Vitamin B12 Deficiency Does Not Stimulate Amyloid-beta Toxicity in a Ceanorhabditis elegans Model of Alzheimer’s Disease

Showemimo, Opeyemi F

01 May 2021

Alzheimer’s disease (AD) is symptomized by amyloid-beta plaques in the brain and accounts for more than 65 percent of dementia cases. Vitamin B12 (cobalamin) deficiency can result in similar cognitive impairment and roughly 15% of the elderly are vitamin B12 deficient. Vitamin B12 deficiency results in the accumulation of toxic methylmalonic acid and homocysteine. Hyperhomocysteinemia is a strong risk factor for AD. To test if vitamin B12 deficiency stimulates amyloid-beta toxicity, Caenorhabditis elegans expressing amyloid-beta in muscle were fed either vitamin B12-deficient OP50-1 or vitamin B12-rich HT115(DE3) E. coli bacteria. Increased amyloid-beta toxicity was found in worms fed the 0P50-1 diet. Supplementation of the OP50-1 diet with vitamin B12 did not rescue the increased C. elegans toxicity. Knockdown of either of the only two C. elegans vitamin B12-dependent enzymes metr-1 or mmmc-1 protected against toxicity. Therefore, vitamin B12 deficiency does not stimulate Alzheimer’s amyloid-beta-mediated toxicity in C. elegans.

cobalamin

b-vitamins

amyloid-beta paralysis

homocysteine

Caenorhabditis elegans

Cognitive Neuroscience

Molecular and Cellular Neuroscience

Nervous System Diseases

Other Neuroscience and Neurobiology

A Role of Vitamin B2 in Reducing Amyloid-beta Toxicity in a Caenorhabditis elegans Alzheimer’s Disease Model

Ameen, Muhammad Tukur

01 May 2018

Alzheimer’s disease (AD) is associated with amyloid-beta peptide deposition and loss of mitochondrial function. Using a transgenic C. elegans AD worm model expressing amyloid-beta in body wall muscle, we determined that supplementation with either of the forms of vitamin B2, flavin mononucleotide (FMN) or flavin adenine dinucleotide (FAD) protected against amyloid-beta mediated paralysis. FMN and FAD were then assayed to determine effects on ATP, oxygen consumption, and reactive oxygen species (ROS) with these compounds not significantly improving any of these mitochondrial bioenergetic functions. Knockdown of the daf-16/FOXO transcriptional regulator or the FAD synthase enzyme completely abrogated the protective effects of FMN and FAD, while knockdown of the mitochondrial unfolded protein response factors ubl-5 or atfs-1 also blocked the protective effects. Therefore, vitamin B2 supplementation could lead to the activation of conserved signaling pathways in humans to delay the onset and progression of neurodegenerative diseases such as AD.

Amyloid-beta peptide

B vitamins

Alzheimer’s disease

Caenorhabditis elegans

Biology

Molecular and Cellular Neuroscience

Molecular Biology

Nervous System Diseases

Homocystéinémie, apports en vitamines B et facteurs de risque cardiométabolique au Bénin, Afrique

