Your search keyword '"Stone, Trevor W."' showing total 12 results

1. 5-Hydroxyanthranilic Acid, a Tryptophan Metabolite, Generates Oxidative Stress and Neuronal Death via p38 Activation in Cultured Cerebellar Granule Neurones

Author

Smith, Andrew J., Smith, Robert A., and Stone, Trevor W.

Published

2009

2. Purine, kynurenine, neopterin and lipid peroxidation levels in inflammatory bowel disease

Author

Forrest, Caroline M., Youd, Philippa, Kennedy, Alan, Gould, Stuart R., Darlington, L. Gail, and Stone, Trevor W.

Published

2002

3. Quinolinic acid induces neuritogenesis in SH- SY5Y neuroblastoma cells independently of NMDA receptor activation.

Author

Hernandez‐Martinez, Juan‐Manuel, Forrest, Caroline M., Darlington, L. Gail, Smith, Robert A., Stone, Trevor W., and Bolam, Paul

Subjects

GLUTAMIC acid, NICOTINAMIDE adenine dinucleotide phosphate, CANCER, TRYPTOPHAN, NEURONS

Abstract

Glutamate and nicotinamide adenine dinucleotide ( NAD+) have been implicated in neuronal development and several types of cancer. The kynurenine pathway of tryptophan metabolism includes quinolinic acid ( QA) which is both a selective agonist at N-methyl-D-aspartate ( NMDA) receptors and also a precursor for the formation of NAD+. The effect of QA on cell survival and differentiation has therefore been examined on SH- SY5Y human neuroblastoma cells. Retinoic acid ( RA, 10 μ m) induced differentiation of SH- SY5Y cells into a neuronal phenotype showing neurite growth. QA (50-150 n m) also caused a concentration-dependent increase in the neurite/soma ratio, indicating differentiation. Both RA and QA increased expression of the neuronal marker β3-tubulin in whole-cell homogenates and in the neuritic fraction assessed using a neurite outgrowth assay. Expression of the neuronal proliferation marker doublecortin revealed that, unlike RA, QA did not decrease the number of mitotic cells. QA-induced neuritogenesis coincided with an increase in the generation of reactive oxygen species. Neuritogenesis was prevented by diphenylene-iodonium (an inhibitor of NADPH oxidase) and superoxide dismutase, supporting the involvement of reactive oxygen species. NMDA itself did not promote neuritogenesis and the NMDA antagonist dizocilpine ( MK-801) did not prevent quinolinate-induced neuritogenesis, indicating that the effects of QA were independent of NMDA receptors. Nicotinamide caused a significant increase in the neurite/soma ratio and the expression of β3-tubulin in the neuritic fraction. Taken together, these results suggest that QA induces neuritogenesis by promoting oxidizing conditions and affecting the availability of NAD+, independently of NMDA receptors. [ABSTRACT FROM AUTHOR]

Published

2017

4. Prenatal activation of maternal TLR3 receptors by viral-mimetic poly(I:C) modifies GluN2B expression in embryos and sonic hedgehog in offspring in the absence of kynurenine pathway activation.

Author

Khalil, Omari S., Forrest, Caroline M., Pisar, Mazura, Smith, Robert A., Darlington, L. Gail, and Stone, Trevor W.

Subjects

TOLL-like receptors, EMBRYOS, KYNURENINE, DOUBLE-stranded RNA, PREGNANCY complications, TRYPTOPHAN, GLUTAMATE receptors

