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10. Effects of adrenalectomy and mineralocorticoid receptor/glucocorticoid receptor ligands in female brown norway and fischer 344 rats and F1 hybrids

Author

Marissal-Arvy, N., Pierre Mormede, ProdInra, Migration, Neurogénétique et Stress (NS), and Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA)

Subjects
SURRENALE, RAT, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], GENETIQUE, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2002

11. Is the mineralocorticoid receptor in brown norway rats constitutively active?

Author

Marissal-Arvy, N., Ribot, E., Sarrieau, A., Pierre Mormede, Neurogénétique et Stress (NS), Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA), and ProdInra, Migration

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], RAT, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2000

13. Comparison of fat storage between Fischer 344 and obesity-resistant Lou/C rats fed different diets

Author

Héliès, J. M., Abdoulaye, D., Langlois, A., Larue-Achagiotis, C., Gilles Fromentin, Tome, D., Pierre Mormede, Marissal-Arvy, N., Neurogénétique et Stress (NS), Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA), Physiologie de la Nutrition et du Comportement Alimentaire (UPNCA), and Institut National Agronomique Paris-Grignon (INA P-G)-Institut National de la Recherche Agronomique (INRA)

Subjects
REGIME, [SDV]Life Sciences [q-bio], RAT, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

15. Memory deficits in a juvenile rat model of type 1 diabetes are due to excess 11β-HSD1 activity, which is upregulated by high glucose concentrations rather than insulin deficiency.

Author

Brossaud J, Bosch-Bouju C, Marissal-Arvy N, Campas-Lebecque MN, Helbling JC, Webster SP, Walker BR, Fioramonti X, Ferreira G, Barat P, Corcuff JB, and Moisan MP

Subjects
Rats, Animals, Insulin metabolism, Glucocorticoids, 11-beta-Hydroxysteroid Dehydrogenase Type 1 metabolism, Receptor, Insulin, Memory Disorders, Glucose pharmacology, Diabetes Mellitus, Type 1, Diabetes Mellitus, Experimental
Abstract

Aims/hypothesis: Children with diabetes may display cognitive alterations although vascular disorders have not yet appeared. Variations in glucose levels together with relative insulin deficiency in treated type 1 diabetes have been reported to impact brain function indirectly through dysregulation of the hypothalamus-pituitary-adrenal axis. We have recently shown that enhancement of glucocorticoid levels in children with type 1 diabetes is dependent not only on glucocorticoid secretion but also on glucocorticoid tissue concentrations, which is linked to 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) activity. Hypothalamus-pituitary-adrenal axis dysfunction and memory alteration were further dissected in a juvenile rat model of diabetes showing that excess 11β-HSD1 activity within the hippocampus is associated with hippocampal-dependent memory deficits. Here, to investigate the causal relationships between diabetes, 11β-HSD1 activity and hippocampus-dependent memory deficits, we evaluated the beneficial effect of 11β-HSD1 inhibition on hippocampal-related memory in juvenile diabetic rats. We also examined whether diabetes-associated enhancement of hippocampal 11β-HSD1 activity is due to an increase in brain glucose concentrations and/or a decrease in insulin signalling., Methods: Diabetes was induced in juvenile rats by daily i.p. injection of streptozotocin for 2 consecutive days. Inhibition of 11β-HSD1 was obtained by administrating the compound UE2316 twice daily by gavage for 3 weeks, after which hippocampal-dependent object location memory was assessed. Hippocampal 11β-HSD1 activity was estimated by the ratio of corticosterone/dehydrocorticosterone measured by LC/MS. Regulation of 11β-HSD1 activity in response to changes in glucose or insulin levels was determined ex vivo on acute brain hippocampal slices. The insulin regulation of 11β-HSD1 was further examined in vivo using virally mediated knockdown of insulin receptor expression specifically in the hippocampus., Results: Our data show that inhibiting 11β-HSD1 activity prevents hippocampal-related memory deficits in diabetic juvenile rats. A significant increase (53.0±9.9%) in hippocampal 11β-HSD1 activity was found in hippocampal slices incubated in high glucose conditions (13.9 mmol/l) vs normal glucose conditions (2.8 mmol/l) without insulin. However, 11β-HSD1 activity was not affected by variations in insulin concentration either in the hippocampal slices or after a decrease in hippocampal insulin receptor expression., Conclusions/interpretation: Together, these data demonstrate that an increase in 11β-HSD1 activity contributes to memory deficits observed in juvenile diabetic rats and that an excess of hippocampal 11β-HSD1 activity stems from high glucose levels rather than insulin deficiency. 11β-HSD1 might be a therapeutic target for treating cognitive impairments associated with diabetes., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
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16. Diabetes and associated cognitive disorders: Role of the Hypothalamic-Pituitary Adrenal axis.

