Your search keyword '"Jörgen A. Engel"' showing total 235 results

1. Correction: The Ghrelin Signalling System Is Involved in the Consumption of Sweets.

Author

Sara Landgren, Jeffrey A. Simms, Dag S. Thelle, Elisabeth Strandhagen, Selena E. Bartlett, Jörgen A. Engel, and Elisabet Jerlhag

Subjects

Medicine, Science

Published

2014

2. Ghrelin activates the mesolimbic dopamine system via nitric oxide associated mechanisms in the ventral tegmental area

Author

Jörgen A. Engel, Erik Pålsson, Daniel Vallöf, and Elisabet Jerlhag

Subjects

Cancer Research, Physiology, Clinical Biochemistry, Biochemistry

Abstract

Besides enhanced feeding, the orexigenic peptide ghrelin activates the mesolimbic dopamine system to cause reward as measured by locomotor stimulation, dopamine release in nucleus accumbens shell (NAcS), and conditioned place preference. Although the ventral tegmental area (VTA) appears to be a central brain region for this ghrelin-reward, the underlying mechanisms within this area are unknown. The findings that the gaseous neurotransmitter nitric oxide (NO) modulate the ghrelin enhanced feeding, led us to hypothesize that ghrelin increases NO levels in the VTA, and thereby stimulates reward-related behaviors. We initially demonstrated that inhibition of NO synthesis blocked the ghrelin-induced activation of the mesolimbic dopamine system. We then established that antagonism of downstream signaling of NO in the VTA, namely sGC, prevents the ability of ghrelin to stimulate the mesolimbic dopamine system. The association of ghrelin to NO was further strengthened by in vivo electrochemical recordings showing that ghrelin enhances the NO release in the VTA. Besides a GABA

Published

2022

3. Ghrelin activates the mesolimbic dopamine system via nitric oxide dependent mechanisms in the ventral tegmental area

Author

Jörgen A Engel, Erik Pålsson, Daniel Vallöf, and Elisabet Jerlhag

Abstract

Besides enhanced feeding, the orexigenic peptide ghrelin activates the mesolimbic dopamine system to cause reward as measured by locomotor stimulation, dopamine release in nucleus accumbens shell (NAcS), and conditioned place preference. Although the ventral tegmental area (VTA) appears to be a central brain region for this ghrelin-reward, the underlying mechanisms within this area are unknown. The findings that the gaseous neurotransmitter nitric oxide (NO) modulate the ghrelin enhanced feeding, led us to hypothesize that ghrelin increases NO levels in the VTA, and thereby stimulates reward-related behaviors. We initially demonstrated that inhibition of NO synthesis the ghrelin-induced activation of the mesolimbic dopamine system We then established that antagonism of downstream signaling of NO in the VTA, namely cGMP, prevents the ability of ghrelin to stimulate the mesolimbic dopamine system. The association of ghrelin to NO was further strengthened by in vivo electrophysiological recordings showing that ghrelin enhances the NO release in the VTA. Besides a GABAB -receptor agonist, known to reduce NO and cGMP, blocks the stimulatory properties of ghrelin. The present series of experiment reveal that ablated NO signaling, through reduced production of NO and/or cGMP, prevents the ability of ghrelin to induced reward-related behaviors.

Published

2022

4. The Anorexigenic Peptide Neuromedin U (NMU) Attenuates Amphetamine-Induced Locomotor Stimulation, Accumbal Dopamine Release and Expression of Conditioned Place Preference in Mice.

