Effect of oxygen on ascorbic acid uptake and concentration in embryonic chick brain

The effects of oxygen on ascorbic acid concentration and transport were studied in chick embryo (Gallus gallus domesticus). During normoxic incubations, plasma ascorbic acid concentration peaked on fetal day 12 and then fell, before increasing again on day 20 when pulmonary respiration began. In contrast, cerebral ascorbic acid concentration rose after day 6, was maintained at a relatively high level during days 8–18, and then fell significantly by day 20. Exposure of day 16 embryos for 48 h to 42% ambient O₂ concentration decreased ascorbic acid concentration by four-fifths in plasma and by one-half in brain, compared to values in normoxic (21% O₂) or hypoxic (15% O₂) controls. Hyperoxic preincubation of embryos also inhibited ascorbic acid transport, as evidenced by decreased initial rates of saturable and Na⁺-dependent [¹⁴C]ascorbic acid uptake into isolated brain cells. It may be concluded that changes in ascorbic acid concentration occur in response to oxidative stress, consistent with a role for the vitamin in the detoxification of oxygen radicals in fetal tissues. However, changing O₂ levels have less effect on ascorbic acid concentration in brain than in plasma, indicating regulation of the vitamin by brain cells. Furthermore, the effect of hyperoxia on cerebral vitamin C may result, in part, from inhibition of cellular ascorbic acid transport.     

Zooplankton preference of two species of freshwater ornamental fish larvae

The study aimed at evaluating the ascorbic acid (AA) concentrations in the liver and blood of the Mediterranean sea bream (Sparus aurata L.) after being fed Rovimix Stay C‐25 (RS C‐25) at three different levels (0, 200 and 800 mg kg^?1 of AA) over 45 days. RS C‐25 is a mixture of equal parts of AA monophosphate, diphosphate and polyphosphate, containing a 25% AA equivalent. Increasing RS C‐25 levels in the diet yielded an increasing ascorbic acid content in the plasma and liver, showing a good sea bream utilization of this source of vitamin C. Dietary vitamin C did not affect the growth rate or feed efficiency during the 45‐day experiment. After 75 days, fish fed a vitamin C‐free diet displayed a severe depletion of AA in the liver.     

Protective effect of seminal plasma proteins on the degradation of ascorbic acid

The objectives of this study were to determine ascorbic acid stability and its effect on antiproteinase activity of seminal plasma in the presence of an oxidant. Effect of seminal plasma, and additives: glutathione, albumin, hydrogen peroxide and Tris buffer, on ascorbic acid degradation was investigated by UV absorbance. Antiproteinase against trypsin amidase activity was measured spectrophotometrically using N-benzoyl-DL-arginine-p-nitroanilide (BAPNA) as substrate. Ascorbic acid was destroyed much more rapidly with the addition of hydrogen peroxide than in Tris buffer at pH 8.2 alone. Seminal plasma protected ascorbic acid more efficiently than glutathione and albumin alone. The protective effect of seminal plasma on ascorbic acid degradation may closely relate to the function of ascorbic acid in reproductive system of scurvy-prone animals including teleost fish. Within the range of 1–8 mM concentrations, ascorbic acid had a pro-oxidant action on seminal plasma antiproteinase activityin vitro when they were incubated with hydrogen peroxide.Abbreviations AA Ascorbic acid - BAPNA N-benzoyl-DL-arginine-p-nitroanilide - DMSO dimethyl sulfoxide - GSH glutathione - H₂O₂ hydrogen peroxide     

Vitamin C in premature and full-term human neonates

Summary

Plasma concentrations of vitamin C (ascorbic acid, AA) are known to be higher in full-term human neonates than their mothers. Immaturity of placental AA transport could result in low plasma AA concentrations in pre-term infants. We found that plasma AA concentrations in umbilical cord blood of 25 full-term neonates (38–42 weeks gestation) and 33 pre-term neonates (24–36 weeks gestation) were always significantly higher than in the corresponding maternal blood (P < 0.0001). However, plasma AA levels were significantly higher in pre-term than in full-term infants (146 ± 93 vs 102 ± 27 μM, respectively; P = 0.03). Furthermore, a rapid and sharp decrease in plasma AA concentrations from 229 ± 166 μM to 45 ± 18 μM (P < 0.0001) over the first 3 days of life was observed in eight very low birth weight infants (460–1090 g, 24–28 weeks gestation). These findings raise important questions about the in utero functions of AA in the developing fetus and the adequacy of postnatal vitamin C supplementation of the premature infant.     

