Your search keyword '"Pourié, Carine"' showing total 8 results

1. Glucocorticoid Receptor Activation Restores Learning Memory by Modulating Hippocampal Plasticity in a Mouse Model of Brain Vitamin B12 Deficiency

Author

Dreumont, Natacha, Mimoun, Khalid, Pourié, Carine, Quadros, Edward V., Alberto, Jean-Marc, Umoret, Rémy, Helle, Déborah, Robert, Aurélie, Daval, Jean-Luc, Guéant, Jean-Louis, and Pourié, Grégory

Published

2021

2. Late Maternal Folate Supplementation Rescues from Methyl Donor Deficiency-Associated Brain Defects by Restoring Let-7 and miR-34 Pathways

Author

Geoffroy, Andréa, Kerek, Racha, Pourié, Grégory, Helle, Déborah, Guéant, Jean-Louis, Daval, Jean-Luc, and Bossenmeyer-Pourié, Carine

Published

2017

3. Developmental Impairments in a Rat Model of Methyl Donor Deficiency: Effects of a Late Maternal Supplementation with Folic Acid

Author

Geoffroy, Andréa, Saber-Cherif, Lynda, Pourié, Grégory, Helle, Déborah, Umoret, Rémy, Guéant, Jean-Louis, Bossenmeyer-Pourié, Carine, Daval, Jean-Luc, Nutrition-Génétique et Exposition aux Risques Environnementaux (NGERE), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lorraine (UL)

Subjects

[SDV]Life Sciences [q-bio], folate, Methylation, Nervous System, Article, lcsh:Chemistry, Folic Acid, Pregnancy, Animals, Rats, Wistar, Homocysteine, development, maternal folate supplementation during lactation, lcsh:QH301-705.5, ComputingMilieux_MISCELLANEOUS, Behavior, Animal, postnatal brain maturation, vitamin B12, microRNAs, Disease Models, Animal, Vitamin B 12, lcsh:Biology (General), lcsh:QD1-999, Dietary Supplements, Female, Growth and Development

Abstract

Vitamins B9 (folate) and B12 act as methyl donors in the one-carbon metabolism which influences epigenetic mechanisms. We previously showed that an embryofetal deficiency of vitamins B9 and B12 in the rat increased brain expression of let-7a and miR-34a microRNAs involved in the developmental control of gene expression. This was reversed by the maternal supply with folic acid (3 mg/kg/day) during the last third of gestation, resulting in a significant reduction of associated birth defects. Since the postnatal brain is subject to intensive developmental processes, we tested whether further folate supplementation during lactation could bring additional benefits. Vitamin deficiency resulted in weaned pups (21 days) in growth retardation, delayed ossification, brain atrophy and cognitive deficits, along with unchanged brain level of let-7a and decreased expression of miR-34a and miR-23a. Whereas maternal folic acid supplementation helped restore the levels of affected microRNAs, it led to a reduction of structural and functional defects taking place during the perinatal/postnatal periods, such as learning/memory capacities. Our data suggest that a gestational B-vitamin deficiency could affect the temporal control of the microRNA regulation required for normal development. Moreover, they also point out that the continuation of folate supplementation after birth may help to ameliorate neurological symptoms commonly associated with developmental deficiencies in folate and B12.

Published

2019

4. N‐homocysteinylation of tau and MAP1 is increased in autopsy specimens of Alzheimer's disease and vascular dementia.

Author

Bossenmeyer‐Pourié, Carine, Smith, A David, Lehmann, Sylvain, Deramecourt, Vincent, Sablonnière, Bernard, Camadro, Jean‐Michel, Pourié, Grégory, Kerek, Racha, Helle, Deborah, Umoret, Remy, Guéant‐Rodriguez, Rosa‐Maria, Rigau, Valérie, Gabelle, Audrey, Sequeira, Jeffrey M, Quadros, Edward V, Daval, Jean‐Luc, and Guéant, Jean‐Louis

Subjects

VASCULAR dementia, TAU proteins, FOLIC acid, ALZHEIMER'S disease, VITAMIN B12, VASCULAR diseases, AUTOPSY, NEUROBEHAVIORAL disorders