Author

Daniel Vallöf, Jesper Vestlund, Jörgen A Engel, and Elisabet Jerlhag

Subjects

Medicine, Science

Abstract

Amphetamine dependence, besides its substantial economical consequence, is a serious cause of mortality and morbidity. By investigations of the neurochemical correlates through which addictive drugs, such as amphetamine, activate the mesoaccumbal dopamine system unique targets for treatment of drug addiction can be identified. This reward link consists of a dopamine projection from the ventral tegmental area to the nucleus accumbens (NAc) suggesting that these brain areas are important for reward. The physiological function of gut-brain peptides has expanded beyond food intake modulation and involves regulation of drug reinforcement. A novel candidate for reward regulation is the anorexigenic peptide neuromedin U (NMU). We therefore investigated the effects of intracerebroventricular (icv) administration of NMU on amphetamine's well-documented effects on the mesoaccumbal dopamine system, i.e. locomotor stimulation and accumbal dopamine release in mice. In addition, the effect of accumbal NMU administration on locomotor activity was examined. The effect of NMU, icv or intra-NAc, on the expression of conditioned place preference (CPP) was elucidated. Firstly, we showed that icv administration of NMU attenuate the amphetamine-induced locomotor stimulation, accumbal dopamine release and expression of CPP in mice. Secondly, we found that a lower dose of NMU (icv) reduce the amphetamine-induced locomotor stimulation in mice. Thirdly, we demonstrated that NMU administration into the NAc block the ability of amphetamine to cause a locomotor stimulation in mice. However, accumbal NMU administration did not attenuate the amphetamine-induced expression of CPP in mice. Our novel data suggest that central NMU signalling is involved in development of amphetamine dependence.

Published

2016

5. The glucagon-like peptide 1 analogue Exendin-4 attenuates the nicotine-induced locomotor stimulation, accumbal dopamine release, conditioned place preference as well as the expression of locomotor sensitization in mice.

Author

Emil Egecioglu, Jörgen A Engel, and Elisabet Jerlhag

Subjects

Medicine, Science

Abstract

The gastrointestinal peptide glucagon-like peptide 1 (GLP-1) is known to regulate consummatory behavior and is released in response to nutrient ingestion. Analogues of this peptide recently emerged as novel pharmacotherapies for treatment of type II diabetes since they reduce gastric emptying, glucagon secretion as well as enhance glucose-dependent insulin secretion. The findings that GLP-1 targets reward related areas including mesolimbic dopamine areas indicate that the physiological role of GLP-1 extends beyond food intake and glucose homeostasis control to include reward regulation. The present series of experiments was therefore designed to investigate the effects of the GLP-1 receptor agonist, Exendin-4 (Ex4), on established nicotine-induced effects on the mesolimbic dopamine system in mice. Specifically, we show that treatment with Ex4, at a dose with no effect per se, attenuate nicotine-induced locomotor stimulation, accumbal dopamine release as well as the expression of conditioned place preference in mice. In accordance, Ex4 also blocks nicotine-induced expression of locomotor sensitization in mice. Given that development of nicotine addiction largely depends on the effects of nicotine on the mesolimbic dopamine system these findings indicate that the GLP-1 receptor may be a potential target for the development of novel treatment strategies for nicotine cessations in humans.

Published

2013

6. Concomitant release of ventral tegmental acetylcholine and accumbal dopamine by ghrelin in rats.

Author

Elisabet Jerlhag, Anna Carin Janson, Susanna Waters, and Jörgen A Engel

Subjects

Medicine, Science

Abstract

Ghrelin, an orexigenic peptide, regulates energy balance specifically via hypothalamic circuits. Growing evidence suggest that ghrelin increases the incentive value of motivated behaviours via activation of the cholinergic-dopaminergic reward link. It encompasses the cholinergic afferent projection from the laterodorsal tegmental area (LDTg) to the dopaminergic cells of the ventral tegmental area (VTA) and the mesolimbic dopamine system projecting from the VTA to nucleus accumbens (N.Acc.). Ghrelin receptors (GHS-R1A) are expressed in these reward nodes and ghrelin administration into the LDTg increases accumbal dopamine, an effect involving nicotinic acetylcholine receptors in the VTA. The present series of experiments were undertaken directly to test this hypothesis. Here we show that ghrelin, administered peripherally or locally into the LDTg concomitantly increases ventral tegmental acetylcholine as well as accumbal dopamine release. A GHS-R1A antagonist blocks this synchronous neurotransmitter release induced by peripheral ghrelin. In addition, local perfusion of the unselective nicotinic antagonist mecamylamine into the VTA blocks the ability of ghrelin (administered into the LDTg) to increase N.Acc.-dopamine, but not VTA-acetylcholine. Collectively our data indicate that ghrelin activates the LDTg causing a release of acetylcholine in the VTA, which in turn activates local nicotinic acetylcholine receptors causing a release of accumbal dopamine. Given that a dysfunction in the cholinergic-dopaminergic reward system is involved in addictive behaviours, including compulsive overeating and alcohol use disorder, and that hyperghrelinemia is associated with such addictive behaviours, ghrelin-responsive circuits may serve as a novel pharmacological target for treatment of alcohol use disorder as well as binge eating.

