Regional neurochemical characterization of the flinders sensitive line rat with regard to glutamate-nitric oxide and cGMP signalling pathways / Estella Lily Minnaar.

Minnaar, Estella Lily

January 2008

The serious nature of MDD has intensified the need to identify and elucidate new neurobiological targets for antidepressant drug action. Depression presents with evidence for degenerative pathology that relates to disturbances in excitatory glutamatergic pathways, particularly the N-methyl-D-aspartate (NMDA) receptormediated release of the pleiotropic molecule, nitric oxide (NO), and cyclic guanosine monophosphate (cGMP). The contribution of the glutamate-NO/cGMP pathway may realize great importance as a fundamental substrate underlying the pathophysiology of major depression. In the next generation of antidepressant drugs, the nitric oxide pathway could playa dynamic role in addressing urgent therapeutic needs. In this study, we have used a genetic model of depression, the Flinders Sensitive Line (FSL) rat, to investigate the surrogate markers of the NO/cGMP pathway. The aim was to determine whether the depressive-like behaviour of the hypercholinergic FSL rat is accompanied by altered activation of the NO/cGMP pathway. To this end, the extent to which the FSL and Flinders Resistant Line (FRL) rats differ neurochemically with regard to basal hippocampal and frontal cortical NOS-activity, as well as nitric oxide (NO) and cGMP accumulation, were determined. Additionally, select behavioural assessments were performed to confirm the anxiogenic phenotype of the FSL strain. For neurochemical determinations a sensitive fluorometric reversed phase highperformance liquid chromatographic (HPLC) assay was developed to analyze total nitrite and nitrate in brain tissue. Nitrate was enzymatically converted to nitrite before derivatization with 2,3-diaminonaphthalene (DAN). The stable and highly fluorescent product, 2,3-naphthotriazole (NAT), was quantified. Secondly, the quantity of the amino acid L-citrulline was measured by HPLC with electrochemical detection after o-phthalaldehyde (OPA) derivatization. L-citrulline formation was used as an index for nNOS activity. Finally, a direct, competitive enzyme immunoassay kit was used to determine the downstream activity of the NO-pathway in brain tissue. FSL rats were compared to FRL rats with respect to sensitivity to serotonin 5-HT1A . receptor-mediated hypothermia under our lab-conditions. The Open Field Test (OFT) behavioural assessment was performed to compare FSL with FRL groups under baseline conditions according to their level of inherent anxiety. The parameters used to measure anxiety were number of line crosses (locomotor activity), time spent in middle blocks and social interaction time between pairs of rats. As an additional behavioural assessment, the Forced Swim Test (FST) was performed to assess behavioural restraint measured as time of immobility. Basal cGMP levels in the frontal cortex were found to be significantly less in FSL than in FRL rats, whereas the levels in the hippocampus did not differ significantly. No other significant differences with respect to NO and nNOS activity were apparent in either of the brain areas. The hypothermia test confirmed a significantly greater decrease in temperature in the FSL rat than the FRL rat. The FST did not confirm any differences in immobility time between the two rat strains. In the OFT, FSL rat groups exhibited behaviour that indicated significantly more anxiety than FRL rats. Under basal conditions, FSL rats do not present with significant changes in markers of the NO cascade in the hippocampus and frontal cortex compared to FRL controls, including NOS activity as well as NO accumUlation. However, cGMP levels were found to be significantly lower in the frontal cortex of FSL rats versus FRL rats, although not in the hippocampus. Since the FSL rat is known to be hypercholinergic, these data support an interaction between the NO/cGMP pathway and the cholinergIc system in the frontal cortex but not hippocampus of FSL animals. The mechanisms and implications of such a mutual involvement need further clarification. Further, this anatomical differentiation may have important implications for understanding the role of NO in the depressive-like behaviour of the FSL rat and, indeed, may reveal more on the neurobiology and treatment of depression. Through the performed behavioural assessments, the FSL and FRL rats were successfully separated with respect to their anxiety phenotype as well as their heightened response to serotonergic challenge, thus confirming a contribution of both the serotonergic and cholinergic systems to the depressogenic nature of these animals. As concluding remark can be said that under normal basal conditions markers of the NO/cGMP signalling cascade are not altered in FSL vs FRL rats, although cGMP levels are reduced in the frontal cortex of FSL rats, supportive of an NO-independent mechanism of cGMP regulation, possibly involving ACh. / Thesis (M.Sc. (Pharmacology)--North-West University, Potchefstroom Campus, 2009.

