Genetic Determinants of Serum Ascorbic Acid Concentrations

Cahill, Leah Elizabeth

14 February 2011

Background: The adequacy of serum ascorbic acid (vitamin C) concentrations in young Canadian adults is unknown. Individuals have varied serum ascorbic acid response to dietary vitamin C, possibly due to genetic variation. Objective: To investigate the prevalence of serum ascorbic acid deficiency in young Canadians and to determine whether common genotypes modify the association between dietary vitamin C and serum ascorbic acid. Methods: Subjects were 1277 men and women aged 20-29 years from the Toronto Nutrigenomics and Health study. Vitamin C intakes were estimated by a 196-item FFQ. Fasting blood was collected to measure serum ascorbic acid by HPLC and to genotype for common polymorphisms in genes that code for glutathione S-transferase (GST) (GSTM1, GSTT1 and GSTP1), haptoglobin (Hp), and vitamin C transporters (SLC23A1 and SLC23A2). Results: 53% of subjects had adequate, 33% had suboptimal and 14% had deficient serum ascorbic acid. Subjects with deficiency had higher mean C-reactive protein, waist circumference, BMI and blood pressure than subjects with adequate serum ascorbic acid. The odds ratio (95% confidence interval) for serum ascorbic acid deficiency was 3.43 (2.14, 5.50) for subjects who did not meet the vitamin C recommendation compared to those who did. The corresponding odds ratios were 2.17 (1.10, 4.28) and 12.28 (4.26, 33.42) for individuals with the GSTT1 functional and null genotypes respectively (interaction p=0.01), and 2.29 (0.96, 5.45) and 4.03 (2.01, 8.09) for the GSTM1 functional and null genotypes (interaction p=0.04). These odds ratios were 4.77 (2.36, 9.65) for the Hp2-2 genotype, but 1.69 (0.80, 3.63) for carriers of the Hp1 allele (interaction p=0.02). Serum ascorbic acid concentrations (mean +/- SE) differed among SLC23A1 rs4257763 genotypes (GG: 24.4 +/- 1.3, GA: 26.8 +/- 1.1, AA: 29.7 +/- 1.4, p=0.002). Conclusions: Serum ascorbic acid deficiency is prevalent and associated with markers of chronic disease. Individuals with GST null or Hp2-2 genotypes had an increased risk of deficiency if they did not meet the recommendation for vitamin C, suggesting that GSTs and haptoglobin may spare ascorbic acid when dietary vitamin C is insufficient, thus protecting against serum ascorbic acid deficiency.

Ascorbic acid

Nutrigenomics

Vitamin C

Chronic disease

Genotypes

Diet-gene interaction

GSTT1 polymorphism

GSTM1 polymorphism

Hp polymorphism

Vitamin C transporters 1 and 2

0570

Multidrug transporter MdfA as a target for high-resolution structural studies

O'Grady, Christopher Brian

28 January 2010

The MdfA is a 410 amino acid-long integral membrane protein, which belongs to the Major Facilitator superfamily of multidrug transporters. It is predicted to consist of 12 transmembrane helices. MdfA uses the energy of the transmembrane proton gradient to pump a variety of toxic compounds out of E. coli cells. No high resolution structure of MdfA is available. The goals of this research project were to develop a practical method for purification of MdfA, to evaluate the feasibility of structure determination by Nuclear Magnetic Resonance (NMR) and X-ray crystallography, and to develop an activity assay for purified MdfA. To this end, MdfA, with a hexa-histidine tag attached to facilitate protein purification, was successfully expressed and incorporated into the cell membrane using an E. coli expression system. MdfA was extracted from the cell membrane with the detergents 1,2-diheptanoyl-sn-glycero-3-phosphocholine (DHPC), n-dodecyl-B-D-maltoside (DDM), and 1-myristoyl-2-hydroxy-sn-glycero-3-[phospho-rac-(1-glycerol)] (LMPG) and purified by affinity chromatography on nickel-nitrilotriacetic acid agarose. Pure protein was found to be monodisperse in DHPC, DDM and LMPG micelles. To achieve simple amino acid selective isotope labeling for high-resolution NMR studies, MdfA was expressed in a cell-free translation system. To determine if the purified protein was properly folded, 19F NMR experiments were carried out on 5-fluoro-tryptophan-labeled MdfA while titrating the MdfA substrates ethidium bromide and chloramphenicol into the fluoro-tryptophan-labeled MdfA sample. An activity assay was developed for MdfA incorporated into liposomes using the fluorescent dye 9-amino-6-chloro-2-methoxyacridine (ACMA) to detect proton translocation coupled to substrate transport. Results from both the 19F NMR and the transport activity assay indicated that the purified MdfA was properly folded and functional. NMR experiments with pure MdfA yielded spectra of insufficient quality for high-resolution structure determination but did indicate that structural studies of MdfA by NMR are feasible. Crystallization trials yielded crystals that are likely to contain protein and will serve as a starting point for further optimization of crystallization conditions for X-ray structure determination.