Author

Marissal-Arvy N and Moisan MP

Abstract

Both diabetes types, types 1 and 2, are associated with cognitive impairments. Each period of life is concerned, and this is an increasing public health problem. Animal models have been developed to investigate the biological actors involved in such impairments. Many levels of the brain function (structure, volume, neurogenesis, neurotransmission, behavior) are involved. In this review, we detailed the part potentially played by the Hypothalamic-Pituitary Adrenal axis in these dysfunctions. Notably, regulating glucocorticoid levels, their receptors and their bioavailability appear to be relevant for future research studies, and treatment development., (© 2022 Institut National de la Recherche pour l'Agriculture, l'alimentation et l'environnement.)

Published
2022
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17. Insulin treatment partially prevents cognitive and hippocampal alterations as well as glucocorticoid dysregulation in early-onset insulin-deficient diabetic rats.

Author

Marissal-Arvy N, Campas MN, Semont A, Ducroix-Crepy C, Beauvieux MC, Brossaud J, Corcuff JB, Helbling JC, Vancassel S, Bouzier-Sore AK, Touyarot K, Ferreira G, Barat P, and Moisan MP

Subjects
11-beta-Hydroxysteroid Dehydrogenase Type 1 metabolism, Animals, Cognition physiology, Corticosterone analysis, Corticosterone blood, Disease Models, Animal, Glucocorticoids metabolism, Hippocampus metabolism, Insulin metabolism, Male, Memory physiology, Neurons metabolism, Rats, Rats, Sprague-Dawley, Temporal Lobe metabolism, Cognitive Dysfunction physiopathology, Diabetes Mellitus, Experimental complications, Insulin therapeutic use
Abstract

The diagnosis of Type 1 Diabetes (T1D) in ever younger children led us to question the impact of insulin deficiency or chronic hyperglycemia on cerebral development and memory performances. Here, we sought abnormalities in these traits in a model of streptozotocin-induced diabetes in juvenile rats treated or not by insulin. We made the assumption that such alterations would be related, at least in part, to excessive glucocorticoid exposition in hippocampal neurons. We have compared 3 groups of juvenile rats: controls, untreated diabetics and insulin-treated diabetics. Diabetes was induced by streptozotocin (65 mg/kg IP/day, 2 consecutive days), at postnatal days 21 and 22 and a subcutaneous pellet delivering 2 U of insulin/day was implanted in treated diabetic rats 3 days later. Three weeks after diabetes induction, cognitive performances (Y maze, object location and recognition tests), in vivo brain structure (brain volume and water diffusion by structural magnetic resonance imaging), and hippocampal neurogenesis (immunohistochemical labeling) measurements were undertaken. Corticosterone levels were evaluated in plasma under basal and stress conditions, and within hippocampus together with 11β-dehydrocorticosterone to assess 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) activity. The comparison of the three experimental groups revealed that, compared to controls, untreated diabetic rats showed decreased cognitive performances in Y-maze and object location test (p < 0.05), decreased brain and hippocampal microstructure (p < 0.05), and decreased maturation and survival of hippocampal newborn neurons (p < 0.05). These alterations were associated with increased plasma corticosterone at the baseline nadir of its secretion (p < 0.001) and during the recovery phase following a restraint stress (p < 0.001), as well as increased hippocampal corticosterone levels (p < 0.01) and 11β-HSD1 activity (p < 0.05). As untreated diabetic rats, insulin-treated diabetic rats displayed decreased brain volume and water diffusion (p < 0.05 compared to controls) and intermediate memory performances and hippocampal neurogenesis (p value not significant compared to either controls or untreated diabetics). Moreover, they were similar to controls for basal plasma and hippocampal corticosterone and 11β-HSD1 activity but show increased plasma corticosterone during the recovery phase following a restraint stress similar to untreated diabetics (p < 0.001 compared to controls). Thus, insulin did not completely prevent several hippocampal-dependent behavioral and structural alterations induced by diabetes in juvenile rats which may relate to the higher cognitive difficulties encountered in T1D children compared to non-diabetic controls. Although insulin restored basal corticosterone and 11β-HSD1 activity (in hippocampus and plasma), the negative feedback regulation of corticosterone secretion after stress was still impaired in insulin-treated diabetic rats. Further characterization of insulin control on glucocorticoid regulation and availability within hippocampus is awaited., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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18. Diabetes and Insulin Injection Modalities: Effects on Hepatic and Hippocampal Expression of 11β-Hydroxysteroid Dehydrogenase Type 1 in Juvenile Diabetic Male Rats.