Abstract

The pathomechanisms that associate a deficit in folate and/or vitamin B12 and the subsequent hyperhomocysteinemia with pathological brain ageing are unclear. We investigated the homocysteinylation of microtubule‐associated proteins (MAPs) in brains of patients with Alzheimer's disease or vascular dementia, and in rats depleted in folate and vitamin B12, Cd320 KO mice with selective B12 brain deficiency and H19‐7 neuroprogenitors lacking folate. Compared with controls, N‐homocysteinylated tau and MAP1 were increased and accumulated in protein aggregates and tangles in the cortex, hippocampus and cerebellum of patients and animals. N‐homocysteinylation dissociated tau and MAPs from β‐tubulin, and MS analysis showed that it targets lysine residues critical for their binding to β‐tubulin. N‐homocysteinylation increased in rats exposed to vitamin B12 and folate deficit during gestation and lactation and remained significantly higher when they became 450 days‐old, despite returning to normal diet at weaning, compared with controls. It was correlated with plasma homocysteine (Hcy) and brain expression of methionine tRNAsynthetase (MARS), the enzyme required for the synthesis of Hcy–thiolactone, the substrate of N‐homocysteinylation. Experimental inactivation of MARS prevented the N‐homocysteinylation of tau and MAP1, and the dissociation of tau and MAP1 from β‐tubulin and PSD95 in cultured neuroprogenitors. In conclusion, increased N‐homocysteinylation of tau and MAP1 is a mechanism of brain ageing that depends on Hcy concentration and expression of MARS enzyme. Its irreversibility and cumulative occurrence throughout life may explain why B12 and folate supplementation of the elderly has limited effects, if any, to prevent pathological brain ageing and cognitive decline. Copyright © 2019 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2019

5. Increased homocysteinemia is associated with beneficial effects on body weight after long-term high-protein, low-fat diet in rats

Author

Beck, Bernard, Bossenmeyer-Pourié, Carine, Jeannesson, Elise, Richy, Sébastien, and Guéant, Jean-Louis

Subjects

*OBESITY treatment, *OBESITY complications, *ANIMAL experimentation, *BIOLOGICAL assay, *BODY weight, *DIET, *FOLIC acid, *LOW-fat diet, *NUTRITION, *PROTEINS, *RATS, *VITAMIN B12, *DATA analysis, *HOMOCYSTEINE, *THERAPEUTICS

Abstract

Abstract: Objective: Diets rich in protein are often used for weight loss in obese patients, but their long-term effects are not fully understood. Homocysteine (Hcy) is considered to be a risk factor for cardiovascular diseases, and its levels are influenced by diet, particularly the protein and fat content. We studied the effect of diets with varying fat/protein content on body weight and composition, food intake, Hcy, B vitamins, leptin, and several pro-inflammatory cytokines. Methods: For 2 mo, Long-Evans rats were fed either a low protein/high fat (LP), a standard control (C), or a high protein/low fat (HP) diet containing 5, 15, or 40% protein, respectively, and normal carbohydrate content (55% of total energy). Results: The HP rats ingested 12 to 15% fewer calories (P < 0.001), gained less weight (P < 0.04), and were less fatty (P < 0.01) than the other groups. Plasma Hcy was increased in HP rats compared to C (+23%) and LP (+29%) rats (P < 0.03). It was positively correlated with protein intake (r = 0.386; P < 0.01). No obvious signs of inflammation were observed in any of the groups. Hcy increase was related directly to decrease in plasma folate (r = −0.372; P < 0.02). Conclusion: These data confirm the beneficial effects of HP diets on body weight but bring attention to the control of folate allowance to limit the adverse effects of elevated Hcy. Ingestion of folate-rich foods or even folate supplementation should be considered when using these HP diets over the long term for weight loss. [Copyright &y& Elsevier]

Published

2012

6. Brain Susceptibility to Methyl Donor Deficiency: From Fetal Programming to Aging Outcome in Rats.

Author

Hassan, Ziad, Coelho, David, Kokten, Tunay, Alberto, Jean-Marc, Umoret, Rémy, Daval, Jean-Luc, Guéant, Jean-Louis, Bossenmeyer-Pourié, Carine, and Pourié, Grégory