Neuronal nitric oxide synthase activity

Flinders sensitive line rat

Animal model of depression

Stress

Regional neurochemical characterization of the flinders sensitive line rat with regard to glutamate-nitric oxide and cGMP signalling pathways / Estella Lily Minnaar.

Minnaar, Estella Lily

January 2008

The serious nature of MDD has intensified the need to identify and elucidate new neurobiological targets for antidepressant drug action. Depression presents with evidence for degenerative pathology that relates to disturbances in excitatory glutamatergic pathways, particularly the N-methyl-D-aspartate (NMDA) receptormediated release of the pleiotropic molecule, nitric oxide (NO), and cyclic guanosine monophosphate (cGMP). The contribution of the glutamate-NO/cGMP pathway may realize great importance as a fundamental substrate underlying the pathophysiology of major depression. In the next generation of antidepressant drugs, the nitric oxide pathway could playa dynamic role in addressing urgent therapeutic needs. In this study, we have used a genetic model of depression, the Flinders Sensitive Line (FSL) rat, to investigate the surrogate markers of the NO/cGMP pathway. The aim was to determine whether the depressive-like behaviour of the hypercholinergic FSL rat is accompanied by altered activation of the NO/cGMP pathway. To this end, the extent to which the FSL and Flinders Resistant Line (FRL) rats differ neurochemically with regard to basal hippocampal and frontal cortical NOS-activity, as well as nitric oxide (NO) and cGMP accumulation, were determined. Additionally, select behavioural assessments were performed to confirm the anxiogenic phenotype of the FSL strain. For neurochemical determinations a sensitive fluorometric reversed phase highperformance liquid chromatographic (HPLC) assay was developed to analyze total nitrite and nitrate in brain tissue. Nitrate was enzymatically converted to nitrite before derivatization with 2,3-diaminonaphthalene (DAN). The stable and highly fluorescent product, 2,3-naphthotriazole (NAT), was quantified. Secondly, the quantity of the amino acid L-citrulline was measured by HPLC with electrochemical detection after o-phthalaldehyde (OPA) derivatization. L-citrulline formation was used as an index for nNOS activity. Finally, a direct, competitive enzyme immunoassay kit was used to determine the downstream activity of the NO-pathway in brain tissue. FSL rats were compared to FRL rats with respect to sensitivity to serotonin 5-HT1A . receptor-mediated hypothermia under our lab-conditions. The Open Field Test (OFT) behavioural assessment was performed to compare FSL with FRL groups under baseline conditions according to their level of inherent anxiety. The parameters used to measure anxiety were number of line crosses (locomotor activity), time spent in middle blocks and social interaction time between pairs of rats. As an additional behavioural assessment, the Forced Swim Test (FST) was performed to assess behavioural restraint measured as time of immobility. Basal cGMP levels in the frontal cortex were found to be significantly less in FSL than in FRL rats, whereas the levels in the hippocampus did not differ significantly. No other significant differences with respect to NO and nNOS activity were apparent in either of the brain areas. The hypothermia test confirmed a significantly greater decrease in temperature in the FSL rat than the FRL rat. The FST did not confirm any differences in immobility time between the two rat strains. In the OFT, FSL rat groups exhibited behaviour that indicated significantly more anxiety than FRL rats. Under basal conditions, FSL rats do not present with significant changes in markers of the NO cascade in the hippocampus and frontal cortex compared to FRL controls, including NOS activity as well as NO accumUlation. However, cGMP levels were found to be significantly lower in the frontal cortex of FSL rats versus FRL rats, although not in the hippocampus. Since the FSL rat is known to be hypercholinergic, these data support an interaction between the NO/cGMP pathway and the cholinergIc system in the frontal cortex but not hippocampus of FSL animals. The mechanisms and implications of such a mutual involvement need further clarification. Further, this anatomical differentiation may have important implications for understanding the role of NO in the depressive-like behaviour of the FSL rat and, indeed, may reveal more on the neurobiology and treatment of depression. Through the performed behavioural assessments, the FSL and FRL rats were successfully separated with respect to their anxiety phenotype as well as their heightened response to serotonergic challenge, thus confirming a contribution of both the serotonergic and cholinergic systems to the depressogenic nature of these animals. As concluding remark can be said that under normal basal conditions markers of the NO/cGMP signalling cascade are not altered in FSL vs FRL rats, although cGMP levels are reduced in the frontal cortex of FSL rats, supportive of an NO-independent mechanism of cGMP regulation, possibly involving ACh. / Thesis (M.Sc. (Pharmacology)--North-West University, Potchefstroom Campus, 2009.