Published

2012

7. The ghrelin signalling system is involved in the consumption of sweets.

Author

Sara Landgren, Jeffrey A Simms, Dag S Thelle, Elisabeth Strandhagen, Selena E Bartlett, Jörgen A Engel, and Elisabet Jerlhag

Subjects

Medicine, Science

Abstract

The gastric-derived orexigenic peptide ghrelin affects brain circuits involved in energy balance as well as in reward. Indeed, ghrelin activates an important reward circuit involved in natural- as well as drug-induced reward, the cholinergic-dopaminergic reward link. It has been hypothesized that there is a common reward mechanism for alcohol and sweet substances in both animals and humans. Alcohol dependent individuals have higher craving for sweets than do healthy controls and the hedonic response to sweet taste may, at least in part, depend on genetic factors. Rat selectively bred for high sucrose intake have higher alcohol consumption than non-sucrose preferring rats and vice versa. In the present study a group of alcohol-consuming individuals selected from a population cohort was investigated for genetic variants of the ghrelin signalling system in relation to both their alcohol and sucrose consumption. Moreover, the effects of GHS-R1A antagonism on voluntary sucrose-intake and operant self-administration, as well as saccharin intake were investigated in preclinical studies using rodents. The effects of peripheral grelin administration on sucrose intake were also examined. Here we found associations with the ghrelin gene haplotypes and increased sucrose consumption, and a trend for the same association was seen in the high alcohol consumers. The preclinical data show that a GHS-R1A antagonist reduces the intake and self-administration of sucrose in rats as well as saccharin intake in mice. Further, ghrelin increases the intake of sucrose in rats. Collectively, our data provide a clear indication that the GHS-R1A antagonists reduces and ghrelin increases the intake of rewarding substances and hence, the central ghrelin signalling system provides a novel target for the development of drug strategies to treat addictive behaviours.

Published

2011

8. PO1-6LIMBIC NEUROADAPTATIONS MAY CONTRIBUTE TO ENHANCED SKILLED REACH PERFORMANCE FOLLOWING REPEATED GHRELIN ADMINISTRATION

Author

Louise Adermark, Elisabet Jerlhag, F Bergquist, V Licheri, D Eckernäs, Jörgen A. Engel, and J Vestlund

Subjects

medicine.medical_specialty, Endocrinology, business.industry, Internal medicine, medicine, Ghrelin, General Medicine, business, Administration (government)

Published

2017

9. S11-2AMYLINERGIC RECEPTOR ACTIVATION ATTENUATES ALCOHOL-MEDIATED BEHAVIOURS IN RODENTS

Author

Elisabet Jerlhag, Daniel Vallöf, Lydia Kalafateli, and Jörgen A. Engel

Subjects

chemistry.chemical_compound, chemistry, Alcohol, General Medicine, Pharmacology, Receptor activation

Published

2017

10. A ghrelin receptor (GHS-R1A) antagonist attenuates the rewarding properties of morphine and increases opioid peptide levels in reward areas in mice

Author

Jörgen A. Engel, Elisabet Jerlhag, and Ingrid Nylander

Subjects

Male, medicine.medical_specialty, Microdialysis, Dopamine, Glycine, Clinical Neurology, Addiction, Dynorphin, Motor Activity, Pharmacology, Dynorphins, Mice, Opiate, Reward, Internal medicine, medicine, Animals, Pharmacology (medical), Endorphins, Receptors, Ghrelin, Dependence, Opioid peptide, Biological Psychiatry, Morphine, digestive, oral, and skin physiology, Antagonist, Brain, Extracellular Fluid, Triazoles, Ghrelin, Analgesics, Opioid, Psychiatry and Mental health, Endocrinology, Opioid Peptides, Neurology, Conditioning, Operant, Brain stimulation reward, Neurology (clinical), Psychology, hormones, hormone substitutes, and hormone antagonists, Hormone, medicine.drug