nuclear magnetic resonance

protien purification

structural studies

membrane protein purification

Multidrug transporters

membrane protein structural studies

MdfA

multidrug resistance

membrane protein

x-ray crystallography

Genetic Determinants of Serum Ascorbic Acid Concentrations

Cahill, Leah Elizabeth

14 February 2011

Background: The adequacy of serum ascorbic acid (vitamin C) concentrations in young Canadian adults is unknown. Individuals have varied serum ascorbic acid response to dietary vitamin C, possibly due to genetic variation. Objective: To investigate the prevalence of serum ascorbic acid deficiency in young Canadians and to determine whether common genotypes modify the association between dietary vitamin C and serum ascorbic acid. Methods: Subjects were 1277 men and women aged 20-29 years from the Toronto Nutrigenomics and Health study. Vitamin C intakes were estimated by a 196-item FFQ. Fasting blood was collected to measure serum ascorbic acid by HPLC and to genotype for common polymorphisms in genes that code for glutathione S-transferase (GST) (GSTM1, GSTT1 and GSTP1), haptoglobin (Hp), and vitamin C transporters (SLC23A1 and SLC23A2). Results: 53% of subjects had adequate, 33% had suboptimal and 14% had deficient serum ascorbic acid. Subjects with deficiency had higher mean C-reactive protein, waist circumference, BMI and blood pressure than subjects with adequate serum ascorbic acid. The odds ratio (95% confidence interval) for serum ascorbic acid deficiency was 3.43 (2.14, 5.50) for subjects who did not meet the vitamin C recommendation compared to those who did. The corresponding odds ratios were 2.17 (1.10, 4.28) and 12.28 (4.26, 33.42) for individuals with the GSTT1 functional and null genotypes respectively (interaction p=0.01), and 2.29 (0.96, 5.45) and 4.03 (2.01, 8.09) for the GSTM1 functional and null genotypes (interaction p=0.04). These odds ratios were 4.77 (2.36, 9.65) for the Hp2-2 genotype, but 1.69 (0.80, 3.63) for carriers of the Hp1 allele (interaction p=0.02). Serum ascorbic acid concentrations (mean +/- SE) differed among SLC23A1 rs4257763 genotypes (GG: 24.4 +/- 1.3, GA: 26.8 +/- 1.1, AA: 29.7 +/- 1.4, p=0.002). Conclusions: Serum ascorbic acid deficiency is prevalent and associated with markers of chronic disease. Individuals with GST null or Hp2-2 genotypes had an increased risk of deficiency if they did not meet the recommendation for vitamin C, suggesting that GSTs and haptoglobin may spare ascorbic acid when dietary vitamin C is insufficient, thus protecting against serum ascorbic acid deficiency.