Subjects

GESTATIONAL age, AGE differences, MALNUTRITION, RATS, VITAMIN B12

Abstract

Deficiencies in methyl donors, folate, and vitamin B12 are known to lead to brain function defects. Fetal development is the most studied but data are also available for such an impact in elderly rats. To compare the functional consequences of nutritional deficiency in young versus adult rats, we monitored behavioral outcomes of cerebellum and hippocampus circuits in the offspring of deficient mother rats and in adult rats fed a deficient diet from 2 to 8 months-of-age. We present data showing that the main deleterious consequences are found in young ages compared to adult ones, in terms of movement coordination and learning abilities. Moreover, we obtained sex and age differences in the deleterious effects on these functions and on neuronal layer integrity in growing young rats, while deficient adults presented only slight functional alterations without tissue damage. Actually, the cerebellum and the hippocampus develop and maturate according to different time lap windows and we demonstrate that a switch to a normal diet can only rescue circuits that present a long permissive window of time, such as the cerebellum, whereas the hippocampus does not. Thus, we argue, as others have, for supplements or fortifications given over a longer time than the developmental period. [ABSTRACT FROM AUTHOR]

Published

2019

7. Methyl Donor Deficiency during Gestation and Lactation in the Rat Affects the Expression of Neuropeptides and Related Receptors in the Hypothalamus.

Author

Saber Cherif, Lynda, Pourié, Grégory, Geoffroy, Andréa, Julien, Amélia, Helle, Déborah, Robert, Aurélie, Umoret, Rémy, Guéant, Jean-Louis, Bossenmeyer-Pourié, Carine, and Daval, Jean-Luc

Subjects

LACTATION, NEUROPEPTIDES, HYPOTHALAMUS, VITAMIN B12, FOLIC acid, DWARFISM

Abstract

The micronutrients vitamins B9 and B12 act as methyl donors in the one-carbon metabolism involved in transmethylation reactions which critically influence epigenetic mechanisms and gene expression. Both vitamins are essential for proper development, and their deficiency during pregnancy has been associated with a wide range of disorders, including persisting growth retardation. Energy homeostasis and feeding are centrally regulated by the hypothalamus which integrates peripheral signals and acts through several orexigenic and anorexigenic mediators. We studied this regulating system in a rat model of methyl donor deficiency during gestation and lactation. At weaning, a predominance of the anorexigenic pathway was observed in deficient pups, with increased plasma peptide YY and increased hypothalamic pro-opiomelanocortin (POMC) mRNA, in line with abnormal leptin, ghrelin, and insulin secretion and/or signaling during critical periods of fetal and/or postnatal development of the hypothalamus. These results suggest that early methyl donor deficiency can affect the development and function of energy balance circuits, resulting in growth and weight deficits. Maternal administration of folic acid (3 mg/kg/day) during the perinatal period tended to rectify peripheral metabolic signaling and central neuropeptide and receptor expression, leading to reduced growth retardation. [ABSTRACT FROM AUTHOR]

Published

2019

8. Short hypoxia could attenuate the adverse effects of hyperhomocysteinemia on the developing rat brain by inducing neurogenesis

Author

Blaise, Sébastien A., Nédélec, Emmanuelle, Alberto, Jean-Marc, Schroeder, Henri, Audonnet, Sandra, Bossenmeyer-Pourié, Carine, Guéant, Jean-Louis, and Daval, Jean-Luc

Subjects

*HYPOXEMIA, *DEVELOPMENTAL neurobiology, *HOMOCYSTEINE, *APOPTOSIS, *VITAMIN B12, *NEUROPROTECTIVE agents, *LABORATORY rats

Abstract

Abstract: Gestational deficiency in methyl donors such as folate and vitamin B12 impairs homocysteine metabolism and can alter brain development in the progeny. Since short hypoxia has been shown to be neuroprotective in preconditioning studies, we aimed to investigate the effects of brief, non-lesioning neonatal hypoxia (100% N2 for 5 min) on the developing brain of rats born to dams fed either a standard diet or a diet lacking vitamins B12, B2, folate and choline until offspring''s weaning. While having no influence on brain accumulation of homocysteine and concomitant apoptosis in 21-day-old deficient pups, exposure to hypoxia reduced morphological injury of the hippocampal CA1 layer. It also markedly stimulated the incorporation of bromodeoxyuridine (BrdU) in permissive areas such as the subventricular zone and the hippocampus followed by the migration of new neurons. Scores in a locomotor coordination test (days 19–21) and learning and memory behavior in the eight-arm maze (days 80–84) were found to be significantly improved in rats exposed to hypoxia in addition to the deficient diet. Therefore, by stimulating neurogenesis in rat pups, brief neonatal hypoxia appeared to attenuate the long-term effects of early exposure to a deficiency in nutritional determinants of hyperhomocysteinemia. [Copyright &y& Elsevier]

Published

2009