Abstract

Gut-brain hormones such as ghrelin have recently been suggested to have a role in reward regulation. Ghrelin was traditionally known to regulate food intake and body weight homoeostasis. In addition, recent work has pin-pointed that this peptide has a novel role in drug-induced reward, including morphine-induced increase in the extracellular levels of accumbal dopamine in rats. Herein the effect of the ghrelin receptor (GHS-R1A) antagonist, JMV2959, on morphine-induced activation of the mesolimbic dopamine system was investigated in mice. In addition, the effects of JMV2959 administration on opioid peptide levels in reward related areas were investigated. In the present series of experiment we showed that peripheral JMV2959 administration, at a dose with no effect per se, attenuates the ability of morphine to cause locomotor stimulation, increase the extracellular levels of accumbal dopamine and to condition a place preference in mice. JMV2959 administration significantly increased tissue levels of Met-enkephalin-Arg6Phe7 in the ventral tegmental area, dynorphin B in hippocampus and Leu-enkephalin-Arg6 in striatum. We therefore hypothesise that JMV2959 prevents morphine-induced reward via stimulation of delta receptor active peptides in striatum and ventral tegmental areas. In addition, hippocampal peptides that activate kappa receptor may be involved in JMV2959׳s ability to regulate memory formation of reward. Given that development of drug addiction depends, at least in part, of the effects of addictive drugs on the mesolimbic dopamine system the present data suggest that GHS-R1A antagonists deserve to be elucidated as novel treatment strategies of opioid addiction.

Published

2015

11. Role of Appetite-Regulating Peptides in the Pathophysiology of Addiction: Implications for Pharmacotherapy

Author

Elisabet Jerlhag and Jörgen A. Engel

Subjects

medicine.medical_specialty, Substance-Related Disorders, media_common.quotation_subject, Clinical Neurology, Appetite, Leading Article, Reward system, Reward, Intestinal mucosa, Glucagon-Like Peptide 1, Orexigenic, Internal medicine, medicine, Animals, Humans, Glucose homeostasis, Pharmacology (medical), Amphetamine, media_common, Addiction, digestive, oral, and skin physiology, Brain, Ghrelin, Behavior, Addictive, Psychiatry and Mental health, Endocrinology, Neurology (clinical), Psychology, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Food intake and appetite are regulated by various circulating hormones including ghrelin and glucagon-like-peptide 1 (GLP-1). Ghrelin, mainly released from the stomach, increases food intake, induces appetite, enhances adiposity as well as releases growth hormone. Hypothalamic “ghrelin receptors” (GHS-R1A) have a critical role in food intake regulation, but GHS-R1A are also expressed in reward related areas. GLP-1 is produced in the intestinal mucosa as well as in the hindbrain in response to nutrient ingestion. This gut-brain hormone reduces food intake as well as regulates glucose homeostasis, foremost via GLP-1 receptors in hypothalamus and brain stem. However, GLP-1 receptors are expressed in areas intimately associated with reward regulation. Given that regulation of food and drug intake share common neurobiological substrates, the possibility that ghrelin and GLP-1 play an important role in reward regulation should be considered. Indeed, this leading article describes that the orexigenic peptide ghrelin activates the cholinergic–dopaminergic reward link, an important part of the reward systems in the brain associated with reinforcement and thereby increases the incentive salience for motivated behaviors via this system. We also review the role of ghrelin signaling for reward induced by alcohol and addictive drugs from a preclinical, clinical and human genetic perspective. In addition, the recent findings showing that GLP-1 controls reward induced by alcohol, amphetamine, cocaine and nicotine in rodents are overviewed herein. Finally, the role of several other appetite regulatory hormones for reward and addiction is briefly discussed. Collectively, these data suggest that ghrelin and GLP-1 receptors may be novel targets for development of pharmacological treatments of alcohol and drug dependence.