Involvement of non-enzymatic antioxidant defenses in the protective effect of diphenyl diselenide on testicular damage induced by cadmium in mice

The involvement of non-enzymatic antioxidant defenses in the protective effect of diphenyl diselenide (PhSe)₂ on testicular damage caused by cadmium in mice was investigated. Mice received a single dose of CdCl₂ (5 mg/kg, intraperitoneally). Thirty minutes after the CdCl₂ injection, they received a single oral dose of (PhSe)₂ (400 μmol/kg). Twenty-four hours after CdCl₂ administration, blood samples were collected and mice were killed and had their testes dissected. Parameters in plasma (aspartate (AST) and alanine (ALT) aminotransferases and lactato dehydrogenase (LDH) activities as well as creatinine levels) were determined. The activity of δ-aminolevulinate dehydratase (δ-ALA-D), the levels of thiobarbituric acid-reactive substances (TBARS), ascorbic acid and nonprotein thiols (NPSH) and histological analysis were determined in collected samples. Results demonstrated that (PhSe)₂ protected against toxicity induced by CdCl₂ on δ-ALA-D activity, ascorbic acid and NPSH levels. (PhSe)₂ protected against the increase in plasma AST, ALT and LDH activities caused by CdCl₂. Testes of mice exposed to CdCl₂ showed marked histopathological alterations that were ameliorated by administration of (PhSe)₂. (PhSe)₂ protected against toxicity induced by CdCl₂ in testes of mice. Ascorbic acid and NPSH, non-enzymatic antioxidant defenses, are involved in the protective effect of (PhSe)₂ against testicular damage caused by CdCl₂ in mice.     

The stability of ascorbic acid in Artemia urmiana following enrichment and subsequent starvation

The effects of vitamin enrichment on ascorbic acid (AA) levels in Artemia urmiana were studied by applying an emulsion containing ascorbyl palmitate (AP) as a vitamin C source. Nauplii were kept at 28°C in incubators containing the enrichment medium (cod liver oil, AP, sodium polysurbate, α‐tocopherol and tap water) for 0, 12, 18 and 24 h and then starved at 5°C for 0, 12, 18 and 24 h. AA was determined using a reversed phase high performance liquid chromatography coupled to an electrochemical detector. The results showed that nauplii of A. urmiana had high levels of ascorbic acid in their body tissues (1534 ± 166 μg g^?1 dry weight) and that the AA concentration increased following enrichment. The maximum enrichment level was reached by hour 18, declining by hour 24. There was a significant difference in AA levels between enriched and non‐enriched artemia (P < 0.05). Although AA contents were enhanced in all groups during starvation in cold conditions, the increases were not considerable. However, a clear correlation could be observed between duration of starving and rise in AA levels in non‐enriched and 12 and 18 h enriched groups.     

Bisphenol A Alters n-6 Fatty Acid Composition and Decreases Antioxidant Enzyme Levels in Rat Testes: A LC-QTOF-Based Metabolomics Study

Background

Male reproductive toxicity induced by exposure to bisphenol A (BPA) has been widely reported. The testes have proven to be a major target organ of BPA toxicity, so studying testicular metabolite variation holds promise for the discovery of mechanisms linked to the toxic effects of BPA on reproduction.

Methodology/Principal Findings

Male Sprague-Dawley rats were orally administered doses of BPA at the levels of 0, 50 mg/kg/d for 8 weeks. We used an unbiased liquid chromatography-quadrupole time-of-flight (LC-QTOF)-based metabolomics approach to discover, identify, and analyze the variation of testicular metabolites. Two n-6 fatty acids, linoleic acid (LA) and arachidonic acid (AA) were identified as potential testicular biomarkers. Decreased levels of LA and increased levels of AA as well as AA/LA ratio were observed in the testes of the exposed group. According to these suggestions, testicular antioxidant enzyme levels were detected. Testicular superoxide dismutase (SOD) declined significantly in the exposed group compared with that in the non-exposed group, and the glutathione peroxidase (GSH-Px) as well as catalase (CAT) also showed a decreasing trend in BPA treated group.