Author

Rougeon V, Moisan MP, Barthe N, Beauvieux MC, Helbling JC, Pallet V, Marissal-Arvy N, and Barat P

Abstract

Background: Dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis is often encountered in diabetes, leading to several clinical complications. Our recent results showing an elevated tetrahydrocortisol/tetrahydrocorticosterone ratio in morning urine of diabetic children compared to that of controls suggest an increased nocturnal activity of 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) in the former., Question: We hypothesized that these observations could be explained by a reduced inhibition of hepatic 11β-HSD1 activity by exogenous insulin owing to its subcutaneous (SC) administration and absence of first hepatic passage. Additionally, we hypothesized that hippocampal 11β-HSD1 activity might also be impaired by diabetes., Methods: We therefore measured HPA axis activity and 11β-HSD1 expression and activity in liver and hippocampus in streptozotocin-induced diabetic juvenile rats treated with SC or intraperitoneal (IP) insulin., Results: Plasma corticosterone levels were elevated in untreated diabetic rats during the resting phase and restored by both types of insulin treatment. The mRNA expression and activity of 11β-HSD1 were increased in the untreated diabetic group in liver. Although diabetes was controlled equally whatever the route of insulin administration, liver 11β-HSD1 gene expression and activity was decreased only in the IP group, suggesting that a first hepatic pass is needed for 11β-HSD1 hepatic inhibition. In hippocampus, 11β-HSD1 activity was elevated in the untreated diabetic group but restored by both types of insulin treatment. Thus, these data extend our findings in diabetic children by showing impairment of hippocampal 11β-HSD1 in diabetes and by demonstrating that IP is preferable to SC insulin administration to restore 11β-HSD1 activity in liver.

Published
2017
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20. QTLs influencing carbohydrate and fat choice in a LOU/CxFischer 344 F2 rat population.

Author

Marissal-Arvy N, Diane A, Moisan MP, Larue-Achagiotis C, Tridon C, Tome D, Fromentin G, and Mormède P

Subjects
Acyl-CoA Dehydrogenase genetics, Acyl-CoA Dehydrogenase metabolism, Animals, Behavior, Animal, Choice Behavior, Computational Biology, Crosses, Genetic, Female, Male, Obesity etiology, Obesity metabolism, Rats, Rats, Inbred F344, Rats, Inbred Strains, Weight Gain, Dietary Carbohydrates adverse effects, Dietary Fats adverse effects, Food Preferences, Models, Biological, Obesity genetics, Quantitative Trait Loci
Abstract

Objective: Individual differences in macronutrient selection, particularly fat and carbohydrate, and associated body weight gain are partly inherited as polygenic traits, but the potential genetic pathways are unknown. To give an overview of the Quantitative Trait Loci (QTLs) and candidate gene pathways influencing these differences in rat was aimed in this study., Design and Methods: To that end, F2 rats obtained from the crossbreeding between LOU/C and Fischer 344 rat strains to diet self-selection during 3 weeks were submitted. A genome scan was conducted with microsatellite markers covering evenly the whole genome. Genotypes and phenotypes were analyzed separately in male and female F2 rats by multiple interval mapping. Then, lists of candidate genes were treated by the Ingenuity Pathway software to propose gene pathways involved in our phenotypes., Results: Among numerous others, a QTL on chromosome 12 that influences body weight gain, and fat and carbohydrate choices in the LOU/C x Fischer 344 F2 rat population was found. This locus contains notably the acyl-co-A dehydrogenase gene., Conclusion: A strong genetic determinism and complex pathways involving numerous candidate genes and processes, notably in accordance with the metabolic theory of feeding behavior control were found., (Copyright © 2013 The Obesity Society.)

Published
2014
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21. QTLs influencing IGF-1 levels in a LOU/CxFischer 344F2 rat population. Tracks towards the metabolic theory of Ageing.

