchorage-independent growth but did not affect anchorage-dependent growth of MIA PaCa-2 human pancreatic carcinoma cells. TPA markedly activated mitogen-activated protein kinase (MAPK)/extracellular signal,regulated kinase in an anchorage-independent manner. Two protein kinase C (PKC) isoforms, conventional PKC (cPKC) and novel PKC (nPKC), but not apical PKC, translocated from the cytosolic to the particulate fraction upon TPA treatment. To identify the PKC isoforms involved in the regulation of anchorage-independent growth, four PKC isoforms (,, ,, ,, and ,) were forced to be expressed in MIA PaCa-2 cells with an adenovirus vector. Overexpression of nPKC, or nPKC, activated MAPK and promoted anchorage-independent growth. Overexpression of cPKC, alone did not influence anchorage-independent growth but lowered the concentration of TPA that was required to enhance such growth. Expression of constitutively active MAPK kinase-1 (MEK1) also promoted anchorage-independent growth. Furthermore, PKC inhibitors or an MEK inhibitor completely suppressed both TPA-induced activation of MAPK and promotion of anchorage-independent growth, but a cPKC-selective inhibitor partially suppressed TPA-induced promotion of the growth. Based on these results, we suggest that MAPK activation, mediated by certain isoforms of PKC, plays a part in oncogenic growth of MIA PaCa-2 cells. In summary, our data indicated that specific inhibitors of the cPKC and nPKC signaling pathway might be selective anti-oncogenic growth agents for some types of human pancreatic cancer. © 2002 Wiley-Liss, Inc. [source]

A CDPK isoform participates in the regulation of nodule number in Medicago truncatula

THE PLANT JOURNAL, Issue 6 2006
Pablo R. Gargantini
Summary Medicago spp. are able to develop root nodules via symbiotic interaction with Sinorhizobium meliloti. Calcium-dependent protein kinases (CDPKs) are involved in various signalling pathways in plants, and we found that expression of MtCPK3, a CDPK isoform present in roots of the model legume Medicago truncatula, is regulated during the nodulation process. Early inductions were detected 15 min and 3,4 days post-inoculation (dpi). The very early induction of CPK3 messengers was also present in inoculated M. truncatuladmi mutants and in wild-type roots subjected to salt stress, indicating that this rapid response is probably stress-related. In contrast, the later response was concomitant with cortical cell division and the formation of nodule primordia, and was not observed in wild-type roots inoculated with nod,, strains. This late induction correlated with a change in the subcellular distribution of CDPK activities. Accordingly, an anti- MtCPK3 antibody detected two bands in soluble root extracts and one in the particulate fraction. CPK3::GFP fusions are targeted to the plasma membrane in epidermal onion cells, a localization that depends on myristoylation and palmitoylation sites of the protein, suggesting a dual subcellular localization. MtCPK3 mRNA and protein were also up-regulated by cytokinin treatment, a hormone linked to the regulation of cortical cell division and other nodulation-related responses. An RNAi-CDPK construction was used to silence CPK3 in Agrobacterium rhizogenes -transformed roots. Although no major phenotype was detected in these roots, when infected with rhizobia, the total number of nodules was, on average, twofold higher than in controls. This correlates with the lack of MtCPK3 induction in the inoculated super-nodulator sunn mutant. Our results suggest that CPK3 participates in the regulation of the symbiotic interaction. [source]

,1 -Adrenoceptor effects mediated by protein kinase C , in human cultured prostatic stromal cells