El Mabchour, Asma

01 1900

L'hyperhomoscystéinémie (HHcy) est considérée comme un facteur indépendant de risque cardio-métabolique. Notre travail avait pour objectifs : 1) de déterminer la prévalence de l’HHcy au Bénin; 2) d’étudier sa relation avec les apports de vitamines B12, B9, B6 et B2, la consommation d’alcool, l’âge, le sexe et le niveau socioéconomique (NSE); 3) de vérifier son association avec les facteurs classiques de risque cardio-métabolique. Un total de 541 sujets apparemment en santé et vivant dans trois zones du Bénin ont été étudiés. L’Hcy sérique a été analysée par ELISA. Des rappels de 24h ont servi à évaluer les apports nutritifs. L’obésité et l’hypertension ont été définies selon l’OMS, la dyslipidémie et la dysglycémie selon la NCEP-ATPIII. Les autres données ont été récoltées par questionnaire. La prévalence de l’HHcy était élevée : 52,2% chez les hommes et de 24,7% chez les femmes. Dans les modèles multivariés, l’Hcy était positivement associée à la consommation de bière locale chez les hommes; chez les femmes, elle était associée négativement à l'apport de vitamine B12. L’Hcy était positivement associée à la tension artérielle, au taux de LDL-cholestérol et au cholestérol total chez les hommes, mais seulement avec le rapport cholestérol total/HDL-cholestérol (CT/HDL-c) chez les femmes. Les femmes présentant une HHcy étaient au moins deux fois plus susceptibles de présenter une hypertension ou un rapport CT/HDL-c élevé que celles dont l’Hcy était normale. Un apport suffisant en B12 ainsi qu’une consommation prudente de boissons alcoolisées pourraient réduire l'HHcy et donc contribuer à réduire le risque cardio-métabolique de cette population du sud du Bénin. / Hyperhomocysteinemia (HHcy) appears to be an independent risk factor for cardiovascular disease. This study aims to determine the prevalence of HHcy in Benin, to explore its relationship with intakes of folate, B12, B6 and B2, with alcohol consumption and with socioeconomic status (SES) and to verify whether it is associated with classical risk factors of cardiovascular diseases. 541 apparently healthy subjects were randomly selected in tree areas of Benin. Hcy was measured in serum using ELISA commercial kits. Nutrient intakes were assessed on the basis of three non-consecutive 24-hour recalls. Alcohol consumption, socio-demographics and SES were documented in personal interviews. Obesity, hypertension, dyslipidemia and hyperglycaemia were defined according to WHO and NCEP-ATPIII. HHcy (> 12 μmol/L) was detected in 52.2% of men and 24.7% of women. In multivariate models, Hcy in men was positively associated with alcohol intake, but only alcohol in beer. In women, Hcy was negatively related to vitamin B12 intake. HHcy was associated in women with more than twice the odds of hypertension and with the CT/HDL-c ratio. In men, Hcy was positively and independently associated with diastolic blood pressure and with LDL-cholesterol and total cholesterol. In this Beninese population, the prevalence of HHcy is particularly high among men, and it appears to be related to alcohol consumption. Inadequate intake of vitamin B12 may be a risk factor for HHcy which could be related to some of cardiovascular factors.

Homocystéine

Hhyperhomocystéinémie

Facteurs de risques cardiovasculaire

Vitamines B

Afrique

Bénin

Hyperhomocysteinemia

Cardiovascular risk factors

B vitamins

Africa

Benin

Homocystéinémie, apports en vitamines B et facteurs de risque cardiométabolique au Bénin, Afrique

El Mabchour, Asma

01 1900

L'hyperhomoscystéinémie (HHcy) est considérée comme un facteur indépendant de risque cardio-métabolique. Notre travail avait pour objectifs : 1) de déterminer la prévalence de l’HHcy au Bénin; 2) d’étudier sa relation avec les apports de vitamines B12, B9, B6 et B2, la consommation d’alcool, l’âge, le sexe et le niveau socioéconomique (NSE); 3) de vérifier son association avec les facteurs classiques de risque cardio-métabolique. Un total de 541 sujets apparemment en santé et vivant dans trois zones du Bénin ont été étudiés. L’Hcy sérique a été analysée par ELISA. Des rappels de 24h ont servi à évaluer les apports nutritifs. L’obésité et l’hypertension ont été définies selon l’OMS, la dyslipidémie et la dysglycémie selon la NCEP-ATPIII. Les autres données ont été récoltées par questionnaire. La prévalence de l’HHcy était élevée : 52,2% chez les hommes et de 24,7% chez les femmes. Dans les modèles multivariés, l’Hcy était positivement associée à la consommation de bière locale chez les hommes; chez les femmes, elle était associée négativement à l'apport de vitamine B12. L’Hcy était positivement associée à la tension artérielle, au taux de LDL-cholestérol et au cholestérol total chez les hommes, mais seulement avec le rapport cholestérol total/HDL-cholestérol (CT/HDL-c) chez les femmes. Les femmes présentant une HHcy étaient au moins deux fois plus susceptibles de présenter une hypertension ou un rapport CT/HDL-c élevé que celles dont l’Hcy était normale. Un apport suffisant en B12 ainsi qu’une consommation prudente de boissons alcoolisées pourraient réduire l'HHcy et donc contribuer à réduire le risque cardio-métabolique de cette population du sud du Bénin. / Hyperhomocysteinemia (HHcy) appears to be an independent risk factor for cardiovascular disease. This study aims to determine the prevalence of HHcy in Benin, to explore its relationship with intakes of folate, B12, B6 and B2, with alcohol consumption and with socioeconomic status (SES) and to verify whether it is associated with classical risk factors of cardiovascular diseases. 541 apparently healthy subjects were randomly selected in tree areas of Benin. Hcy was measured in serum using ELISA commercial kits. Nutrient intakes were assessed on the basis of three non-consecutive 24-hour recalls. Alcohol consumption, socio-demographics and SES were documented in personal interviews. Obesity, hypertension, dyslipidemia and hyperglycaemia were defined according to WHO and NCEP-ATPIII. HHcy (> 12 μmol/L) was detected in 52.2% of men and 24.7% of women. In multivariate models, Hcy in men was positively associated with alcohol intake, but only alcohol in beer. In women, Hcy was negatively related to vitamin B12 intake. HHcy was associated in women with more than twice the odds of hypertension and with the CT/HDL-c ratio. In men, Hcy was positively and independently associated with diastolic blood pressure and with LDL-cholesterol and total cholesterol. In this Beninese population, the prevalence of HHcy is particularly high among men, and it appears to be related to alcohol consumption. Inadequate intake of vitamin B12 may be a risk factor for HHcy which could be related to some of cardiovascular factors.