Ascorbic acid

Nutrigenomics

Vitamin C

Chronic disease

Genotypes

Diet-gene interaction

GSTT1 polymorphism

GSTM1 polymorphism

Hp polymorphism

Vitamin C transporters 1 and 2

0570

Multidrug transporter MdfA as a target for high-resolution structural studies

O'Grady, Christopher Brian

28 January 2010

The MdfA is a 410 amino acid-long integral membrane protein, which belongs to the Major Facilitator superfamily of multidrug transporters. It is predicted to consist of 12 transmembrane helices. MdfA uses the energy of the transmembrane proton gradient to pump a variety of toxic compounds out of E. coli cells. No high resolution structure of MdfA is available. The goals of this research project were to develop a practical method for purification of MdfA, to evaluate the feasibility of structure determination by Nuclear Magnetic Resonance (NMR) and X-ray crystallography, and to develop an activity assay for purified MdfA. To this end, MdfA, with a hexa-histidine tag attached to facilitate protein purification, was successfully expressed and incorporated into the cell membrane using an E. coli expression system. MdfA was extracted from the cell membrane with the detergents 1,2-diheptanoyl-sn-glycero-3-phosphocholine (DHPC), n-dodecyl-B-D-maltoside (DDM), and 1-myristoyl-2-hydroxy-sn-glycero-3-[phospho-rac-(1-glycerol)] (LMPG) and purified by affinity chromatography on nickel-nitrilotriacetic acid agarose. Pure protein was found to be monodisperse in DHPC, DDM and LMPG micelles. To achieve simple amino acid selective isotope labeling for high-resolution NMR studies, MdfA was expressed in a cell-free translation system. To determine if the purified protein was properly folded, 19F NMR experiments were carried out on 5-fluoro-tryptophan-labeled MdfA while titrating the MdfA substrates ethidium bromide and chloramphenicol into the fluoro-tryptophan-labeled MdfA sample. An activity assay was developed for MdfA incorporated into liposomes using the fluorescent dye 9-amino-6-chloro-2-methoxyacridine (ACMA) to detect proton translocation coupled to substrate transport. Results from both the 19F NMR and the transport activity assay indicated that the purified MdfA was properly folded and functional. NMR experiments with pure MdfA yielded spectra of insufficient quality for high-resolution structure determination but did indicate that structural studies of MdfA by NMR are feasible. Crystallization trials yielded crystals that are likely to contain protein and will serve as a starting point for further optimization of crystallization conditions for X-ray structure determination.

nuclear magnetic resonance

protien purification

structural studies

membrane protein purification

Multidrug transporters

membrane protein structural studies

MdfA

multidrug resistance

membrane protein

x-ray crystallography

Thyroid hormone regulation of cholesterol metabolism

Boone, Lindsey R.

January 2009

Dissertation (Ph.D.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 86 pages. Includes vita. Includes bibliographical references.

Functional characterization of urate handling by hSLC2A9 (hGLUT9) splice variants in a heterologous expression system

Witkowska, Katarzyna

Unknown Date

No description available.

GLUT9

SLC2A9

uric acid

urate

splice variants

Xenopus oocytes

heterologous expression

solute transport

simple carrier model

facilitative glucose transporters

GLUTs

gout

hyperuricemia

Développement et validation de méthodes de dosage du midazolam, un marqueur de l'activité des CYP3A, et de la fexofénadine, un substrat de la glycoprotéine P, dans les milieux biologiques

Stepanova, Tatiana

January 2009

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Interaction médicamenteuse

Cytochromes P450

Transporteurs membranaires

Midazolam

Fexofénadine

Clarythromycine

Méthode de quantification

Drug interaction

Cytochromes P450

Membrane transporters

Midazolam

Fexofenadine

Clarythromycine

Method of quantification

Thyroid hormone regulation of cholesterol metabolism /

Boone, Lindsey R.

January 2009

Dissertation (Ph.D.)--University of South Florida, 2009. / Includes vita. Includes bibliographical references. Also available online.

Efeitos da exposição à nicotina e/ou ao etanol durante a adolescência: alterações glutamatérgicas e na memória visuoespacial de camundongos / Effect of nicotine and/or etanol exposure during adolescence: glutamatergic and visuospatial memory alterations in mice