Abstract

Activation of the immune system during pregnancy is believed to lead to psychiatric and neurological disorders in the offspring, but the molecular changes responsible are unknown. Polyinosinic:polycytidylic acid (poly(I:C)) is a viral-mimetic double-stranded RNA complex which activates Toll-Like-Receptor-3 and can activate the metabolism of tryptophan through the oxidative kynurenine pathway to compounds that modulate activity of glutamate receptors. The aim was to determine whether prenatal administration of poly(I:C) affects the expression of neurodevelopmental proteins in the offspring and whether such effects were mediated via the kynurenine pathway. Pregnant rats were treated with poly(I:C) during late gestation and the offspring were allowed to develop to postnatal day 21 (P21). Immunoblotting of the brains at P21 showed decreased expression of sonic hedgehog, a key protein in dopaminergic neuronal maturation. Expression of α-synuclein was decreased, while tyrosine hydroxylase was increased. Disrupted in Schizophrenia-1 (DISC-1) and 5-HT2C receptor levels were unaffected, as were the dependence receptors Unc5H1, Unc5H3 and Deleted in Colorectal Cancer (DCC), the inflammation-related transcription factor NFkB and the inducible oxidative enzyme cyclo-oxygenase-2 (COX-2). An examination of embryo brains 5 h after maternal poly(I:C) showed increased expression of GluN2B, with reduced doublecortin and DCC but no change in NFkB. Despite altered protein expression, there were no changes in the kynurenine pathway. The results show that maternal exposure to poly(I:C) alters the expression of proteins in the embryos and offspring which may affect the development of dopaminergic function. The oxidation of tryptophan along the kynurenine pathway is not involved in these effects. [ABSTRACT FROM AUTHOR]

Published

2013

5. Kynurenine metabolism predicts cognitive function in patients following cardiac bypass and thoracic surgery.

Author

Forrest, Caroline M., Mackay, Gillian M., Oxford, Lynn, Millar, Keith, Darlington, L. Gail, Higgins, Michael J., and Stone, Trevor W.

Subjects

KYNURENINE, CARDIAC surgery patients, THORACIC surgery, INFLAMMATION, COGNITIVE ability, OXIDATIVE stress, TUMOR necrosis factors, BIOMARKERS

Abstract

J. Neurochem. (2011) 119, 136-152. Abstract Cardiac surgery involving extra-corporeal circulation can lead to cognitive dysfunction. As such surgery is associated with signs of inflammation and pro-inflammatory mediators activate tryptophan oxidation to neuroactive kynurenines which modulate NMDA receptor function and oxidative stress, we have measured blood concentrations of kynurenines and inflammatory markers in 28 patients undergoing coronary arterial graft surgery and, for comparison, 28 patients undergoing non-bypass thoracic surgery. A battery of cognitive tests was completed before and after the operations. The results show increased levels of tryptophan with decreased levels of kynurenine, anthranilic acid and 3-hydroxyanthranilic acid associated with bypass, and a later increase in kynurenic acid. Levels of neopterin and lipid peroxidation products rose after surgery in non-bypass patients whereas tumour necrosis factor-α and S100B levels increased after bypass. Changes of neopterin levels were greater after non-bypass surgery. Cognitive testing showed that the levels of tryptophan, kynurenine, kynurenic acid and the kynurenine/tryptophan ratio, correlated with aspects of post-surgery cognitive function, and were significant predictors of cognitive performance in tasks sensitive to frontal executive function and memory. Thus, anaesthesia and major surgery are associated with inflammatory changes and alterations in tryptophan oxidative metabolism which predict, and may play a role in, post-surgical cognitive function. [ABSTRACT FROM AUTHOR]

Published

2011

6. On the Biological Importance of the 3-hydroxyanthranilic Acid: Anthranilic Acid Ratio.

Author

Darlington, L. Gail, Forrest, Caroline M., Mackay, Gillian M., Smith, Robert A., Smith, Andrew J., Stoy, Nicholas, and Stone, Trevor W.