Homocystéine

Hhyperhomocystéinémie

Facteurs de risques cardiovasculaire

Vitamines B

Afrique

Bénin

Hyperhomocysteinemia

Cardiovascular risk factors

B vitamins

Africa

Benin

The effects of long-term homocysteine-lowering treatment with folic acid, vitamin B6 and Vitamin B12 on vascular structure and function in stroke

Potter, Kathleen

January 2009

[Truncated abstract] An elevated total plasma homocysteine concentration (tHcy) is associated with an increased risk of myocardial infarction and ischemic stroke. Folic acid, vitamin B6 and B12 supplements significantly reduce tHcy even in people who are not overtly vitamin deficient. If homocysteine is a causal risk factor for atherothrombotic events, treatment with B-vitamins might prove a simple and cost-effective means to reduce cardiovascular risk. However, it remains unclear whether elevated tHcy causes atherosclerosis or is simply a risk marker. To prove that homocysteine is a modifiable risk factor for cardiovascular disease it is necessary to show that lowering tHcy reduces vascular risk. The aim of this study was to determine whether long-term homocysteine-lowering with B-vitamins would improve vascular structure and function in people with a history of stroke. This study was a cross-sectional sub-study of the Vitamins TO Prevent Stroke trial (VITATOPS), a multi-centre, randomised, double-blind, placebo-controlled clinical trial designed to test the efficacy and safety of B-vitamins (folic acid 2mg, vitamin B6 25mg and vitamin B12 0.5mg) in the prevention of vascular events in patients with a recent history of stroke or transient ischemic attack. 173 VITATOPS participants were recruited for the current study. Age, sex, stroke type, medications, cardiovascular risk factors and smoking history were recorded and blood pressure, height, weight, waist and hip girth were measured in all subjects at least two years after randomisation. ... After a mean treatment period of 3.9 ± 0.9 years, the subjects randomised to vitamin treatment had significantly lower tHcy than the subjects randomised to placebo (7.9mol/L, 95%CI 7.5, 8.4 versus 11.8mol/L, 95%CI 10.9, 12.8; p<0.001). There were no significant differences between groups in CIMT (0.84 ± 0.17mm vitamins versus 0.83 ± 0.18mm placebo; p=0.74) or FMD (median of 4.0%, IQR 0.9, 7.2, vitamins versus 3.0%, IQR 0.6, 6.6 placebo; p=0.48). Pooled estimates from the meta-analyses showed that B-vitamin treatment reduces CIMT by 0.10mm (95%CI –0.20, -0.01mm) and increases FMD by 1.4%, (95%CI 0.7, 2.2), although these estimates may have been influenced by positive publication bias. The improvement in FMD was significant in studies of less than eight weeks duration but not in studies with longer treatment periods. The association between tHcy and CIMT and FMD was eliminated by adjustment for renal function and long-term B-vitamin treatment did not alter the strong linear relationship between tHcy and cystatin C. Lowering tHcy did not alter arterial wall inflammation assessed by 18FDG-PET, although small subject numbers meant we were unable to exclude a minor treatment effect. Long-term homocysteine-lowering with B-vitamin treatment did not improve CIMT or FMD or reduce arterial wall inflammation in people with a history of stroke. The relationship between tHcy and these markers of vascular risk was eliminated by adjustment for renal function. Our data are consistent with the hypothesis that elevated tHcy is a risk marker for cardiovascular disease rather than a modifiable causal risk factor.