Conclusions/Significance

BPA caused testicular n-6 fatty acid composition variation and decreased antioxidant enzyme levels. This study emphasizes that metabolomics brings the promise of biomarkers identification for the discovery of mechanisms underlying reproductive toxicity.     

Alterations in binding characteristics of peripheral benzodiazepine receptors in testes by vitamin A deficiency in guinea pigs

The correlation of vitamin A with the binding characteristics of peripheral benzodiazepine receptors (PBRs) in testes have been implicated on the basis of findings of involvement of vitamin A in testicular physiology and the abundance of PBRs in testicular tissue. Both vitamin A and PBRs are involved in the control of cell proliferation and differentiation but no data exists regarding the relationship between them. In the present study, we have examined the effects of vitamin A deficiency on the affinity and density of PBRs in testes of guinea pigs. Weanling guinea pigs were divided into three groups: control, pair-fed control and vitamin A deficient. They were fed a complete semipurified diet. The vitamin A deficient diet was similar to the control diet except vitamin A palmitate was omitted. Vitamin A deficiency status was achieved after 90 days of feeding. Binding of [³H]Ro 5-4864, a specific ligand for peripheral benzodiazepine receptors was determined in whole homogenate of testicular tissue. There was a 77% decrease in the receptor density (B_max) in vitamin A deficient group compared to control. The B_maxvalues for control, pair-fed control and vitamin A deficient groups were: 12.4 ± 0.4, 8.8 ± 0.2 and 3.0 ± 0.6 pmol/g, respectively. The equilibrium dissociation constant (K_D) values were also 86% decreased in the vitamin A deficient group compared to the other groups. The K_D values for control, pair-fed control and vitamin A deficient groups were: 3.4 ± 0.7, 2.8 ± 0.5 and 0.5 ± 0.01, respectively. The decrease in the binding characteristics of PBRs in testes due to vitamin A deficiency was accompanied with a corresponding decrease in the levels of testosterone in plasma. These results suggest a close functional relationship of vitamin A with PBRs in testes.     

Combined effect of selenium and ascorbic acid on alcohol induced hyperlipidemia in male guinea pigs

Alcoholics usually suffer from malnutrition and are especially deficient in micronutrients like vitamin C, selenium and Zn. In the present study, combined effects of selenium and ascorbic acid on alcohol-induced hyperlipidemia were studied in guinea pigs. Four groups of male guinea pigs were maintained for 45 days as follows: control (1 mg ascorbate (AA)/100 g body mass/day), ethanol (900 mg ethanol/100 g body mass + 1 mg AA/100 g body mass/day), selenium+ascorbic acid [(25 mg AA + 0.05 mg Se)/100 g body mass/day], ethanol+selenium+ascorbic acid [(25 mg AA + 0.05 mg Se + 900 mg ethanol)/100 g body mass/day]. Co-administration of selenium and ascorbic acid along with alcohol reduced the concentration of all lipids, as also evidenced from the decreased activities of hydroxymethylglutaryl-CoA reductase and enhanced activities of plasma lecithin cholesterol acyl transferase and lipoprotein lipase. Concentrations of bile acids were increased. We conclude that the supplementation of Se and ascorbic acid reduced alcohol induced hyperlipidemia, by decreased synthesis and increased catabolism.     