BRITISH JOURNAL OF PHARMACOLOGY, Issue 1 2003
A Preston
We have investigated the effects of ,1 -adrenoceptor stimulation upon contractility, Ca2+ influx, inositol phosphate production, and protein kinase C (PKC) translocation in human cultured prostatic stromal cells (HCPSC). The ,1 -adrenoceptor selective agonist phenylephrine elicited contractile responses of HCPSC, i.e. a maximal cell shortening of 45±6% of initial cell length, with an EC50 of 1.6±0.1 ,M. The ,1 -adrenoceptor selective antagonists prazosin (1 ,M) and terazosin (1 ,M) both blocked contractions to phenylephrine (10 ,M). The L-type calcium channel blocker nifedipine (10 ,M), and the PKC inhibitors Gö 6976 (1 ,M) and bisindolylmaleimide (1 ,M) also inhibited phenylephrine-induced contractions. Phenylephrine caused a concentration dependent increase in inositol phosphate production (EC50 119±67 nM). This response was blocked by terazosin (1 ,M). Phenylephrine caused the translocation of the PKC , isoform, but not the ,, ,, ,, , or , isoforms, from the cytosolic to the particulate fraction of HCPSC, with an EC50 of 5.7±0.5 ,M. In FURA-2AM (5 ,M) loaded cells, phenylephrine elicited concentration dependent increases in [Ca2+]i, with an EC50 of 3.9±0.4 ,M. The response to phenylephrine (10 ,M) was blocked by prazosin (1 ,M), bisindolymaleimide (1 ,M), and nifedipine (10 ,M). In conclusion, this study has shown that HCPSC express functional ,1 -adrenoceptors, and that the intracellular pathways responsible for contractility may be largely dependent upon protein kinase C activation and subsequent opening of L-type calcium channels. British Journal of Pharmacology (2003) 138, 218,224. doi:10.1038/sj.bjp.0705021 [source]

NEW INSIGHT INTO THE SIGNALLING PATHWAYS OF HEAT STRESS-INDUCED MYOCARDIAL PRECONDITIONING: PROTEIN KINASE C, TRANSLOCATION AND HEAT SHOCK PROTEIN 27 PHOSPHORYLATION

CLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY, Issue 3 2004
Claire Arnaud
SUMMARY 1.,Heat stress (HS) is known to induce delayed preconditioning against myocardial infarction 24 h later, but the exact signalling pathway of this response remains to be elucidated. In previous studies, we have shown evidence for the implication of protein kinase C (PKC) and p38 mitogen-activated protein kinase (MAPK) in the HS-induced reduction in infarct size. Furthermore, in their phosphorylated state, small heat shock proteins (Hsp27) seem to confer cytoskeletal protection. In the present study, we sought to determine the effect of HS on the subcellular distribution of PKC isoforms and on Hsp27 phosphorylation. 2.,Rats were subjected to either HS (42°C for 15 min; HS group) or sham anaesthesia (sham group) before their hearts were excised. Myocardial tissue extracts obtained 20 min or 24 h after HS were processed for western blot analysis. 3.,In the HS group, PKC, translocated from the cytosolic to the particulate fraction (4426 ± 128 vs 6258 ± 316 arbitrary units; P = 0.002). Chelerythrine (5 mg/kg, i.p.), a PKC inhibitor, abolished this translocation. Western blot analysis of Hsp27 24 h after HS showed a marked increase in protein expression and phosphorylation in the particulate fraction. 4.,In the present study, we have shown that HS induces the translocation of PKC, from the cytosolic to the particulate fraction. Along with our previous observation that PKC is a trigger of HS-induced myocardial preconditioning, the results of the present study suggest an important role of the , isoform of PKC in this cardioprotective mechanism. Furthermore, we have also demonstrated that the cytoprotective protein Hsp27 is phosphorylated following HS. Therefore, we can conclude that PKC and MAPK/Hsp27 are involved in the signalling pathway of HS-induced cardioprotection. [source]

Using measured octanol-air partition coefficients to explain environmental partitioning of organochlorine pesticides

ENVIRONMENTAL TOXICOLOGY & CHEMISTRY, Issue 5 2002
Mahiba Shoeib
Abstract Octanol-air partition coefficients (Koa) were measured directly for 19 organochlorine (OC) pesticides over the temperature range of 5 to 35°C. Values of log Koa at 25°C ranged over three orders of magnitude, from 7.4 for hexachlorobenzene to 10.1 for 1,1-dichloro-2,2-bis (p-chlorophenyl) ethane. Measured values were compared to values calculated as KowRT/H (where R is the ideal gas constant [8.314 J mol,1 K,1], T is absolute temperature, and H is Henry's law constant) were, in general, larger. Discrepancies of up to three orders of magnitude were observed, highlighting the need for direct measurements of Koa. Plots of Koa versus inverse absolute temperature exhibited a log-linear correlation. Enthalpies of phase transition between octanol and air (,Hoa) were determined from the temperature slopes and were in the range of 56 to 105 kJ mol,1 K,1. Activity coefficients in octanol (,o) were determined from Koa and reported supercooled liquid vapor pressures (p), and these were in the range of 0.3 to 12, indicating near-ideal solution behavior. Differences in Koa values for structural isomers of hexachlorocyclohexane were also explored. A Koa -based model was described for predicting the partitioning of OC pesticides to aerosols and used to calculate particulate fractions at 25 and ,10°C. The model also agreed well with experimental results for several OC pesticides that were equilibrated with urban aerosols in the laboratory. A log-log regression of the particle-gas partition coefficient versus Koa had a slope near unity, indicating that octanol is a good surrogate for the aerosol organic matter. [source]