Author

Marissal-Arvy N, Duron E, Parmentier F, Zizzari P, Mormède P, and Epelbaum J

Subjects
Animals, Crosses, Genetic, Female, Lod Score, Male, Phenotype, Radioimmunoassay, Rats, Rats, Inbred F344, Rats, Wistar, Aging physiology, Insulin-Like Growth Factor I metabolism, Metabolic Networks and Pathways, Quantitative Trait Loci
Abstract

Objective: Since a reduction of the insulin/IGF-1 signaling cascade extends life span in many species and IGF-1 signaling might partly mediate the effects of caloric restriction (CR), an experimental intervention for increasing longevity, the purpose of the present study was to use quantitative trait loci (QTL) analysis, an unbiased genetic approach, to identify particular regions of the genome influencing plasma IGF-1 levels in an F2 intercross between F344 and LOU/C rats; the latter being an inbred strain of Wistar origin, considered as a model of healthy aging since it resists to age (and diet)-induced obesity., Design: F1 hybrids were obtained by crossbreeding LOU/C with F344 rats, and then F1 were bred inter se to obtain the F2 population, of which 93 males and 94 females were studied. Total plasma IGF-1 levels were determined by radioimmunoassay. A genome scan of the F2 population was made with 100 microsatellite markers) selected for their polymorphism between LOU/C and F344 strains (and by covering evenly the whole genome., Results: By simple interval mapping sex-dependent QTLs were found on chromosome 17 in males and on chromosome 18 in females. By multiple interval mapping, additional QTLs were found on chromosomes 1, 4, 5, 6, 12, 15 and 19 in males and on chromosomes 3, 5, 6, 12 and 17 in females. Only the markers D1Rat196 and D12Mgh5 were found in both males and females. The majority of QTLs corresponded to metabolic syndrome (cardiac function: n = 45 (30%), obesity/diabetes: n = 22 (15%), inflammation: n = 19 (13%) and only a limited number to body weight: n = 13 (9%), proliferation (n = 10 (7%) or ossification: n = 7 (5%). Ninety-six candidate genes were located on the different QTLs. A significant proportion of these genes are connected to IGF-1 production and receptor pathways (n = 18) or metabolic syndrome (n = 11)., Conclusions: Subsequent studies are necessary to determine whether the genetic networks underscored are also involved in age-associated obesity, diabetes and inflammation as well as cardiovascular impairments., (© 2013. Published by Elsevier Ltd on behalf of Growth Hormone Research Society. All rights reserved.)

Published
2013
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22. Vitamin A regulates hypothalamic-pituitary-adrenal axis status in LOU/C rats.

Author

Marissal-Arvy N, Hamiani R, Richard E, Moisan MP, and Pallet V

Subjects
11-beta-Hydroxysteroid Dehydrogenase Type 1 biosynthesis, Animals, Corticosterone blood, Corticotropin-Releasing Hormone biosynthesis, Hypothalamo-Hypophyseal System physiology, Male, Pituitary-Adrenal System physiology, Rats, Rats, Inbred Strains, Rats, Wistar, Stress, Physiological, Stress, Psychological physiopathology, Tretinoin therapeutic use, Vitamin A blood, Vitamin A Deficiency drug therapy, Vitamin A Deficiency metabolism, Vitamin A Deficiency physiopathology, Hypothalamo-Hypophyseal System drug effects, Pituitary-Adrenal System drug effects, Vitamin A pharmacology
Abstract

The aim of this study was to explore the involvement of retinoids in the hypoactivity and hyporeactivity to stress of the hypothalamic-pituitary-adrenal (HPA) axis in LOU/C rats. We measured the effects of vitamin A deficiency administered or not with retinoic acid (RA) on plasma corticosterone in standard conditions and in response to restraint stress and on hypothalamic and hippocampal expression of corticosteroid receptors, corticotropin-releasing hormone and 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) in LOU/C rats. Interestingly, under control conditions, we measured a higher plasma concentration of retinol in LOU/C than in Wistar rats, which could contribute to the lower basal activity of the HPA axis in LOU/C rats. Vitamin A deficiency induced an increased HPA axis activity in LOU/C rats, normalized by RA administration. Compared with LOU/C control rats, vitamin A-deficient rats showed a delayed and heightened corticosterone response to restraint stress. The expression of corticosteroid receptors was strongly decreased by vitamin A deficiency in the hippocampus, which could contribute to a less efficient feedback by corticosterone on HPA axis tone. The expression of 11β-HSD1 was increased by vitamin A deficiency in the hypothalamus (+62.5%) as in the hippocampus (+104.7%), which could lead to a higher production of corticosterone locally and contribute to alteration of the hippocampus. RA supplementation treatment restored corticosterone concentrations and 11β-HSD1 expression to control levels. The high vitamin A status of LOU/C rats could contribute to their low HPA axis activity/reactivity and to a protective effect against 11β-HSD1-mediated deleterious action on cognitive performances during ageing.