Ana Heloisa de Medeiros

10 April 2012

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / Adolescentes humanos frequentemente associam o fumo do tabaco ao consumo de bebidas alcoólicas. A despeito desta associação, pouco se sabe sobre a neurobiologia básica da coexposição no cérebro adolescente. No presente estudo, avaliamos os efeitos da exposição, que ocorreu do 30 ao 45 dia de vida pós natal (PN30 a PN45), à nicotina e/ou ao etanol durante a adolescência (PN38-45) e da retirada (PN50-57) na memória visuoespacial através do Labirinto Aquático de Morris (LAM: 6 sessões + 1 prova, 3 tentativas/sessão, latência = 2 min), em 4 grupos de camundongos Suíços machos e fêmeas: (1) exposição concomitante à NIC [solução de nicotina free base (50 μg/ml) em sacarina a 2% para beber] e ETOH [solução de etanol (25%, 2 g/kg) injetada i.p. em dias alternados]; (2) exposição à NIC; (3) exposição ao ETOH; (4) veículo (VEH). Uma vez que os resultados comportamentais podem sofrer a interferência de alterações motoras, avaliamos (a) a atividade locomotora no Teste de Campo Aberto (sessão única, 5 min) e (b) a coordenação e o equilíbrio no Teste de Locomoção Forçada sobre Cilindro Giratório (5 tentativas, latência = 2 min). Para os efeitos da exposição à NIC e/ou ao ETOH na eficiência do transporte de aminoácidos excitatórios, avaliamos a captação de [3H] D-aspartato no hipocampo. A expressão do transportador glial GLAST/EAAT1 foi avaliada por Western-blot. Durante a exposição, animais ETOH e NIC+ETOH apresentaram déficits de memória nas sessões de teste e de prova no LAM enquanto, na retirada, os grupos NIC e NIC+ETOH apresentaram prejuízos na retenção. Não houve diferenças significativas entre os grupos de tratamento em nenhum dos parâmetros testados em ambos os testes motores, tanto na exposição quanto na abstinência. Os grupos NIC, ETOH e NIC+ETOH tiveram uma diminuição significativa na captação de [3H] D-aspartato ao final do período de exposição, com uma normalização da atividade dos EAATs na retirada das drogas. O tratamento com NIC e ETOH reduziu ainda a expressão de GLAST/EAAT1 no hipocampo em ambas as idades testadas. O uso de etanol na adolescência causa prejuízos à memória de camundongos, com um efeito negativo mais acentuado quando associado à nicotina. Contudo, a retirada da nicotina apresentou um efeito mandatório nos danos encontrados. Ambas as drogas, isoladamente ou na coexposição, alteram os níveis de atividade e expressão dos EAATs, sugerindo que os resultados bioquímicos estejam implicados nas alterações comportamentais encontradas. / Human adolescents frequently associate tobacco smoke and alcoholic drinks. Despite this association, little is known about the basic neurobiology of co-exposure in the adolescent brain. In the present study, we assessed the effects of nicotine and/or ethanol exposure (postnatal days 30 to 45: PN30-45) during adolescence (PN38-45) and withdrawal (PN50-57) on visuospacial memory through the Morris Water Maze (MWM: 6 sessions + 1 probe, 3 trials/session, latency = 2 min), in four groups of male and female Swiss mice: (1) Concomitant NIC [nicotine free base solution (50g/ml) in 2% saccharin to drink] and ETOH [ethanol solution (25%, 2g/kg) i.p. injected every other day] exposure; (2) NIC exposure; (3) ETOH exposure; (4) Vehicle (VEH). Once behavioral results can be affected by motor disorders, we assessed (a) locomotor activity through the Open field Test (one session, 5 min) and (b) coordination and balance through the ROTAROD Test (5 trials, latency = 2 min). To investigate the effects of NIC and/or ETOH exposure on the efficiency on excitatory amino acid transport, we assessed the [3H] D-aspartate uptake in mice hippocampus. The GLAST/EAAT1, a glial transporter, was assessed by Western-blot technique. During exposure, ETOH and NIC+ETOH animals showed deficits on memory through the session and probe trial in WMW while, during withdrawal, NIC and NIC+ETOH groups showed impairments on retention. There were no significant differences between the experimental groups in any parameters assessed in both motor tests, either during exposure and withdrawal. There was a significant decrease in the [3H] D-aspartate for NIC, ETOH and NIC+ETOH groups in the end of exposure, turning to the normal levels of EAATs activity during withdrawal. The NIC and ETOH treatment decreased the GLAST/EAAT1 expression on hippocampus in all ages tested. Ethanol use leads to memory impairments in adolescent mice, with more preeminent effects when associated to nicotine. However, the nicotine withdrawal showed a mandatory effect on memory impairments. Both drugs, singly or in co-exposure, alter activity and expression of EAATs, which suggests that biochemical results may be associated to the behavioral alterations.