Heptachlor and o-p,DDT effects on protein kinase activities associated with human placenta particulate fractions

JOURNAL OF BIOCHEMICAL AND MOLECULAR TOXICOLOGY, Issue 3 2009
Gladis Magnarelli
Abstract Organochlorine pesticides have been detected in placenta. The ability of heptachlor (HC) and 1,1,1-tricholoro-2-(2-chlorophenyl)-2-4-chlorophenyl)ethane (o-p,DDT) to interfere with protein phosphorylation was evaluated. In vitro incubations of cell-free placental villi homogenates with a concentration range 1,100 µM were performed. In particulate fractions, total serine/threonine kinase activity was increased by 10 µM HC and o-p, DDT (59% and 82%, respectively). Maximum eightfold increase was observed with 10 µM o-p, DDT on protein kinase A activity. By contrast, protein kinase C activity was reduced by 10 µM HC and o-p, DDT (40% and 52%, respectively). Endogenous substrate phosphorylation studies demonstrated that slight but significant increase in 24-kDa band labeling was produced in nuclear samples with 1, 10, and 100 µM HC and 100 µM o-p, DDT. Exposition to 100 µM HC increased 85-kDa band labeling. In mitochondrial fractions, 10 µM HC and o-p, DDT increased 24- and 65-kDa bands' labeling. These data indicate that both pesticides affect protein kinase activities in particulate fraction. Nuclear compartmentalization of these compounds, insertion in membranes, and chemical stress production may be associated to the observed effects, thus suggesting deleterious consequences in signaling pathways. © 2009 Wiley Periodicals, Inc. J Biochem Mol Toxicol 23:185,192, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/jbt.20277 [source]

Effect of aroclor 1248 and two pure PCB congeners on phospholipase D activity in rat renal tubular cell cultures

JOURNAL OF BIOCHEMICAL AND MOLECULAR TOXICOLOGY, Issue 2 2007
Mercedes Fernández Santiago
Abstract This paper elucidates the effect of different polychlorinated biphenyls (PCBs) on the phospholipase D (PLD) activity in soluble and particulate fractions of rat renal proximal tubular culture cells. Treatment with Aroclor 1248 (a commercial PCB mixture) caused a marked increase in the activity of PLD in intact renal tubular cells. The PLD activity was increased by Aroclor 1248 in the particulate fraction while the enzyme activity was unaffected in the soluble fraction. This work also shows that PCB 153 (2,2',4,4',5,5'-hexachlorobiphenyl, a di-ortho-substituted nonplanar congener) can increase the activity of PLD only in the particulate fraction. The exposure of cell cultures to PCB 77 (3,3',4,4'-tetrachlorobiphenyl, a non-ortho-substituted planar congener) does not alter PLD activity. These results suggest that PCB effects are structure dependent. Therefore, in order to clarify the molecular mechanism of activation of PLD by PCBs, the contents of immunoreactive PLD were examined by immunoblot analysis. Renal tubular cells expressed a PLD protein of 120 kDa corresponding with the PLD1 mammalian isoform in both the particulate and the soluble fraction. Aroclor 1248, PCB 153, and PCB 77 do not induce changes in the levels of PLD protein. These data indicate that PCBs, particularly nonplanar congeners, increase PLD activity. Moreover, these changes could not be demonstrated in the enzyme content in rat renal tubular cell cultures. © 2007 Wiley Periodicals, Inc. J Biochem Mol Toxicol 21:68,75, 2007; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/jbt.20160 [source]

