John X. Wilson scite author profile

Ascorbic acid and dehydroascorbic acid (DHAA, oxidized vitamin C) are dietary sources of vitamin C in humans. Both nutrients are absorbed from the lumen of the intestine and renal tubules by, respectively, enterocytes and renal epithelial cells. Subsequently vitamin C circulates in the blood and enters all of the other cells of the body. Concerning flux across the plasma membrane, simple diffusion of ascorbic acid plays only a small or negligible role. More important are specific mechanisms of transport and metabolism that concentrate vitamin C intracellularly to enhance its function as an enzyme cofactor and antioxidant. The known transport mechanisms are facilitated diffusion of DHAA through glucose-sensitive and -insensitive transporters, facilitated diffusion of ascorbate through channels, exocytosis of ascorbate in secretory vesicles, and secondary active transport of ascorbate through the sodium-dependent vitamin C transporters SVCT1 and SVCT2 proteins that are encoded by the genes Slc23a1 and Slc23a2, respectively. Evidence is reviewed indicating that these transport pathways are regulated under physiological conditions and altered by aging and disease.

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Insular cortex stimulation produces lethal cardiac arrhythmias: a mechanism of sudden death?

Oppenheimer

et al. 1991

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Ascorbate prevents microvascular dysfunction in the skeletal muscle of the septic rat

Armour

Tyml

Lidington

et al. 2001

Journal of Applied Physiology

121

147

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Septic patients have low plasma ascorbate concentrations and compromised microvascular perfusion. The purpose of the present experiments was to determine whether ascorbate improves capillary function in volume-resuscitated sepsis. Cecal ligation and perforation (CLP) was performed on male Sprague-Dawley rats. The concentration of ascorbate in plasma and urine, mean arterial blood pressure, and density of continuously perfused capillaries in the extensor digitorum longus muscle were measured 24 h after surgery. CLP caused a 50% decrease (from 56 +/- 4 to 29 +/- 2 microM) in plasma ascorbate concentration, 1,000% increase (from 46 +/- 13 to 450 +/- 93 microM) in urine ascorbate concentration, 20% decrease (from 115 +/- 2 to 91 +/- 2 mmHg) in mean arterial pressure, and 30% decrease (from 24 +/- 1 to 17 +/- 1 capillaries/mm) in the density of perfused capillaries, compared with time-matched controls. A bolus of intravenous ascorbate (7.6 mg/100 g body wt) administered immediately after the CLP procedure increased plasma ascorbate concentration and restored both blood pressure and density of perfused capillaries to control levels. In vitro experiments showed that ascorbate (100 microM) inhibited replication of bacteria and prevented hydrogen peroxide injury to cultured microvascular endothelial cells. These results indicate that ascorbate is lost in the urine during sepsis and that a bolus of ascorbate can prevent microvascular dysfunction in the skeletal muscle of septic animals. Our study supports the view that ascorbate may be beneficial for patients with septic syndrome.

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Progress in Clinical Neurosciences: Sepsis-Associated Encephalopathy: Evolving Concepts

Wilson

Young

2003

Can. j. neurol. sci.

149

132

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ABSTRACT:Systemic sepsis commonly produces brain dysfunction, sepsis-associated encephalopathy, which can vary from a transient, reversible encephalopathy to irreversible brain damage. The encephalopathy in the acute phase clinically resembles many metabolic encephalopathies: a diffuse disturbance in cerebral function with sparing of the brain stem. The severity of the encephalopathy, as reflected in progressive EEG abnormalities, often precedes then parallels dysfunction in other organs. Recent research has revealed a number of potentially important, non-mutually exclusive, mechanisms that have therapeutic implications.

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John X. Wilson

Prooxidant activity and cellular effects of the phenoxyl radicals of dietary flavonoids and other polyphenolics

Regulation of Vitamin C Transport

Insular cortex stimulation produces lethal cardiac arrhythmias: a mechanism of sudden death?

Ascorbate prevents microvascular dysfunction in the skeletal muscle of the septic rat

Progress in Clinical Neurosciences: Sepsis-Associated Encephalopathy: Evolving Concepts

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