Published
2013
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23. Functional variability in corticosteroid receptors is a major component of strain differences in fat deposition and metabolic consequences of enriched diets in rat.

Author

Marissal-Arvy N, Langlois A, Tridon C, and Mormede P

Subjects
Adrenalectomy, Animals, Dietary Fats metabolism, Dietary Sucrose metabolism, Energy Metabolism, Lipid Metabolism, Male, Obesity, Abdominal metabolism, Potassium urine, Rats, Rats, Inbred F344, Rats, Inbred Strains, Receptors, Glucocorticoid agonists, Receptors, Mineralocorticoid agonists, Sodium urine, Thermogenesis, Adiposity physiology, Animal Feed, Receptors, Glucocorticoid metabolism, Receptors, Mineralocorticoid metabolism
Abstract

We aimed to distinguish mineralocorticoid (MR) from glucocorticoid receptor (GR) actions in the nutritional differences between the Fischer 344 (F344) and LOU/C (LOU) rat strains. The decrease of urinary Na+/K+ ratio induced via MR activation by aldosterone and decrease of circulating lymphocyte counts exerted via GR activation by dexamethasone revealed a higher efficiency of corticosteroid receptor in LOU than in F344 rats. Afterward, we submitted F344 and LOU male rats to adrenalectomy and to substitution treatments with agonists of MR or GR under 3 successive diets--standard, free choice between chow and pork lard, and an imposed high-fat/high-sugar diet--to explore the involvement of the interactions between activation of corticosteroid receptors and diet on food intake, body composition, and metabolic blood parameters in these rats. Lastly, we measured energy expenditure and substrate oxidization in various experimental conditions in LOU and F344 rats by indirect calorimetry. In LOU rats, we showed greater basal and MR-induced energy expenditure, diet-induced thermogenesis, and lipid oxidization. We showed that the F344 rat strain constitutes a relevant model of the unfavorable effects exerted by glucocorticoids via GR on food preference for high-calorie diets, abdominal fat deposition, diabetes, and other deleterious consequences of visceral obesity. Contrary to F344 rats, the LOU rats did not exhibit the expected visceral fat deposition linked to GR activation. This strain is therefore a relevant model of resistance to diet-induced obesity and to the deleterious effects exerted by glucocorticoids on metabolism., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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24. Molecular genetics of hypothalamic-pituitary-adrenal axis activity and function.

Author

Mormede P, Foury A, Barat P, Corcuff JB, Terenina E, Marissal-Arvy N, and Moisan MP

Subjects
Animals, Humans, Adrenal Glands physiology, Hypothalamo-Hypophyseal System
Abstract

The hypothalamic-pituitary-adrenocortical (HPA) axis is a major neuroendocrine system involved in the regulation of numerous physiological processes and in adaptation to stress. A wide range of variability can be observed in all the components of the system, and the contribution of genetic factors has been shown in the central regulation of the axis, the production of glucocorticoid hormones by the adrenal cortex, their bioavailability, and the efficiency of their action at the level of receptor and postreceptor mechanisms. Numerous molecular polymorphisms have been described that contribute to physiological variation as well as to HPA axis-related pathological conditions. Although most studies focus on single gene polymorphisms, future studies should aim to integrate the different sources of variation into a systems genetic model to take into account the strong interdependence of the different components of the axis., (© 2011 New York Academy of Sciences.)

Published
2011
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25. Strain differences in hypothalamic pituitary adrenocortical axis function and adipogenic effects of corticosterone in rats.

Author

Marissal-Arvy N, Gaumont A, Langlois A, Dabertrand F, Bouchecareilh M, Tridon C, and Mormede P

Subjects
Adrenalectomy, Animals, Body Composition drug effects, Circadian Rhythm, Corticosterone metabolism, Corticosterone pharmacology, Corticotropin-Releasing Hormone metabolism, Eating drug effects, Hypoglycemia chemically induced, Hypoglycemia metabolism, Insulin, Paraventricular Hypothalamic Nucleus metabolism, Rats, Rats, Inbred F344, Rats, Inbred Lew, Rats, Inbred Strains, Restraint, Physical, Species Specificity, Stress, Physiological etiology, Stress, Physiological metabolism, Weight Gain drug effects, Adipogenesis physiology, Corticosterone physiology, Hypothalamo-Hypophyseal System metabolism, Pituitary-Adrenal System metabolism
Abstract