Cerebrovascular disease -- Prevention

Homocysteine -- Pathophysiology

Vitamin B6 -- Therapeutic use -- Testing

Folic acid -- Therapeutic use -- Testing

Vitamin B complex

Folic acid

B-vitamins

Carotid intima medial thickness

Cystatin C

Rôle de PGC-1α dans le système cardiovasculaire : recherche d’activateurs cœur-spécifiques et étude de ses mécanismes de régulation dans le muscle lisse aortique / PGC-1 alpha role in the cardiovascular system : search for inducers of its expression in heart and study of signaling pathways controlling PGC-1 alpha in aortic smooth muscle

Ruiz, Matthieu

14 September 2012

L’insuffisance cardiaque (IC) reste la cause majeure de morbimortalité dans les pays industrialisés justifiant ainsi la recherche de traitements plus ciblés. Caractérisée par des désordres métaboliques importants qui impliquent notamment une dysfonction mitochondriale, le métabolisme énergétique apparait comme une composante majeure du développement de l’IC. Ces dernières années, le co-activateur transcriptionnel PGC-1α a été proposé comme un acteur central du contrôle de la fonction mitochondriale et constitue ainsi une cible thérapeutique d’intérêt. Ainsi, l’objectif principal de ce travail est de développer un test cellulaire robotisé permettant la recherche d’activateurs de PGC-1α dans un contexte cardiaque.La mise en place de ce test cellulaire de criblage dans des cellules H9c2 différenciées en cellules pseudo-cardiaques a permis l’identification de trois familles majeures : les hormones stéroïdiennes, les vitamines B et les acides gras, capables d’activer l’expression de PGC-1α et par ce biais d’induire une biogenèse mitochondriale ainsi qu’une augmentation de la respiration mitochondriale. La validation de ces effets dans des cardiomyocytes de rat adulte a permis d’une part de valider la pertinence du test et du choix du modèle cellulaire et d’autre part de vérifier qu’une induction de l’expression de PGC-1α se répercute bien sur la cascade transcriptionnelle de la biogenèse mitochondriale. Ce test constitue donc un atout majeur dans le recherche de nouveaux activateurs de PGC-1α pour mieux comprendre ses mécanismes de régulation dans le cœur, mais offre aussi des perspectives intéressantes pour la recherche de composés pharmacologiques à visée thérapeutique.Par ailleurs, peu de connaissances sont disponibles dans la littérature concernant le contrôle de la biogenèse mitochondriale dans le muscle lisse vasculaire et plus particulièrement dans l’hypertension artérielle. Ainsi, la deuxième partie de ce travail a été de caractériser la biogenèse mitochondriale dans un contexte d’hypertension. A travers l’utilisation d’un modèle expérimental d’hypertension et après confirmation dans des cellules musculaires lisses en culture, nous avons montré une induction importante de la biogenèse mitochondriale dans l’hypertension par un mécanisme stress oxydant-dépendant. De plus, cette induction est corrélée à une forte activation de la CaMKII, totalement bloquée par la présence d’un anti-oxydant : le resvératrol. Ces résultats suggèrent donc un contrôle de la biogenèse mitochondriale dépendante de la balance pro/anti-oxydante via l’activation de la CaMKII dans le muscle lisse vasculaire. / Heart failure (HF) is still the major cause of morbimortality in industrialized countries that justify the research of new treatments. Characterized in part by metabolic disorders including mitochondrial dysfunction, energetic metabolism appears as an essential component in HF development. These last years, PGC-1α has been proposed as a central actor of mitochondrial function control and thus as a therapeutic target of interest.The development of a cellular robotized assay in cardiac-like differentiated H9c2 cells allowed identification of three families: steroid hormones, B vitamins and fatty acids, able to induce the expression of PGC-1α and thus up-regulate mitochondrial biogenesis and mitochondrial respiration. The validation of these effects in adult rat cardiomyocytes lets in the one hand to validate the suitability of the assay and in the other hand to confirm that PGC-1α induction leads to mitochondrial biogenesis activation. Consequently, this assay constitutes a major asset to find new activators of PGC-1α to better understand its regulation in heart and provides interesting perspectives for the research of therapeutic pharmacologic compounds.Mechanisms controlling mitochondrial biogenesis in response to hypertension in vascular smooth muscle remain unclear. In this context, the second part of this work was to identify how mitochondrial biogenesis is modulated in arterial hypertension. Using an experimental model of hypertension and after validation in cultivated smooth muscle cells, we show a mitochondrial biogenesis induction in response to hypertension in relation with an increase in oxidative stress. Moreover, this induction is associated with a significant increase in CaMKII activity which was totally blocked by an antioxidant: resveratrol. These results suggest a regulation of mitochondrial biogenesis by oxidative stress via a CaMKII mechanism in vascular smooth muscle.

