The importance of specific amino acid residues in transmembrane domains 3 and 5 of a corticotropin releasing-factor receptor for functional activity of a CRF-R1 selective small molecule antagonist

Grigoriadis, Christopher Emil

22 January 2016

INTRODUCTION: For many years, stress and anxiety disorders have taken a heavy toll on the American population. Affecting approximately 40 million individuals over the age of 18, the discovery of treatment options is very important. Ever since the 1950s, a wide variety of compounds have been discovered and proven to have antagonistic properties for such disorders. For the last three decades, however, researchers have focused on a specific peptide that was discovered in 1981 by Dr. Wylie Vale and his colleagues at the Salk Institute in San Diego, California, corticotropin releasing factor (CRF). CRF is a 41 amino acid peptide that has been shown to play a very important role in an organism's endocrine response to stress through the activation of the hypothalamic–pituitary–adrenal (HPA) axis. Ever since its discovery, the identification and characterization of the CRF receptors and family members have allowed for the development of novel peptide and non–peptide antagonists. Unfortunately, these compounds have been unsuccessful in the progression to later stage clinical trials that could lead to promising therapeutics. There are two receptor subtypes for this family of peptides known as CRFR1 and CRFR2. While there have been many compounds identified that can block CRFR1, currently, there are no known selective non–peptide antagonists for the CRFR2 subtype. As the two receptor subtypes share 70% sequence identity, close observation of the functional properties of antagonist ligands for CRFR1 may lead to the development of such ligands for CRFR2. METHODS: In our current study, we focused on two residues in transmembrane domains (TMD) 3 (His199) and 5 (Met276) of CRFR1 that have proven to be important for the function of the highly selective small molecule antagonist antalarmin. In order to further prove the importance of these sites, we have mutated the two corresponding amino acids in CRFR2β to those of CRFR1: V215H in TMD 3 and V292M in TMD 5. In addition, we mutated a third amino acid residue, M293I, in order to avoid the positioning of two adjacent methionine amino acids. With this mutant construct, CRE–luciferase and cyclic AMP radioimmunoassay methodologies were used to observe the function of antalarmin on CRFR1, the mutant and wild type CRFR2β. The accumulation of cAMP was measured intracellularly following stimulation by the CRF receptor peptide agonists sauvagine, isolated from frog, and urocortin 1, isolated from rat. RESULTS: For the initial CRE–luciferase functional assay, we used the CRF receptor agonist sauvagine on our mutant CRFR2β to indirectly measure the accumulation of intracellular cAMP through the enzyme luciferase. In the presence or absence of the antagonist antalarmin, there were no significant changes on the function of the mutant CRFR2β. On the other hand, when directly measuring the accumulation of intracellular cAMP via radioimmunoassay, antalarmin successfully showed a functional inhibitory effect on the mutant CRFR2β receptor. As expected, Ucn1 stimulation of CRFR1 in the presence of antalarmin indicated a decrease in the EC50 for the peptide agonist, and thus an inhibitory effect by antalarmin. Compared to CRFR1, we observed a similar effect for Ucn1 stimulation of the mutant CRFR2β receptor in the presence of antalarmin. While the presence or absence of antalarmin did not have a significant inhibitory effect on the wild type CRFR2β, it can be concluded that the mutant CRFR2β receptor possessed similar properties to the CRFR1 receptor with respect to antalarmin antagonist activity. CONCLUSION: In our study, we were able to further support the importance of the two amino acid residues in TMD 3 and 5 of CRFR1 for the function of small molecule antagonists. In addition, we were able to show that antalarmin, a small molecule antagonist known to be highly selective for CRFR1, can have a functional inhibitory effect on the mutant CRFR2β. The progressive study of these discrete differences between the two CRF receptor subtypes may enable the discovery of novel selective non–peptide CRFR2β receptor antagonists.