Our aim was to explore the nutritional consequences of functional variations in the hypothalamic-pituitary-adrenocortical (HPA) axis in rats. We first aimed to compare the HPA axis activity and reactivity to stress between Fischer 344 (F344) and LOU/C (LOU) strains that differ in food behavior and metabolism. When compared with F344 rats, LOU rats showed lower corticosterone (Cort) levels across the circadian cycle and after restraint stress. Then, we compared the effects of adrenalectomized (ADX) and Cort substitution after ADX on food intake, body weight gain, body composition, and biochemical parameters related to metabolism and HPA axis function between 1) the F344 rat strain, a model of HPA axis hyperactivity and hyperreactivity to stress, and characterized by a large fat mass; 2) the LOU strain, shown to exhibit hypoactive/hyporeactive HPA axis, reduced fat mass, and resistance to diet-induced obesity; and 3) the Lewis (LEW) strain, a third condition of fat deposition (high) related to HPA axis function (low activity/reactivity). The F344 and LEW strains exhibited classical responses to ADX and Cort. On the contrary, LOU rats showed an apparent insensitivity to ADX. Despite the highest effects of Cort related to glucocorticoid receptor (on thymus weight, corticotropin-releasing factor, or corticosteroid-binding globulin), the LOU strain was insensitive to Cort effects on body weight, liver, and abdominal fat mass. These characteristics could be involved in the leanness, insensitivity to diet-induced obesity, and healthy aging in LOU. Our study shows the relevance of comparing the F344, LOU, and LEW strains to cover the complexity of interactions between metabolism and HPA axis function.

Published
2007
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26. Comparison of fat storage between Fischer 344 and obesity-resistant Lou/C rats fed different diets.

Author

Héliès JM, Diane A, Langlois A, Larue-Achagiotis C, Fromentin G, Tomé D, Mormède P, and Marissal-Arvy N

Subjects
Adipose Tissue physiology, Adipose Tissue, Brown physiology, Animals, Body Composition physiology, Body Weight physiology, Eating physiology, Energy Intake physiology, Female, Male, Organ Size physiology, Rats, Rats, Inbred F344, Rats, Wistar, Dietary Fats metabolism, Obesity metabolism
Abstract

Objective: We aimed to characterize further the Lou/C (LOU) and Fischer 344 (F344) rat strains for nutritional traits to validate their use as contrasting strains for molecular genetic studies., Research Methods and Procedures: Five batches of LOU and F344 rats were used to measure caloric intake, weight gain, and body composition when fed a chow diet, a self-selection diet (together with the study of preferences for macronutrients), hypercaloric diets, and a chow diet in a cold environment., Results: Despite a higher caloric intake when fed a chow diet, LOU rats showed a lower weight gain, final body weight, and percentage of fat tissue, together with a higher percentage of carcass weight, than F344 rats. When fed a self-selection diet, LOU males ingested less protein and more fat than F344 males, and the reverse was observed for females. In this condition, feed efficiency was reduced in LOU but increased in F344 rats compared with the chow diet. Diet-induced obesity was observed in F344 rats but not in LOU rats fed hypercaloric diets. In a cold environment, both LOU and F344 rats displayed an increased percentage of brown adipose tissue compared with control groups, together with a higher caloric intake., Discussion: The study shows robust nutritional differences between the LOU rat, a lean strain with a low feed efficiency and resistant to diet-induced obesity, and the contrasting F344 rat strain. It also shows the interest in these strains for studying the genetic components of resistance to obesity.

Published
2005
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27. Excretion of electrolytes in Brown Norway and Fischer 344 rats: effects of adrenalectomy and of mineralocorticoid and glucocorticoid receptor ligands.

Author

Marissal-Arvy N and Mormède P

Subjects
Aldosterone administration & dosage, Aldosterone pharmacology, Animals, Appetite, Body Weight, Diuresis, Dose-Response Relationship, Drug, Drinking, Drug Administration Schedule, Eating, Ligands, Male, Osmolar Concentration, Potassium urine, Rats, Rats, Inbred BN anatomy & histology, Rats, Inbred F344 anatomy & histology, Roxithromycin administration & dosage, Roxithromycin pharmacology, Sodium urine, Sodium Chloride, Species Specificity, Adrenalectomy, Electrolytes urine, Rats, Inbred BN urine, Rats, Inbred F344 urine, Receptors, Glucocorticoid metabolism, Receptors, Mineralocorticoid metabolism
Abstract