Mitochondrie

Biogenèse mitochondriale

PGC-1α

CaMKII

Cardiomyocytes

Cellules musculaires lisses vasculaires

Hormones stéroïdiennes

Vitamine B

Acides gras

Heart failure

Mitochondria

Energetic metabolism

Mitochondrial biogenesis

PGC-1α

Arterial hypertension

CaMKII

Oxidative stress

Resveratrol

Cardiomyocytes

Vascular smooth muscle cells

Steroid hormones

B vitamins

Fatty acids

Investigating the porphyrias through analysis of biochemical pathways.

Ruegg, Evonne Teresa Nicole

January 2014

ABSTRACT The porphyrias are a diverse group of metabolic disorders arising from diminished activity of enzymes in the heme biosynthetic pathway. They can present with acute neurovisceral symptoms, cutaneous symptoms, or both. The complexity of these disorders is demonstrated by the fact that some acute porphyria patients with the underlying genetic defect(s) are latent and asymptomatic while others present with severe symptoms. This indicates that there is at least one other risk factor required in addition to the genetic defect for symptom manifestation. A systematic review of the heme biosynthetic pathway highlighted the involvement of a number of micronutrient cofactors. An exhaustive review of the medical literature uncovered numerous reports of micronutrient deficiencies in the porphyrias as well as successful case reports of treatments with micronutrients. Many micronutrient deficiencies present with symptoms similar to those in porphyria, in particular vitamin B6. It is hypothesized that a vitamin B6 deficiency and related micronutrient deficiencies may play a major role in the pathogenesis of the acute porphyrias. In order to further investigate the porphyrias, a computational model of the heme biosynthetic pathway was developed based on kinetic parameters derived from a careful analysis of the literature. This model demonstrated aspects of normal heme biosynthesis and illustrated some of the disordered biochemistry of acute intermittent porphyria (AIP). The testing of this model highlighted the modifications necessary to develop a more comprehensive model with the potential to investigated hypotheses of the disordered biochemistry of the porphyrias as well as the discovery of new methods of treatment and symptom control. It is concluded that vitamin B6 deficiency might be the risk factor necessary in conjunction with the genetic defect to trigger porphyria symptoms.

Acute attack

Acute intermittent porphyria

Aminolevulinate

Aminolevulinate dehydratase

Aminolevulinate synthase

B vitamins

Biomodeling

Cofactors

Computational modeling

Congenital erythopoietic porphyria

Coproporphyrinogen oxidase

Erythropoietic protoporphyria

Ferrochelatase

GABA

Glucose therapy

Glycine

Heme

Heme biosynthesis

Heme deficiency

Heme therapy

Hepatoerythropoietic porphyria

Hepatorenal Tyrosemia

Hereditary coproporphyria

Iron

Iron deficiency anemia

Kinetics

Lead poisoning

Liver transplant

Micronutrients

PLP

Porphobilinogen

Porphobilinogen deaminase

Porphyria

Porphyria cutanea tarda

Porphyrins

Prophylaxis

Protoporphyrinogen oxidase

Pyridoxal

Pyridoxal phosphate

Pyridoxine

Serotonin

Succinyl-CoA

TCA cycle

Tryptophan

Tryptophan pyrrolase

Uroporphyrinogen decarboxylase

Uroporphyrinogen synthase

Variegate porphyria

Vitamin B6

Vitamin therapy

Vitamins

X-linked protoporphyria

X-linked sideroblastic anemia