Molecular biology

CRFR1

Antalarmin

Corticotropin releasing factor

CRFR2β

Small molecule antagonist

Waterborne Fluoxetine Exposure Disrupts Metabolism in Carassius auratus

Brooke Elizabeth, Cameron

January 2015

Fluoxetine, a selective serotonin re-uptake inhibitor (SSRI) and the active ingredient in Prozac®, is found in the environment and disrupts feeding and metabolism in exposed fish. The objective of this research was to investigate the mechanisms involved in the feeding and metabolism disruption in the model goldfish (Carassius auratus). Two short-term waterborne fluoxetine exposures (7- and 14-days) were performed using two environmentally relevant doses of fluoxetine (0.5 and 1 μg/L) and metabolic effects at the level of the brain, liver, serum and bile in goldfish were investigated. Abundances of mRNA transcripts coding for six feeding neuropeptides were examined to determine which may be involved in the initial neural changes associated with decreased appetite in goldfish. The 7-day fluoxetine exposure at 1 μg/L caused corticotropin-releasing factor (CRF) mRNA levels to increase by 2-fold in female hypothalamus and telencephalon, indicating that CRF may be one of the first of the feeding neuropeptides to be altered. Six hepatic miRNAs were also evaluated in the goldfish liver that were previously associated with fluoxetine exposure in zebrafish (Danio rerio). Following the 7-day exposure at 1 μg/L, miR-22b, miR-140, miR-210, miR-301a and miR-457b levels increased in the female goldfish liver by 4-6 fold. The 14-day fluoxetine exposure at 1 μg/L caused 2-fold increases in miR-210, miR-301a, miR-457b and let-7d in male goldfish liver. These miRNAs were associated with the down-regulation of anabolic metabolic pathways in zebrafish, indicating a conservation of miRNA and fluoxetine effect between fish species. Serum and bile metabolite profiles of fluoxetine exposed goldfish were evaluated using ultra performance liquid chromatography coupled to quadrupole time of flight mass spectrometry. Following the 14-day exposure at 1 μg/L, the bile metabolite profiles of male goldfish were significantly different from controls as detected by cluster analysis and fluoxetine was tentatively identified in the serum. No other discriminant metabolites were identified as of yet. The data presented suggest that fluoxetine causes metabolic disruption in goldfish at multiple organ levels. Because of the widespread detection of fluoxetine and other emerging SSRIs in the aquatic environment, future research is required to firmly establish this pharmaceutical class as a metabolic and endocrine disrupting chemical.

Endocrine disrupting chemicals

Pharmaceuticals

microRNA

Metabolomics

Corticotropin releasing factor

Serotonin

Selective serotonin reuptake inhibitors

Fluoxetine

Goldfish

Psychoneuroimmunology in terms of the two main stress axes: Sickness behaviour as trigger for development of mental disorders

Viljoen, Margaretha

27 September 2005

Please read the abstract in the section 00front of this document / Thesis (DPhil (Psychiatry))--University of Pretoria, 2003. / Psychiatry / unrestricted

Mind and body

Stress psychology

Mental illness

Psychoneuroimmunology

Corticotropin releasing hormone

UCTD

Expression and Function of Corticotropin-releasing Hormone in Anthropoid Primate Placenta

Dunn-Fletcher, Caitlin E.

January 2018

No description available.

Developmental Biology

pregnancy

placenta

corticotropin-releasing hormone

endogenous retrovirus

long terminal repeat

Dissecting anxiety in the vervet monkey : a search for association between polymorphisms in the corticotropin releasing hormone (CRH) and neuropeptide Y (NPY) genes and anxious behavior

Elbejjani, Martine

January 2007

No description available.

Anxiety Disorders -- physiopathology.

Anxiety Disorders -- genetics.

Neuropeptide Y -- genetics.

The Effects Of Adolescent Binge Drinking On Corticotropin-Releasing Factor Cells In The Amygdala And Social Predictors Of Alcohol Intake In Male And Female Rats