Neuronal nitric oxide synthase activity

Flinders sensitive line rat

Animal model of depression

Stress

Validation de la résignation apprise chez la souris : étude de modèles animaux de dépression / Learned helplessness validation in mice : study of animal models of depression

Bougarel, Laure

30 September 2010

Les études sur modèle animal sont essentielles pour l'élaboration de nouveaux antidépresseurs, à la compréhension de leurs mécanismes d'action et aux mécanismes de la physiopathologie de la dépression. Des facteurs génétiques jouent un rôle important dans l'étiologie des troubles de l'humeur. Notre équipe de recherche a créé un modèle basé sur la reproduction dirigée de souris présentant un trait comportemental relatif à la symptomatologie dépressive en se basant sur les performances obtenues dans l'épreuve de suspension par la queue, obtenant ainsi une lignée résignée et une lignée non résignée . Au cours de ces travaux, nous avons validé un protocole de résignation apprise (RA) chez la souris CD1. Cette épreuve consiste en i) une période de conditionnement, ii) une période de test. Il a été montré que 4 périodes de conditionnement avec des chocs à 0,3 mA sont nécessaires à l'obtention d'une résignation. Un second protocole de RA, sur 3 semaines, a également été validé chez la souris CD1 consistant en 4 périodes de conditionnement suivies de tests à J5, J10, J15 et J20. L'introduction d'un « rappel » de choc en J8 a permis d'entretenir la résignation jusqu'en J20 contrairement à un protocole identique sans rappel. Ce nouveau protocole s'avère être particulièrement adapté pour étudier les effets de traitements chroniques. Deux autres modèles animaux de dépression (issues de 8 souches de souris différentes) ont été également crées dans le laboratoire sur la base de performances dans l'épreuve de suspension par la queue (TST) ou l'épreuve de nage forcée (FST). Les résultats révèlent que les modèles issus de 8 souches criblés au TST ou au FST présentent des caractéristiques neurochimiques différentes, qui en plus d'un comportement différent dans l'épreuve de résignation apprise, confirment que ceux sont bien deux modèles animaux distincts / Studies on animal models are essential to the development of new antidepressants, to the understanding of their mechanisms of action and to the mechanisms underlying depressive disorders. Genetics factors play an important role in the etiology of mood disorders. Our research team elaborated a model based on the selective breeding of mice displaying a behavioural trait of the depression symptomatology. On the basis of the behaviour in the TST, two strains of mice with “helpless” or “non helpless” phenotype were developed. During this work, we validated a learned helplessness protocol in CD1 mice. This paradigm consists in i) a conditioning period. ii) an escape test. It has been found that 4 conditioning periods with 0.3 mA shocks were necessary to induce helplessness. A second learned helplessness protocol was developed in CD1 mice, consisting in 4 conditioning periods followed by escape test in D5, D10, D15 and D20. A “shock reminder” at D8 allowed to maintain helplessness up to D20. This new protocol is particularly appropriate for investigating effects of chronic treatments. The selective breeding lines (from 8 strains of mice) were based on their performance in either the tail suspension test or the forced swimmed test. The results confirmed that lines models (bred from 8 lines) have not only behavioural differences but also display different biochemical characteristics

Dépression

Sérotonine

5-HT1A

[18F]MPPF

Résignation apprise

Souris

Modèle animal de dépression

Depression

Serotonin

5-HT1A

[18F]MPPF

Learned helplessness

Mice

Animal model of depression

616.8