Effects of acute and chronic testicular hyperthermia on levels of testosterone and corticosteroids in plasma of boars

Heat is known to depress spermatogenesis in the boar, but there is little quantitative evidence on its effects on testicular steroidogenesis in this species. The studies reported here examine the effects of short-term and chronic testicular hyperthermia on levels of testosterone (T) and corticosteroids (C) in plasma of Large-White (LW) boars.In examining effects of acute heating, three mature LW boars were maintained at 23°, 35° and 23°C ambient during three consecutive 24-h periods. Blood samples were collected hourly and levels of T and C in plasma determined. Prior to heating, plasma T levels varied diurnally (P<0.05) about a 24-h mean value of 2.78 nM. During heating at 35°C, and recovery at 23°C, mean plasma T levels remained unchanged (P>0.05) but there was a loss of diurnal rhythm. Mean 24-h plasma C levels did not change during heating (20.8 nMat 23°C, 20.2 nMat 35°; P>0.05), but fell (P<0.05) to 8.3 nM during the recovery period at 23°C.Effects of chronic heating on testis function were investigated by determining T and C concentrations in peripheral plasma of unilateral cryptorchid boars in which the scrotal testis was removed shortly after birth. Blood samples were drawn hourly, for 24 h, from each animal at about 10 months of age. The boars were then treated, i.v., with 700 IU hCG and blood samples collected frequently for 12 h. Mean plasma T levels before and after hCG treatment were 1.94 and 3.71 nM respectively, the difference between these levels being significant (P<0.05). At the same time, comparison was made with four normal littermates, hemicastrated at 3 days of age and heated to maintain testis temperature near 38°C. Mean plasma T levels in these boars increased (P<0.05) from 5.90 nM before, to 26.5 nM after hCG treatment, both levels being higher (P<0.05) than corresponding values for the hemicastrate cryptorchid animals. Levels of C in plasma increased (P<0.05) in the heated-scrotal boars following hCG treatment but decreased (P<0.05) in the cryptorchid animals. Histological comparison of testicular tissue from the scrotal and cryptorchid animals in this experiment revealed hypertrophy of Leydig cells in the abdominal testes.It is concluded that acute testicular hyperthermia (to c. 38°C) does not result in significant depression in mean plasma T levels of boars. However, chronic heating of testes at 38°C is associated with lower basal levels of T in peripheral plasma and an impaired response of plasma T concentrations following gonadotrophic stimulation.     

Preparation and purification of pteroic acid from folic acid

Crude pteroic acid, obtained by microbiological degradation of folic acid, has been purified by column chromatography on cellulose CF11, eluting with 0.1 M glycine buffer of pH 10.0, containing 0.15% w/v ascorbic acid and saturated with isoamyl alcohol.     

In vivo, continuous and automatic monitoring of extracellular ascorbic acid by microdialysis and on-line liquid chromatography

A system for in vivo, automatic, continuous monitoring of organ extracellular ascorbic acid in anesthetized rat is described. This system involves microdialysis perfusion and a LC system equipped with an electrochemical detector. Microdialysate, eluted from a microdialysis probe implanted in the brain cortex or in the left ventricular myocardium of anesthetized rats was collected in the sample loop of an on-line injector for direct injection onto the LC system. This automated method provides a shortened sample processing time. This system was utilized to investigate the effect of cerebral ischemia on cortex extracellular ascorbic acid and the effect of myocardial ischemia on left ventricular myocardium extracellular ascorbic acid in anesthetized rats. Basal ascorbic acid concentrations in the cortex and left ventricular myocardium ranged from 9.7 to 15.4 μM (mean±S.D. 12.7±2.5 μM from the results of eight rats) and from 9.3 to 36.0 μM (mean±S.D., 24.3±8.9 μM from the results of twelve rats), respectively. Cerebral ischemia significantly elevated ascorbic acid levels in the cortex extracellular space, while myocardial ischemia did not significantly alter ascorbic acid levels in the left ventricular myocardium extracellular space.     