Karanikas, Chrisanthi

01 January 2012

Alcohol is one of the most common drugs of choice among adolescents. Normally, the method of consumption is drinking large quantities of alcohol in short periods of time, otherwise known as “binge drinking.” Corticotropin releasing factor (CRF) stress peptide producing cells in central nucleus of the amygdala (CeA) has been implicated in behavioral responses to stress and addiction. The goals of this thesis were to determine the effects of voluntary binge drinking in adolescence and vapor-induced alcohol dependence in adulthood on CRF cells in the CeA. These studies were done using an operant model of voluntary binge drinking in rodents in which adolescent animals are allowed to orally self-administer sweetened alcohol intermittently (or sweetened water for controls) during early adolescence. The current findings demonstrate that binge drinking during adolescence decreases the number of CRF-ir cells in the CeA. This decrease in cell number is long-term, lasting well into adulthood and dependence does not exacerbate this effect. A second goal was to determine whether certain behaviors could be used as a predictive measure for adolescent binge drinking. The current findings indicated that frequency of self-grooming, can be used as a predictive measure for adolescent binge drinking. Specifically, increased frequency of self-grooming predicts lower alcohol self administration during adolescence.

Alcohol

Adolescence

Corticotropin-Releasing Factor

Anxiety

Stress

Addiction

Behavior and Behavior Mechanisms

Biological Psychology

Mental Disorders

Modulation of the human hair follicle pigmentary unit by corticotrophin-releasing hormone and urocortin peptides

Kauser, Sobia, Slominski, A.T., Wei, E.T., Tobin, Desmond J.

January 2006

No / Human skin is a local source of corticotropin-releasing hormone (CRH) and expresses CRH and CRH receptors (CRH-R) at mRNA and protein levels. Epidermal melanocytes respond to CRH by induction of cAMP with up-regulation of pro-opiomelanocortin gene expression and subsequent production of adrenocorticotropin hormone. However, the role of CRH/CRH-R in melanocyte biology is complicated by the significant heterogeneity of cutaneous melanocyte subpopulations, from continuously active and UV-responsive melanocytes in epidermis to UV nonresponsive, hair growth cycle-coupled melanogenesis in hair follicles. In the present study we report that normal human scalp hair follicle melanocytes express CRH at the mRNA level. Furthermore, CRH, urocortin and CRH-R 1 and 2 were differentially expressed in follicular melanocytes, fibroblasts, and keratinocytes depending on anatomic location and differentiation status in situ and in vitro. Stimulation of follicular melanocytes with CRH and CRH peptides, modified for selectivity for CRH-R1 and/or CRH-R2, variably induced cell melanogenesis, dendricity, and proliferation. CRH-peptides also stimulated the expression and activity of Tyrosinase, and expression of Tyrosinase-related protein-1 and-2. However, a modified urocortin peptide highly selective for CRH-R2 down-regulated melanocyte differentiation phenotype. This study indicates that CRH peptides can differentially influence hair follicle melanocyte behavior not only via CRH-R1 signaling but also by complex cross-talk between CRH-R1 and CRH-R2.¿Kauser, S., Slominski, A., Wei, E. T., Tobin, D. J. Modulation of the human hair follicle pigmentary unit by corticotropin-releasing hormone and urocortin peptides.

Hair follicle melanocytes

Melanogenesis

Corticotropin-releasing hormone

CRH receptors

Hair growth

Dépendance aux drogues opiacées : focus sur le système corticotropin-releasing factor / Opiate dependence : focus on the corticotropin-releasing factor system