Modulation of ERK and JNK activity by transient forebrain ischemia in rats

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 3 2006
Deborah A. Shackelford
Abstract The mitogen-activated protein (MAP) kinase families of ERK and JNK participate in numerous intracellular signaling pathways and are abundantly expressed in the CNS. Activation of ERK and JNK during reperfusion of ischemic tissue is implicated in promoting cell death, insofar as inhibition of either pathway reduces neuronal cell death. However, ERK or JNK activation provides protection in other neuronal injury models. In this study, we monitored the concurrent modulation of ERK and JNK activity in the hippocampus, neocortex, and striatum during ischemia and immediately upon reperfusion in a rat model of transient global ischemia. All three regions incur a similar reduction in blood flow during occlusion but show different extents and temporal patterns of injury following reperfusion. ERK and JNK were active in the normal rat forebrain, and phosphorylation was reduced by ischemia. Upon reperfusion, ERK was rapidly activated in the hippocampus, neocortex, and striatum, whereas JNK phosphorylation increased in the hippocampus and striatum but not in the neocortex. The response of JNK vs. ERK more closely reflects the susceptibility of these regions. JNK1 was the predominant phosphorylated isoform. A minor pool of phosphorylated JNK3 increased above the control level after reperfusion in hippocampal but not in neocortical particulate fractions. In addition, a novel 32,35-kDa c-Jun kinase activity was detected in the hippocampus, neocortex, and striatum. The results show that ERK and JNK activities are rapidly, but not identically, modulated by ischemia and reperfusion and indicate that the MAP kinase pathways contribute to regulating the response to acute CNS injury. © 2006 Wiley-Liss, Inc. [source]

Partition of metals in the Vistula River and in effluents from sewage treatment plants in the region of Cracow (Poland)

LAKES & RESERVOIRS: RESEARCH AND MANAGEMENT, Issue 2 2000
C. Guéguen
Abstract The Vistula River suffers from heavy pollution with multiple origins. In the upper reaches, metallic and chlorine pollution originates from the mining and industrial region of Upper Silesia. Downstream from Upper Silesia, urban and industrial sewage adds more metallic and organic contaminants from the large urban agglomeration of Cracow. Although the river status is monitored routinely, little is known about the partition of metals between particulate and dissolved forms. This study focuses on metal partitioning and on the impact of the two main wastewater treatment plants at Cracow on metal concentrations in the Vistula River. The Cd, Co, Cu, Mn, Pb and Zn content was measured in both dissolved and particulate fractions. High metal concentrations in the Vistula River persist, although current levels seem to be lower than those in the past. Metal concentrations in the Vistula River and effluents from the sewage treatment plants at Cracow are similar, indicating a relatively minor contribution from the treated sewage. However, untreated sewage may be a significant source of contaminants. Despite high anthropogenic metal concentrations, the metal partitioning coefficients (Kd) in the Vistula are similar to these found in unpolluted rivers. Within a narrow pH range, Kd values depend on the metal affinity to particles, but there is no evidence of dependence on particle or chloride concentrations. An important fraction of the toxic metals Pb and Cd is associated with particles, which may decrease their immediate availability to the biota of the river. [source]

Isatin-binding proteins of rat and mouse brain: Proteomic identification and optical biosensor validation

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 1 2010
Olga Buneeva
Abstract Isatin (indole-2,3-dione) is an endogenous indole that has a distinct and discontinuous distribution in the brain and in other mammalian tissues and body fluids. Its output is increased under conditions of stress and anxiety. Isatin itself and its analogues exhibit a wide range of pharmacological activities but its specific biological targets still are not well characterized. Affinity chromatography of Triton X-100 lysates of soluble and particulate fractions of mouse and rat whole brain homogenates on 5-aminocaproyl-isatin-Sepharose followed by subsequent proteomic analysis resulted in identification of 65 and 64 individual proteins, respectively. Isatin-binding capacity of some of the identified proteins has been validated in an optical biosensor study using a Biacore 3000 optical biosensor, 5-aminocarproyl-isatin, and 5-aminoisatin as the affinity ligands. The Kd values (of 0.1,20,,M) obtained during the optical biosensor experiments were consistent with the range of Kd values recently reported for [3H]isatin binding to brain sections. Although the number of isatin-binding proteins identified in the mouse and rat brain was similar, only 21 proteins (about one-third) were identical in the two species. This may be one reason for the differences in isatin effects in rats and mice reported in the literature. [source]