Association between the plasma proteome and serum ascorbic acid concentrations in humans

Vitamin C has been associated with a reduced risk of chronic diseases, but the biological pathways regulated by vitamin C are not all known. The objective was to use a proteomics approach to identify plasma proteins associated with circulating levels of ascorbic acid. Men and women (n= 1022) 20–29 years of age from the Toronto Nutrigenomics and Health Study completed a general health and lifestyle questionnaire and a 196-item food frequency questionnaire and provided a fasting blood sample. Circulating ascorbic acid was analyzed by high-performance liquid chromatography, and a mass-spectrometry-based multiple reaction monitoring method was used to measure 54 proteins abundant in plasma that are involved in numerous physiologic pathways. Mean protein concentrations were compared across tertiles of serum ascorbic acid using analysis of covariance adjusted for sex, ethnocultural group, season of blood draw, hormonal contraceptive use among women, waist circumference and tertiles of plasma α-tocopherol. A Bonferroni significance level of P<.0009 was applied, and analyses were adjusted for multiple comparisons using the Tukey–Kramer procedure. Levels of complement C9, ceruloplasmin, alpha-1-anti-trypsin, angiotensinogen, complement C3, vitamin D binding protein and plasminogen were inversely associated with levels of ascorbic acid. The inverse association between ascorbic acid and vitamin D binding protein was highest in those with higher levels of serum 25-hydroxyvitamin D. In conclusion, several plasma proteins from various physiologic pathways are significantly associated with circulating levels of ascorbic acid. These findings suggest that vitamin C may have novel physiological effects.     

The Effect of Iron–Vitamin C Co-supplementation on Biomarkers of Oxidative Stress in Iron-Deficient Female Youth

There is no study that assessed the effect of co-supplementation of iron and vitamin C on biomarkers of oxidative stress in non-anemic iron-deficient females. We investigated the effects of iron vs. iron?+?vitamin C co-supplementation on biomarkers of oxidative stress in iron-deficient girls. In a double-blind randomized controlled clinical trial, performed among 60 non-anemic iron-deficient girls, participants were randomly assigned to receive either 50 mg/day elemental iron supplements or 50 mg/day elemental iron?+?500 mg/day ascorbic acid for 12 weeks. Fasting blood samples were taken at baseline, weeks 6 and 12 for assessment of biomarkers of oxidative stress. Compared with the baseline levels, both iron and iron?+?vitamin C supplementation resulted in a significant reduction in serum malondialdehyde (MDA) levels (P _time?<?0.001) and remarkable elevation in serum total antioxidant capacity (TAC; P _time?<?0.001) and vitamin C levels (P _time?=?0.001); however, comparing the two groups we failed to find an additional effect of iron?+?vitamin C supplementation to that of iron alone on serum TAC and MDA levels (P _group was not statistically significant). Iron?+?vitamin C supplementation influenced serum vitamin C levels much more than that by iron alone (P _group?<?0.01). We also found a significant interaction term between time and group about serum vitamin C levels while this interaction was not significant about serum TAC and MDA levels. In conclusion, we found that iron supplementation with/without vitamin C improve biomarkers of oxidative stress among non-anemic iron-deficient females and may strengthen the antioxidant defense system by decreasing reactive oxygen species. Co-supplementation of iron?+?vitamin C has no further effect on oxidative stress compared with iron alone.     

Analysis of perillic acid in plasma by reversed-phase high-performance liquid chromatography with ultraviolet detection

A simple and sensitive isocratic high-performance liquid chromatographic (HPLC) method with UV detection for the quantitation of perillic acid, a major circulating metabolite of perillyl alcohol and d-limonene, in plasma is described. Sample preparation involved protein precipitation and subsequent transfer and dilution with 10 mM NaHCO₃. The mobile phase consisted of acetonitrile (36%) and 0.05 M ammonium acetate buffer pH 5.0 (64%). Separations were achieved on a C₁₈ column and the effluent monitored for UV absorption at the analytes' respective UV_max. Separation was excellent with no interference from endogenous plasma constituents. This method was found suitable for quantifying drug concentrations in the range of 0.25 to 200.0 μg/ml using a 0.05-ml plasma sample, and was used to study the plasma pharmacokinetics of perillic acid in mice.     

