Activation of catechol‐O‐methyltransferase in astrocytes stimulates homocysteine synthesis and export to neurons

Huang, Guowei; Dragan, Magdalena; Freeman, David J.; Wilson, John X.

doi:10.1002/glia.20185

Cited by 41 publications

(30 citation statements)

References 66 publications

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“…In addition to its presence in the blood, HCY also arises in many brain areas after catechol-O-methyltransferase (COMT) methylates synaptically released dopamine (DA) and norepinephrine (NE) (Bigl et al 1974;Broch Jr. and Fonnum 1972;Huang et al 2005;Tunbridge et al 2008). HCY is present in normal human cerebrospinal fluid (CSF), and schizophrenia patients show increased HCY in the CSF (Regland et al 2004), but studies that have addressed the synaptic actions of extracellular HCY have produced complex results.…”

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confidence: 99%

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Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition

Bolton

Phillips

Constantine‐Paton

2013

Journal of Neurophysiology

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Bolton AD, Phillips MA, Constantine-Paton M. Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition. J Neurophysiol 110: 1567-1582, 2013. First published July 17, 2013 doi:10.1152/jn.00809.2012.-N-methyl-D-aspartate receptors (NMDARs) have been linked to schizophrenia because agents that bind the receptor, like ketamine and phencyclidine, are capable of inducing schizophrenia-like symptoms. Here we show that the amino acid homocysteine (HCY), which is increased in the blood of schizophrenia patients, reduces desensitization of NMDARs in cultured mouse neurons, human embryonic kidney cells transfected with GluN1 ϩ GluN2A, GluN2B, or GluN2D subunits, and hippocampal slices. HCY also alters the peak amplitude of NMDAR currents, depending on the GluN2 subunit the receptor contains; GluN1 ϩ GluN2A-containing NMDARs show an increase in peak amplitude when exposed to HCY, while GluN1 ϩ GluN2B-containing NMDARs show a decrease in peak amplitude. Both peak amplitude and desensitization effects of HCY can be occluded by saturating the NMDAR with glycine. Since glycine concentrations are not saturating in the brain, HCY could play an NMDAR-modulating role in the nervous system. We also show that HCY shares characteristics with glutamate and suggest that HCY affects both the agonist and coagonist site of the NMDAR.

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confidence: 99%

“…This occurs after DA breakdown by COMT in astrocytes (Huang et al 2005). HCY is also cleared from the extracellular space by an as yet uncharacterized neuronal transporter (Huang et al 2005). If HCY is released from astrocytes into the synaptic cleft, it could reach glutamate or DA-like concentrations (ϳ1 mM).…”

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confidence: 99%

Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition

Bolton

Phillips

Constantine‐Paton

2013

Journal of Neurophysiology

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“…The modified NA is normetaneprhine, which can be further metabolized by MAO to normetanephrine aldehyde. COMT is expressed in the CNS, predominantly in astrocytes (Muller et al, 1993;Huang et al, 2005) as well as in microglial cells (Helkamaa et al, 2007) and in some neurons (Myohanen et al, 2010). COMT inhibitors have been in use for many years as a co-treatment for Parkinson's disease (Muller, 2009;Nord et al, 2010), to reduce the breakdown of the dopamine precursor levodopa and increase central bioavailability (Muller, 2009).…”

Section: Introductionmentioning

confidence: 99%

“…COMT can methylate certain coumarins, a large family of molecules found in a variety of plants (Venugopala et al, 2013), and which have multiple functions including anti-inflammatory and anti-oxidant functions; COMT inhibitors could increase the levels of anti-oxidant coumarins and structurally related molecules. In astrocytes, COMT increases homocysteine synthesis, which can be exported and taken up by neurons as a source of cysteine (Huang et al, 2005).…”

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confidence: 99%

The blood–brain barrier-permeable catechol-O-methyltransferase inhibitor dinitrocatechol suppresses experimental autoimmune encephalomyelitis

Polak

Lin

Pelligrino

et al. 2014

Journal of Neuroimmunology

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“…In previous studies, this absorption of Vitamin C was associated with Glucose transport [11, 12]. If this relationship to Na-dependent Glucose transport can be exploited, it may be possible to enhance the uptake of Vitamin C and thus further provide an antitumorigenic effect [13].…”

Section: Introductionmentioning

confidence: 99%

Acute Effects of Vitamin C Exposure On Colonic Crypts: Direct Modulation of pH Regulation

Aldajani

Vanicek

Alhazzaa

et al. 2017

Cell Physiol Biochem

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Background/Aim: Colorectal cancer is still considered a leading cause of death in the United States and worldwide. One potential way to improve survival besides detection is to look to new therapeutic agents that can be taken prophylactically to reduce the risk of tumor formation. For cancer cells to grow and invade, a higher (more alkaline) intracellular pH must occur. We chose to examine a specific nutraceutical agent, which is Vitamin C. The acute effect of Vitamin C exposure on normal colonic crypts has been studied, providing some insight into how Vitamin C achieve its effect. Methods: Distal colon was excised from rats. Following enzymatic digestion single colonic crypts were isolated. Colonic crypts were loaded with pH sensitive dye to measure the intracellular pH changes. Crypts were exposed to solutions +/- Vitamin C. Results: 10 mM Vitamin C decreased Na⁺-dependent intracellular pH recovery. Vitamin C modulates SVCT leading to changes in proton extrusion. Vitamin C entry occurs via either SVCT2 on the basolateral membrane or by transcellular passive diffusion through tight junctions to the apical membrane and then active transport via SVCT1. Conclusion: Acute addition of Vitamin C to the basolateral membrane maintains low intracellular pH for a longer period which could halt and/or prevent tumor formation.

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Activation of catechol‐O‐methyltransferase in astrocytes stimulates homocysteine synthesis and export to neurons

Cited by 41 publications

References 66 publications

Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition

Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition

The blood–brain barrier-permeable catechol-O-methyltransferase inhibitor dinitrocatechol suppresses experimental autoimmune encephalomyelitis

Acute Effects of Vitamin C Exposure On Colonic Crypts: Direct Modulation of pH Regulation

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