Subjects

KYNURENINE, TRYPTOPHAN, QUINOLINIC acid, CELL physiology, ANTHRANIL, NEUROLOGICAL disorders, INFLAMMATORY mediators, CEREBROVASCULAR disease, HUNTINGTON disease, OXIDATION-reduction reaction, PATIENTS

Abstract

Of the major components of the kynurenine pathway for the oxidative metabolism of tryptophan, most attention has focussed on the N-methyl-D-aspartate (NMDA) receptor agonist quinolinic acid, and the glutamate receptor blocker kynurenic acid. However, there is increasing evidence that the redox-active compound 3-hydroxyanthranilic acid may also have potent actions on cell function in the nervous and immune systems, and recent clinical data show marked changes in the levels of this compound, associated with changes in anthranilic acid levels, in patients with a range of neurological and other disorders including osteoporosis, chronic brain injury, Huntington's disease, coronary heart disease, thoracic disease, stroke and depression. In most cases, there is a decrease in 3-hydroxyanthranilic acid levels and an increase in anthranilic acid levels. In this paper, we summarise the range of data obtained to date, and hypothesise that the levels of 3-hydroxyanthranilic acid or the ratio of 3-hydroxyanthranilic acid to anthranilic acid levels, may contribute to disorders with an inflammatory component, and may represent a novel marker for the assessment of inflammation and its progression. Data are presented which suggest that the ratio between these two compounds is not a simple determinant of neuronal viability. Finally, a hypothesis is presented to account for the development of the observed changes in 3-hydroxyanthranilic acid and anthranilate levels in inflammation and it is suggested that the change of the 3HAA:AA ratio, particularly in the brain, could possibly be a protective response to limit primary and secondary damage. [ABSTRACT FROM AUTHOR]

Published

2010

7. Responses of differentiated MC3T3-E1 osteoblast-like cells to reactive oxygen species

Author

Fatokun, Amos A., Stone, Trevor W., and Smith, Robert A.

Subjects

*HYDROGEN peroxide, *PHOTOSYNTHETIC oxygen evolution, *APOPTOSIS, *CANCER cells

Abstract

Abstract: MC3T3-E1 osteoblast-like cells represent a suitable model for studying osteogenic development in vitro. The current investigation extends our previous work on the response of these cells to hydrogen peroxide by considering the effects of reactive oxygen species from other sources, and by determining whether differentiation alters sensitivity to oxidative damage. Aspects of hydrogen peroxide-mediated apoptotic and necrotic death were also examined. Cell viability was determined using the Alamar Blue assay; and accompanying morphological changes monitored by phase-contrast microscopy. Sensitivity to hydrogen peroxide increased significantly in cultures which had been induced to differentiate. Hydrogen peroxide and copper (II) ions, when combined, produced greater damage than hydrogen peroxide alone, whilst the hydroxyl radical scavengers mannitol or dimethylsulphoxide had no effect. Cyclosporin A and nicotinamide afforded partial protection. The tryptophan metabolite, 3-hydroxykynurenine significantly reduced viability, although 3-hydroxyanthranilic acid did not. The xanthine/xanthine oxidase system also reduced cell viability, an effect prevented by catalase but potentiated by superoxide dismutase. S-nitroso-N-acetylpenicillamine did not impair viability at the concentrations tested. Cultures were resistant to mitochondrial poisoning by potassium cyanide, but succumbed to 24-h exposures to 3-nitropropionic acid (1 mM). The results reveal a differential sensitivity of MC3T3-E1 cells to hydrogen peroxide-induced oxidative stress, an enhancement of sensitivity by cellular differentiation, and a potential preference for the glycolytic pathway by MC3T3-E1 cells. This study gives new insight into how bone cells may succumb to the toxic effects of oxidative stress generated by different stimuli and has relevance to conditions such as osteoporosis. [Copyright &y& Elsevier]

Published

2008

8. Kynurenic acid blocks nicotinic synaptic transmission to hippocampal interneurons in young rats.

Author

Stone, Trevor W.