Effects of physical exercise and aging on ascorbic acid and superoxide anion levels in peritoneal macrophages from mice and guinea pigs

The relationship of physical activity and aging, two processes with a high production of oxygen-free radicals to the ascorbate and superoxide anion (O ₂ ^- ) contents of peritoneal macrophages was studied in two animal species: guinea-pig (in which ascorbic acid is a vitamin) and mouse (in which ascorbic acid is not a vitamin). The effects of exhaustive exercise were examined in young and old animals. The results show that macrophages from old animals have a lower ascorbate content than those from young ones, whereas with exercise the ascorbate content increased in both old and young animals. This increase was higher in young than in old animals, and more evident in mice than in guinea-pigs. Aging also resulted in an increase in the O ₂ ^- levels of macrophages. With exercise these levels decreased in young mice but increased in young guinea-pigs. In old animals the exhaustive exercise did not change the O ₂ ^- levels. The results suggest in general a lack of correlation between the intracellular ascorbate and O ₂ ^- levels in relation to both physical exercise and aging.Abbreviations PBS phosphate buffered saline - NBT nitroblue tetrazolium - PEC peritoneal exudate cells - PMN polymorphonuclear     

Brain and gonadal aromatase activity and steroid hormone levels in female and polymorphic males of the peacock blenny Salaria pavo

In the peacock blenny Salaria pavo large males with well-developed secondary sexual characters establish nests and attract females while small “sneaker” males mimic female sexual displays in order to approach the nests of larger males and parasitically fertilize eggs. These alternative reproductive tactics are sequential, as sneakers irreversibly switch into nesting males. This transition involves major morphologic and behavioral changes and is likely to be mediated by hormones. This study focuses on the role of aromatase, an enzyme that catalyses the conversion of androgens into estrogens, in the regulation of male sexual polymorphism in S. pavo. For this, sex steroid plasma levels and aromatase activity (AA) in gonads, whole brain and brain macroareas were determined in sneakers, transitional males (i.e. sneakers undergoing the transition into nesting males), nesting males and females collected in the field. AA was much higher in ovarian tissue than in testicular tissue and accordingly circulating estradiol levels were highest in females. This supports the view that elevated AA and estradiol levels are associated with the development of a functional ovary. Transitional males are in a non-reproductive phase and had underdeveloped testes when compared with sneakers and nesting males. Testicular AA was approximately 10 times higher in transitional males when compared with sneakers and nesting males, suggesting high AA has a suppressive effect on testicular development. Nesting males had significantly higher plasma levels of both testosterone (T) and 11-ketotestosterone when compared with the other male morphs and previous studies demonstrated that these androgens suppress female-like displays in sneakers. In the brain, AA was highest in macroareas presumably containing hypothalamic nuclei traditionally associated with the regulation of reproductive behaviors. Overall, females presented the highest levels of brain AA. In male morphs AA increased from sneakers, to transitional males, to nesting males in all brain macroareas. These results suggest that the transition into the nesting male tactic is accompanied both by an increase in testicular androgen production and by a higher conversion of androgens into estrogens in the brain. The increase in androgen production is likely to mediate the development of male secondary sexual characters while the increase in brain AA may be related to the behavioral changes associated with tactic transition.     

Cellular pathways for transport and efflux of ascorbate and dehydroascorbate

The mechanisms allowing the cellular transport of ascorbic acid represent a primary aspect for the understanding of the roles played by this vitamin in pathophysiology. Considerable research effort has been spent in the field, on several animal models and different cell types. Several mechanisms have been described to date, mediating the movements of different redox forms of ascorbic acid across cell membranes. Vitamin C can enter cells both in its reduced and oxidized form, ascorbic acid (AA) and dehydroascorbate (DHA), utilizing respectively sodium-dependent transporters (SVCT) or glucose transporters (GLUT). Modulation of SVCT expression and function has been described by cytokines, steroids and post-translational protein modification. Cellular uptake of DHA is followed by its intracellular reduction to AA by several enzymatic and non-enzymatic systems. Efflux of vitamin C has been also described in a number of cell types and different pathophysiological functions were proposed for this phenomenon, in dependence of the cell model studied. Cellular efflux of AA is mediated through volume-sensitive (VSOAC) and Ca²⁺-dependent anion channels, gap-junction hemichannels, exocytosis of secretory vesicles and possibly through homo- and hetero-exchange systems at the plasma membrane level. Altogether, available data suggest that cellular efflux of ascorbic acid - besides its uptake - should be taken into account when evaluating the cellular homeostasis and functions of this important vitamin.     