Our previous studies showed that adrenalectomy (ADX) has surprisingly no effect on body weight and fluid intake in the Brown Norway rat strain, suggesting that mineralocorticoid receptor (MR)-mediated effects are present even in absence of corticosteroids in this strain. Moreover, glucocorticoid receptor (GR)-mediated mechanisms are more effective in Brown Norway than in Fischer 344 rats. Such functional differences in corticosteroid receptor pathways between Brown Norway and Fischer 344 rats led us to compare the effect of ADX and MR/GR-mediated actions on sodium and potassium excretion between these two rat strains. To this end, we first measured the effect of an acute high dose of aldosterone on the urinary Na+/K+ concentration ratio in intact and ADX Brown Norway and Fischer 344 rats. Second, to discriminate mineralocorticoid from glucocorticoid actions, we treated chronically ADX rats with increasing doses of aldosterone or RU28362, a pure GR agonist, in the drinking fluid. As sodium homeostasis involves salt appetite regulation, behaviour under mineralocorticoid control, we also measured saline preference in Brown Norway and Fischer 344 rats. Our data illustrate: (1) the very limited effect of ADX on body weight, food and fluid intake, diuresis, natriuresis, kaliuresis and salt appetite in Brown Norway rats, supporting the presence of MR signalling pathways in the absence of adrenal steroids in these rats; (2) the insensitivity of MR to aldosterone in intact Brown Norway rats, and the reduced sensitivity of MR to aldosterone in ADX Brown Norway rats compared with ADX Fischer 344 rats; and (3) the greater sensitivity of GR-related mechanisms to RU28362 in Brown Norway than in Fischer 344 rats in terms of body weight gain and electrolyte excretion. Considering that both MRs and GRs regulate hypothalamic-pituitary-adrenal axis processes, such functional differences in corticosteroid receptors could be at the origin, at least partly, of the strain differences in corticotropic activity/reactivity to stress previously described.

Published
2004
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28. Gain of function mutation in the mineralocorticoid receptor of the Brown Norway rat.

Author

Marissal-Arvy N, Lombès M, Petterson J, Moisan MP, and Mormède P

Subjects
Adrenal Cortex Hormones metabolism, Adrenalectomy, Aldosterone pharmacology, Amino Acid Substitution physiology, Androstanols pharmacology, Animals, Chromosomes, Mammalian, Female, Genetic Linkage, Male, Mutation, Orchiectomy, Progesterone pharmacology, Quantitative Trait Loci, Rats, Rats, Inbred F344, Receptors, Glucocorticoid metabolism, Sequence Analysis, DNA, Species Specificity, Rats, Inbred BN genetics, Receptors, Mineralocorticoid genetics, Receptors, Mineralocorticoid metabolism
Abstract

The aim of this research was to identify the molecular bases of differences in sensitivity to corticosteroid hormones between Brown Norway and Fischer 344 rats. We previously showed an apparent insensitivity to adrenalectomy in Brown Norway rats. Based on our first hypothesis of a different activity/reactivity of the mineralocorticoid signaling pathway between the two rat strains, we sequenced Brown Norway and Fischer 344 mineralocorticoid receptor cDNA and identified a tyrosine to cysteine substitution (Y73C) in the N-terminal part of the Brown Norway mineralocorticoid receptor. As a first step, this substitution gave us a means to distinguish the Brown Norway allele from the Fischer 344 at the mineralocorticoid receptor locus in an F2 population. We showed a strong genetic linkage between the mineralocorticoid receptor genotype and sensitivity to adrenalectomy. A subsequent genome-wide linkage analysis confirmed the involvement of the mineralocorticoid receptor locus and implicated other loci, including one on chromosome 4, which collectively explain a large part of the strain differences in corticosteroid receptor responses. In vitro studies further revealed that the Y73C substitution induces greater transactivation of the mineralocorticoid receptor by aldosterone, and surprisingly by progesterone as well, which could substitute for aldosterone after adrenalectomy in Brown Norway rats. We challenged this hypothesis in vivo and showed that plasma progesterone is higher in Brown Norway male rats and partially compensates for aldosterone after adrenalectomy. This work illustrates the interest of a pluristrategic approach to explore the mineralocorticoid receptor signaling pathway and its implication in the regulation of hydroelectrolytic homeostasis and blood pressure.

Published
2004
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29. Is the mineralocorticoid receptor in Brown Norway rats constitutively active?