Rouibi, Khalil Adnane

21 December 2011

La prise illicite de drogues opiacées est un problème majeur de santé publique dans le monde. L’apparition du syndrome de sevrage aux opiacés (SAO) suite à l’arrêt de prise d’opiacés est considérée comme élément clef dans la vulnérabilité associée à la rechute de prise d’opiacés. En effet le syndrome de SAO est caractérisé par des altérations comportementales et neurobiologiques en réponse au stress qui sont déterminantes dans le phénomène de dépendance aux opiacés. Le système corticotropin-releasing factor (CRF) est un coordinateur central des circuits de réponse au stress par l’intermédiaire de ses deux récepteurs le: CRF1 et CRF2. L’objectif de cette thèse est de déterminer le rôle du récepteur CRF2 dans l’apparition des états affectifs négatifs et des désordres motivationnels impliqués dans la rechute de la consommation de drogues opioïdes lors du SAO.Nous avons démontré par une série d’expériences conduite chez des souris invalidées au récepteur CRF2 (CRF2-/-), que la délétion génétique du récepteur CRF2-/- éliminait les états dysphoriques ainsi que les altérations moléculaires induites par le SAO sans détériorer les réponses neuroendocriniennes qui sont primordiales lors des adaptations aux stress associées au sevrage. De surcroît, nous avons trouvé que les souris CRF2-/- entrainées dans une procédure de tâche opérante dirigée vers l’obtention d’une nourriture palatable, montraient une diminution des troubles motivationnels induits par le SAO. Plusieurs rapports montrent que chez l’Homme, les évènements stressants apparaissant lors d’une période de sevrage provoquent une rechute de la consommation d’alcool ou de drogues. Nous avons développé un modèle murin qui montrait un rétablissement de recherche de nourriture palatable suite à une procédure de stress appliquée pendant une période de SAO. Par ailleurs, nous avons observé un dimorphisme sexuel du rôle du récepteur CRF2 dans le rétablissement de recherche de nourriture palatable, suite au stress, longtemps après un SAO.Les résultats de ce travail de thèse nous permettent de mettre en avant le récepteur CRF2 comme possible cible thérapeutique dans le traitement de la dépendance aux opiacés. / Opiate illicit use represents one of the most severe sanitary problems throughout the world. Among humans, the emergence of the opiate withdrawal (OW) syndrome after cessation of opiate intake is considered as one of the key motivational elements that lead to the vulnerability to opiates relapse. Therefore, the OW is characterized by a various alterations of the behavioral and neurobiological homeostasis responses to stress which are determinants in opiate dependence. The Corticotropin-releasing factor (CRF) system is the major coordinator of stress-responsive circuitry. Through its two receptors CRF1 and CRF2, the CRF system has recently emerged as major contributor in the development of components of the OW syndrome. The aim of this thesis is to determine the role of CRF2 receptor in the negative affective states and motivational disorders implicated in opiate relapse during OW.Behavioral and biological experiments were conducted in CRF2 receptor-deficient mice (CRF2-/-). We reported that genetic deletion of the CRF2 receptor eliminates dysphoria and molecular alterations elicited by OW without impairing brain, neuroendocrine and autonomic stress-coping responses to withdrawal. Using behavioral approaches of operant responding to highly palatable food (HPF) we found that CRF2-/- reduces motivational disorders induced by intermittent morphine injections and withdrawal. Finally, we described a mouse model of stress-induced food reinstatement seeking behavior during prolonged OW. Furthermore, we reported a gender dimorphism in the role of the CRF2 receptor in the stress-induced reinstatement of HPF seeking behavior long-lasing after opiate treatment.These findings underscore the importance of CRF2 receptor as possible effective treatment of the critical problem of opiate dependence.

Dépendance aux opiacés

Corticotropin releasing factor system

Voie du recepteur CRF2

Sevrage

Affect négatif

Anhédonie

Motivation

Rechute

Stress

Souris

Opiate dependence

Corticotropin releasing factor system

CRF2 receptor pathway

Withdrawal

Negative affect

Anhedonia

Motivation

Relapse

Stress

Mice

La délétion génétique du récepteur corticotropin-releasing factor de type 2 réduit les déficits mnésiques et sociaux induits par la cocaïne / Corticotropin-releasing factor 2 receptor-deficiency reduces memory and social deficits induced by cocaine