Absorption of ascorbic acid and ascorbic sulfate and ascorbate metabolism in common carp (Cyprinus carpio L.)

Summary Ascorbate metabolism was analyzed in fasted common carp and carp offered diets lacking ascorbic acid or supplemented with ascorbic acid (AA) or ascorbic sulfate (AS). Ascorbic acid and ascorbic sulfate were analyzed in the contents collected from various parts of the digestive tract. The major site of the dietary ascorbate absorption was located in the first 20% of the anterior intestine region (58.7±10.2%), whereas absorption increased to 94.3±1.9% (in the whole gut). Considerable secretion of ascorbate into the initial part of the intestine was found (71 g AA · g^-1 dry food) in fish offered the diet lacking ascorbate, but this amount was completely reabsorbed in the following portions of the intestine. AS was concentrated in the contents of the digestive tract and the external marker method revealed no absorption of AS from the intestine. In fish fed the AA-supplemented diet, the concentration of ascorbate in plasma, hepatopancreas, kidney, intestine, spleen, and brain was significantly (P<0.01) higher than in similar tissues from the other groups, suggesting that ascorbic sulfate hydrolysis was ineffective. Small amounts of AS were found in the intestine and spleen of fish fed a diet supplemented with AS. Ascorbate analysis in the whole fish allowed the estimate of the catabolic rate of fasting and scorbutic-diet-fed fish, which amounted to 0.7% and 1.46% daily of the ascorbate body pool, respectively. There was no indication that ascorbic sulfate sulfohydrolase activity was induced in hepatic, kidney, or intestinal tissue of fish offered a diet with AS in comparison to other groups. It seems unlikely that cyprinid fish are able to utilize ascorbic sulfate as a vitamin C source, and thus resemble scurvy-prone mammals in this respect.Abbreviations AA ascorbic acid - AS ascorbic sulfate - TCA trichloroacetic acid - PCA perchloric acid - EDTA ethylenediaminetetraacetate dihydrate - DNPH dinitrophenyl hydrazine - ASS-ase ascorbic sulfate sulfohydrolase - AR-ase arylsulfatase - NCS p-nitrocatechol sulfate - DHA-rase dehydroascorbate reductase - DHA dehydroascorbic acid - GSH glutathione - G-6-Pase glucose-6-phosphate dehydrogenase - G-6-P glucose-6-phosphate     

Poster Sessions CP10: Blood–Brain Barrier. Expression of vitamin C transporter SVCT2 in hypothalamic glial cells. An immunohistochemical and kinetic analysis

Kinetic analysis of vitamin C uptake has demonstrated that specialized cells take up ascorbic acid (AA), the reduced form of vitamin C, through sodium‐AA cotransporters. Recently, two different isoforms of sodium‐vitamin C cotransporters (SVCT 1, 2) that mediate high affinity Na⁺‐dependent l ‐ascorbic acid have been cloned. SVCT2 was detected mainly in choroid plexus cells and neurons, however, there are no evidences of SVCT2 expression in glial cells. High concentrations of vitamin C has been demonstrated in brain hypothalamic area. The hypothalamic glial cells, known as alpha and beta tanycytes, are specialized ependymal cells that bridge the cerebrospinal fluid and the portal blood of the median eminence. Our hypothesis postulates that tanycytes take up reduced vitamin C from the portal blood and cerebrospinal fluid generating an high concentration of this vitamin in brain hypothalamic area. In situ immunohistochemical analyses demonstrated that SVCT2 transporter is selectively expressed in apical region of tanycytes. A newly developed primary culture of mouse hypothalamic tanycytes was used to confirm the expression and function of SVCT2 isoform in these cells. Reduced vitamin C uptake was temperature and sodium dependent. Kinetic analysis showed an apparent Km of 20 μm and a Vmax of 45 pmol/min per million cells for the transport of ascorbic acid. The expression of SVCT2 was confirmed by immunoblots and RT–PCR. Tanycytes may perform a neuroprotective role concentrating the vitamin C in the hypothalamic area. Acknowledgements: Supported by Grands FONDECYT 1010843 and DIUC‐GIA 201.034.006‐1.4 from Concepción University.