Author

Marissal-Arvy N, Ribot E, Sarrieau A, and Mormède P

Subjects
Adrenalectomy, Androstanols pharmacology, Animals, Body Weight drug effects, Body Weight physiology, Desoxycorticosterone pharmacology, Drinking drug effects, Drinking physiology, Eating drug effects, Hippocampus metabolism, Ligands, Male, Maze Learning drug effects, Organ Size drug effects, Pituitary Gland metabolism, Rats, Rats, Inbred F344, Receptors, Glucocorticoid metabolism, Thymus Gland anatomy & histology, Transcortin analysis, Rats, Inbred BN metabolism, Receptors, Mineralocorticoid metabolism
Abstract

In a previous study using corticosterone treatment of adrenalectomized rats, we hypothesized that mineralocorticoid receptor (MR)-related mechanisms are constitutively active and that glucocorticoid receptor (GR)-mediated mechanisms are more efficient in Brown Norway rats compared to Fischer 344 (F344) rats. In order to discriminate the mineralocorticoid from the glucocorticoid actions exerted by corticosterone, F344 and Brown Norway adrenalectomized rats were treated with increasing doses (1, 5 and 25 microg/ml of drinking water) of deoxycorticosterone (DOC, MR-specific ligand) or RU 28362 (GR-specific ligand). These rats were compared with long-term adrenalectomized (ADX) untreated rats and sham-ADX rats. This study confirms our previous results, notably the lack of effect of ADX on body weight and fluid intake in Brown Norway rats. Moreover, DOC treatment had no effect in Brown Norway rats whereas the higher dose restored fluid intake of the F344 ADX group to sham values. These results support the hypothesis of a constitutive activation of the MR and therefore the insensitivity of this receptor to its ligand in Brown Norway rats. Alternatively, RU 28362 treatment induced greater weight loss, decrease in food intake, anxiolysis, thymus involution, and decrease in plasma transcortin concentration and pituitary corticosteroid receptor densities in Brown Norway rats than in F344 rats, which is consistent with greater efficiency of GR mechanisms in Brown Norway rats than in F344 rats. Therefore, these strains are of great utility to disentangle MR and GR effects on complex phenotypes.

Published
2000
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30. Strain differences in corticosteroid receptor efficiencies and regulation in Brown Norway and Fischer 344 rats.

Author

Marissal-Arvy N, Mormède P, and Sarrieau A

Subjects
Adrenalectomy, Animals, Body Weight, Drinking Behavior, Hippocampus metabolism, Hypothalamus metabolism, Male, Organ Size, Pituitary Gland metabolism, Rats, Rats, Inbred BN, Rats, Inbred F344, Receptors, Glucocorticoid metabolism, Receptors, Mineralocorticoid metabolism, Species Specificity, Thymus Gland anatomy & histology, Transcortin metabolism, Receptors, Glucocorticoid physiology, Receptors, Mineralocorticoid physiology
Abstract

During the dark phase of the diurnal cycle, and during recovery from restraint stress, Brown Norway (BN) rats secrete less corticosterone than Fischer 344 (F344) rats. These strains also display different levels of corticosteroid receptors in the hippocampus, and of plasma transcortin. Because corticosteroid receptors, plasma transcortin and corticosterone secretion are mutually regulated, we examined brain and pituitary mineralocorticoid receptor (MR) and glucocorticoid receptor (GR) expression and some of the parameters modulated by these receptors (i.e. body and thymus weight, fluid intake, plasma transcortin) in BN and F344 rat strains, by comparing the effects of either hormone deprivation by long-term (21 days) adrenalectomy (ADX), or chronic elevation of corticosterone given in drinking fluid to ADX rats. In BN rats, body weight gain and fluid intake were insensitive to corticosterone deprivation, suggesting that MR-related mechanisms are constitutively active in this strain. Body weight (b.w.) gain, plasma transcortin and thymus weight were reduced to a greater extent by chronic corticosterone in BN rats than in F344 rats, possibly as a consequence of higher free, active fraction of plasma corticosterone due to lower plasma transcortin concentrations and/or a greater efficiency of GR-related mechanisms in BN rats. F344 rats displayed twofold higher brain and pituitary MR levels than BN rats, whereas tissue-and strain-specific regulations were observed for GR levels. The differences in MR levels observed between BN and F344 strains cannot completely explain the differences in corticosterone actions, suggesting that strain differences in response to ADX or corticosterone treatment result from variable receptor efficiencies.

Published
1999
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