Subjects

*KYNURENINE, *TRYPTOPHAN, *NEURAL transmission, *INTERNEURONS, *HIPPOCAMPUS (Brain)

Abstract

The tryptophan metabolite kynurenic acid can block glutamate at ionotropic receptors, but recent evidence suggests a more potent antagonistic action at α7 nicotinic receptors for acetylcholine on cultured neurons. The present study examines activity of kynurenic acid at those nicotinic receptors, which mediate cholinergic neurotransmission onto interneurons in the rat hippocampus. Intracellular recordings were made from pyramidal cells and interneurons in the presence of atropine, bicuculline methobromide, (3-aminopropyl)(diethoxymethyl)-phosphinic acid [CGP35348, to block γ-aminobutyric acid (GABA)B receptors] and 3-tropanyl-3,5-dichlorobenzoate (MDL 72222, to block 5-HT3 receptors). In the added presence of glutamate antagonists 2-amino-5-phosphono-pentanoic acid and 6-cyano-7-nitroquinoxaline-2,3-dione, interneurons exhibited a residual excitatory postsynaptic potential (EPSP) that could be blocked by the nicotinic α7 receptor blocker methyl-lycaconitine, but not by dihydro-β-erythroidine which blocks α4β2 receptors. Kynurenic acid reduced the amplitude of these EPSPs with an EC50 of 136 µm. The amplitudes of nicotinic spontaneous miniature EPSPs were also reduced by methyl-lycaconitine and kynurenic acid. The results show that kynurenic acid is more potent in blocking nicotinic EPSPs compared with the full, glutamate-mediated EPSPs, but it was substantially less potent than has been reported in cultures, possibly because of differences in the accessibility of synaptic and extrasynaptic receptors. It is suggested that blockade of nicotinic synaptic transmission may be relevant to the actions of kynurenic acid in the hippocampus, but that in the intact brain this activity is likely to be comparable in importance to the blockade of glutamate-mediated transmission. [ABSTRACT FROM AUTHOR]

Published

2007

9. Tryptophan Metabolites and Brain Disorders.

Author

Stone, Trevor W., Mackay, Gillian M., Forrest, Caroline M., Clark, Catherine J., and Darlington, L. Gail

Subjects

*CENTRAL nervous system, *TRYPTOPHAN, *NEURONS, *QUINOLINIC acid, *KYNURENINE, *NEUROTOXIC agents, *GENETIC disorders, *AIDS dementia complex, *HUNTINGTON disease, *DRUG therapy

Abstract

Tryptophan is metabolised primarily along the kynurenine pathway, of which two components are now known to have marked effects on neurons in the central nervous system. Quinolinic acid is an agonist at the population of glutamate receptors which are sensitive to N-methyl-D-aspartate (NMDA), and kynurenic acid is an antagonist at several glutamate receptors. Consequently quinolinic acid can act as a neurotoxin while kynurenic acid is neuroprotectant. A third kynurenine, 3-hydroxykynurenine, can generate free radicals and contribute to, or exacerbate, neuronal damage. Changes in the absolute or relative concentrations of these kynurenines have been implicated in a variety of central nervous system disorders such as the AIDS-dementia complex and Huntington's disease, raising the possibility that interference with their actions or synthesis could lead to new forms of pharmacotherapy for these conditions. [ABSTRACT FROM AUTHOR]

Published

2003

10. Electrochemical and in vitro evaluation of the redox-properties of kynurenine species

Author

Giles, Gregory I., Collins, Catriona A., Stone, Trevor W., and Jacob, C.

Subjects

*KYNURENINE, *TRYPTOPHAN, *ANTIOXIDANTS

Abstract

Kynurenines are formed as part of the tryptophan metabolism and are known to exhibit pro- and anti-oxidant activities in vitro. The mapping of these biological redox-systems and identification of potential in vivo targets are therefore of great interest in cellular physiology. Here the redox-behavior of different kynurenines and anthranilic acids is evaluated electrochemically and compared to that of simple model compounds. Electrochemical results are correlated with the activity of these compounds in redox-bioassays where 3-hydroxyanthranilic acid and 3-hydroxykynurenine have significant redox-activity. The specific electrochemical redox-behavior of these two compounds, indicating a particular redox-mechanism involving the hydroxyl group, can be used to rationalize these findings. The results indicate that tryptophan metabolites can undergo a range of complex redox-reactions in vivo whose precise nature critically depends on structural details. As a consequence, some of the kynurenines have the potential to contribute to neuronal damage in brain disorders and stroke. [Copyright &y& Elsevier]