Morisot, Nadège

16 December 2013

Les travaux de cette thèse visent à étudier le role du système corticotropin-releasing factor (CRF) dans les dysfonctions cognitives, les altérations du comportement social et la vulnérabilité au stress associées à l’addiction aux drogues. Les effets de la délétion génétique du récepteur CRF1 ou CRF2 sont examinés dans les tests de reconnaissance d’objet et de préférence sociale après une exposition chronique et pendant le sevrage à la cocaine. Le rôle du récepteur CRF2 dans la vulnérabilité au stress qui pourrait précipiter l’apparition de déficits cognitifs et sociaux pendant le sevrage prolongé à la cocaine est également étudié. / Stimulant-related disorders are characterized by emotional-like, cognitive and social dysfunction that may contribute to the maintenance of the disease. In addition, stimulant use and withdrawal may alter brain stress systems. The corticotropin-releasing factor (CRF) system is a major stress coordinator hypothesized to contribute to substance-related disorders. CRF signalling is mediated by two receptor types, named CRF1 and CRF2. The specific role of each of the CRF receptors in negative affective-like, cognitive and social dysfunction associated with stimulant administration and withdrawal remains largely unknown. The present study demonstrates that the CRF1 receptor-deficiency increases the anxiety-like behaviour induced by intermittent administration of escalating doses of cocaine (5-20 mg/kg, i.p.), as assessed by the elevated plus maze. In addition, the same cocaine regimen induces novel object recognition (NOR) and sociability deficits, which are unaffected by CRF2 receptor-deficiency. However, CRF2 receptor-deficiency effectively shortens the duration of the NOR and sociability deficit induced by cocaine withdrawal. Furthermore, following the apparent recovery of NOR and sociability performances during relative long-term (42 days) cocaine withdrawal, CRF2 receptor-deficiency eliminates the stress-induced re-emergence of NOR and sociability deficit. Stressed cocaine-withdrawn mice show a genotype-independent higher c-fos mRNA expression in the perirhinal cortex, a brain region mediating NOR performance, than stressed drug-naïve mice. However, neither genotype nor drug withdrawal affects the expression of tyrosine hydroxylase in the ventral tegmentale area and the locus coeruleus, CRF in the amygdala and the paraventricular nucleus of the hypothalamus and dynorphin in the nucleus accumbens shell. The latter results suggest that stress vulnerability during long-term cocaine withdrawal is not due to alterations in stress-coping mechanisms. The present study provides initial evidence of a critical role for the CRF system in cognitive and sociability deficits and vulnerability induced by stimulant administration and withdrawal, suggesting new therapeutic strategies for substance-related disorders.

Récepteurs CRF1

Récepteurs CRF2

Cocaïne

Mémoire

Emotion

Sociabilité

Vulnérabilité

Stress

Génétique délétion

Souris

CRF1 receptors

CRF2 receptor

Cocaine

Memory

Emotion

Sociability

Vulnerability

Stress

Genetic deletion

Mouse

Mice

Personality and the HPA-axis in Association with Postpartum Depression

Iliadis, Stavros I

January 2016

Postpartum depression is a psychiatric disorder affecting a substantial proportion of newly delivered women, and remains a significant cause of childbirth-related morbidity. The aim of the present thesis was to examine psychological, endocrine and genetic aspects of postpartum depression in a large, population-based sample of women in Uppsala, Sweden. All included studies were undertaken as parts of the BASIC-project, a longitudinal study on psychological wellbeing during pregnancy and the postpartum period. Study participants were screened for depressive symptoms in pregnancy week 17 and 32 as well as at six weeks and six months postpartum, mainly by use of the Swedish version of the Edinburgh Postnatal Depression Scale (EPDS). Furthermore, personality was assessed with the Swedish universities Scale of Personality (SSP) in pregnancy week 32. Evening cortisol levels in saliva were measured in pregnancy week 36 and at six weeks postpartum. Blood samples were obtained to measure corticotropin-releasing hormone levels (CRH) and to perform genetic analyses. The results of this thesis demonstrate that neuroticism is a strong and independent predictive factor of depressive symptoms at six weeks and six months postpartum, and has a significant mediatory role in the association between a single nucleotide polymorphism in the hydroxysteroid (11-beta) dehydrogenase 1 gene (HSD11B1) and postpartum depression. Furthermore, women with postpartum depressive symptoms present with a dysregulated hypothalamic-pituitary-adrenal axis activity in terms of elevated cortisol levels postpartum, as well as elevated CRH levels in mid-gestation. In conclusion, this thesis develops current knowledge on several attributes of postpartum depression. Further studies are required to replicate and expand on these results, which would further contribute to early identification of women at risk of postpartum depression and adoption of proper interventions that may moderate the short- and long-term consequences of the disorder.

Corticotropin-releasing hormone

cortisol

HPA-axis

HSD11B1

hydroxysteroid (11-beta) dehydrogenase 1

neuroticism

peripartum depression

personality

postpartum depression

rs12565406

stress