Adolescência

Etanol

Nicotina

Memória

Labirinto Aquático de Morris

Adolescence

Ethanol

Nicotine

Memory

Morris water maze

Amino acid excitatory transporters

NEUROFISIOLOGIA

AMPK, signalisation hypoxique et métabolisme tumoral / AMPK, hypoxic signaling and tumor metabolism

Pelletier, Joffrey

01 July 2014

Les tumeurs solides sont souvent confrontées à un environnement déficient en oxygène, dit hypoxique. Hypoxia-Inducible Factor 1 (HIF1) est le facteur de transcription clé de l’adaptation cellulaire à l’hypoxie, régulant de nombreux gènes impliqués dans l’angiogenèse, le métabolisme cellulaire ou la régulation du pH. Ma thèse s’articule en trois axes autour de HIF1 et de la reprogrammation métabolique hypoxique. J’ai d’abord étudié Factor-Inhibiting HIF1 (FIH), l’un des deux senseurs d’oxygène régulant HIF1. Nous avons montré que FIH est essentiel dans le développement tumoral en inhibant à la fois l’activité transcriptionnelle de HIF1 et la voie p53-p21. J’ai ensuite étudié le « shift » du métabolisme cellulaire vers la glycolyse induit par HIF1, générant une addiction pour le glucose. Nos travaux ont montré que paradoxalement, les cellules hypoxiques synthétisent du glycogène via HIF1 constituant ainsi une réserve de glucose intracellulaire. Le glycogène confère alors une résistance accrue des cellules tumorales suite à une carence en glucose. Enfin, j’ai pu montrer que l’AMPK, « gardien de la balance énergétique », n’est pas nécessaire au maintien d’un niveau viable d’ATP suite à l’inhibition de la glycolyse, via le blocage de l’export de lactate, mais exerce, un effet protecteur en absence de glucose. Cependant, l’inhibition conjointe du transporteur de lactate, MCT4, et de l’AMPK réduit fortement le développement tumoral dans un modèle de xénogreffes chez la souris, suggérant un rôle crucial de ces deux acteurs dans ce contexte. L’ensemble de ces travaux a permis d’identifier plusieurs cibles potentielles impliquées dans la plasticité métabolique en hypoxie. / Cells of solid tumors are often exposed to an environment deficient in oxygen, i.e. hypoxic. The Hypoxia-Inducible Factor-1 (HIF-1) is the major transcription factor involved in cellular adaptation to hypoxia. HIF-1 regulates a wide array of genes involved in angiogenesis, cellular metabolism or pH regulation. My thesis is organized into three axes around HIF-1 and metabolic reprogramming in hypoxia. I first studied Factor-Inhibiting HIF-1 (FIH), one of two oxygen sensors regulating HIF-1. We showed that FIH is essential for tumor development through inhibition of the HIF-1 transcriptional activity as well as through the suppression of the p53-p21 axis. I then studied the HIF-1-induced « shift » in cellular metabolism toward glycolysis, which generates a type of “glucose addiction”. We showed that paradoxically, tumor cells store glycogen in hypoxia through a HIF-1 dependant mechanism. Glycogen served as a reservoir of intracellular glucose, which allows hypoxic cells to survive periods of glucose starvation. Finally, I studied AMPK «the guardian of energy », and showed that surprisingly, this kinase is not necessary in maintaining a viable level of ATP when glycolysis is inhibited (by blockade of lactate export). However, as expected, AMPK protected cells during glucose starvation. Moreover, combined inhibition of the lactate transporter MCT4 and of AMPK reduced dramatically tumor development in a xenograft model, suggesting a crucial role for these two actors in the context of growth of tumor cells in a hostile environment. Taken together these results identified several potential drug targets involved in the metabolic plasticity of hypoxic cells.

AMPK

ATP

FIH

Glycogène

Glycolyse

HIF-1

Hypoxie

Métabolisme

Prolifération tumorale

P53

Transporteurs de monocarboxylates

AMPK

ATP

FIH

Glycogen

Glycolysis

HIF-1

Hypoxia

Metabolism

Tumor proliferation

P53

Monocarboxylate transporters