Published

2003

11. Prenatal inhibition of the tryptophan–kynurenine pathway alters synaptic plasticity and protein expression in the rat hippocampus

Author

Forrest, Caroline M., Khalil, Omari S., Pisar, Mazura, Darlington, L. Gail, and Stone, Trevor W.

Subjects

*TRYPTOPHAN, *KYNURENINE, *NEUROPLASTICITY, *GENE expression, *HIPPOCAMPUS (Brain), *GLUTAMATE receptors, *METHYL aspartate, *NEURAL development, *CELL proliferation, *LABORATORY rats

Abstract

Abstract: Glutamate receptors sensitive to N-methyl-d-aspartate (NMDA) are important in early brain development, influencing cell proliferation and migration, neuritogenesis, axon guidance and synapse formation. The kynurenine pathway of tryptophan metabolism includes an agonist (quinolinic acid) and an antagonist (kynurenic acid) at these receptors. Rats were treated in late gestation with 3,4-dimethoxy-N-[4-(3-nitrophenyl)thiazol-2-yl]-benzene-sulphonamide (Ro61-8048), an inhibitor of kynurenine-3-monoxygenase which diverts kynurenine metabolism to kynurenic acid. Within 5h of drug administration, there was a significant decrease in GluN2A expression and increased GluN2B in the embryo brains, with changes in sonic hedgehog at 24h. When injected dams were allowed to litter normally, the brains of offspring were removed at postnatal day 21 (P21). Recordings of hippocampal field excitatory synaptic potentials (fEPSPs) showed that prenatal exposure to Ro61-8048 increased neuronal excitability and paired-pulse facilitation. Long-term potentiation was also increased, with no change in long-term depression. At this time, levels of GluN2A, GluN2B and postsynaptic density protein PSD-95 were all increased. Among several neurodevelopmental proteins, the expression of sonic hedgehog was increased, but DISC1 and dependence receptors were unaffected, while raised levels of doublecortin and Proliferating Cell Nuclear Antigen (PCNA) suggested increased neurogenesis. The results reveal that inhibiting the kynurenine pathway in utero leads to molecular and functional synaptic changes in the embryos and offspring, indicating that the pathway is active during gestation and plays a significant role in the normal early development of the embryonic and neonatal nervous system. [Copyright &y& Elsevier]

Published

2013

12. Interpretation of kynurenine pathway metabolism in osteoporosis

Author

Darlington, L. Gail, Forrest, Caroline M., Mackay, Gillian M., Oxford, Lynn, Stoy, Nicholas, and Stone, Trevor W.

Subjects

*BIOMARKERS, *DRUG therapy, *BIOINDICATORS, *BAIT markers

Abstract

Abstract: Recent evidence that oxidative stress may contribute to the development or progress of osteoporosis may indicate an underlying, or accompanying state of inflammation. In general, inflammatory conditions are associated with the activation of immune-competent cells in which activation of the kynurenine pathway occurs in parallel with the generation and release of cytokines and oxidative stress. We have therefore measured the levels of kynurenine pathway metabolites as well as peroxidation products and inflammatory markers such as neopterin, in patients with osteoporosis before and after two years of drug treatment. At diagnosis, patients showed much higher levels of anthranilic acid than control subjects, but less 3-hydroxy-anthranilic acid. There were also high levels of lipid peroxidation products. All these parameters normalised over two years of treatment, together with a significant improvement in bone density assessed by dual energy X-ray absorptiometry (DEXA) scans. Here, we hypothesise that there may be a causal link between these factors. [Copyright &y& Elsevier]

Published

2007