Published

2014

12. Peripherally Circulating Ghrelin Does Not Mediate Alcohol‐Induced Reward and Alcohol Intake in Rodents

Author

Axel Vater, Jörgen A. Engel, Lisa Ivanoff, and Elisabet Jerlhag

Subjects

Male, medicine.medical_specialty, Alcohol Drinking, media_common.quotation_subject, Growth hormone secretagogue receptor, Oligonucleotides, Medicine (miscellaneous), Motor Activity, Nucleus accumbens, Toxicology, Mice, Reward, Food Intake, Internal medicine, medicine, Animals, Rats, Wistar, Spiegelmer, media_common, digestive, oral, and skin physiology, Dopaminergic, Alcohol dependence, Appetite, Ghrelin, Rats, Ventral tegmental area, Psychiatry and Mental health, medicine.anatomical_structure, Endocrinology, Original Article, Brain stimulation reward, Alcohol, Psychology, Biomarkers, hormones, hormone substitutes, and hormone antagonists, Neuroscience

Abstract

Development of alcohol dependence, a chronic and relapsing disease, largely depends on the effects of alcohol on the brain reward systems, specifically the cholinergic‐dopaminergic reward link (for review, see Larsson and Engel, 2004; Soderpalm et al., 2009; Volkow and Li, 2004). There is a comorbidity between alcohol dependence and compulsive over eating (for review, see Dickson et al., 2011), indicating that gut‐brain hormones, such as ghrelin, could be common biological mechanisms important for reward induced by food and alcohol. Ghrelin, the endogenous ligand for the growth hormone secretagogue receptor 1A (GHS‐R1A), acts as an important regulator of energy balance (Kojima et al., 1999). Indeed, ghrelin induces adiposity and increases body weight in rats (Tschop et al., 2000). Additionally, central as well as peripheral ghrelin administration increases food intake in rodents, an effect predominantly mediated via hypothalamic GHS‐R1A (Wren et al., 2000, 2001b). Human studies show that ghrelin increases the sensation of hunger and appetite. (Wren et al., 2001a). The plasma levels of ghrelin rise preprandially and fall postprandially in humans as well as in rodents, implying that ghrelin induces meal initiation (for review, see Egecioglu et al., 2011). The findings that GHS‐R1A are expressed in reward nodes associated with the cholinergic dopaminergic reward link including the ventral tegmental area, the nucleus accumbens, and the laterodorsal tegmental area (for review, see Dickson et al., 2011) imply that ghrelin may be involved in reward regulation. Initially, it was shown that ghrelin activates cholinergic‐dopaminergic reward link (Abizaid et al., 2006; Jerlhag et al., 2006a, 2007). This was corroborated by the finding showing that the rewarding properties of alcohol, as measured by locomotor stimulation, accumbal dopamine release, and conditioned place preference are attenuated in mice with suppressed GHS‐R1A and ghrelin signaling (Jerlhag et al., 2009, 2011) and that GHS‐R1A antagonists reduced the intake and the motivation to consume alcohol in rodents (Jerlhag et al., 2009; Kaur and Ryabinin, 2010; Landgren et al., 2012). Supportively, human genetic findings show that a single‐nucleotide polymorphism in the GHS‐R1A gene is associated with high alcohol consumption in humans (Landgren et al., 2008). The findings that this gut‐brain hormone is produced centrally (Cowley et al., 2003; Lu et al., 2002; Mondal et al., 2005) as well as in the gastrointestinal tract (Kojima et al., 1999) raises the need for investigations regarding the importance of central versus peripheral ghrelin for alcohol reward. The present series of experiments was designed to investigate the role of circulating endogenous ghrelin, by using Spiegelmer NOX‐B11‐2, for alcohol‐induced reward, as measured by locomotor stimulation, accumbal dopamine release, and the expression of conditioned place preference in mice, as well as for alcohol intake in rats. NOX‐B11‐2 inhibits ghrelin's activation of GHS‐R1A‐expressing CHO cells by directly binding to the bioactive, acylated form of ghrelin (Shearman et al., 2006). NOX‐B11‐2 is expected to selectively neutralize ghrelin in the periphery since autoradiography studies of related compounds in rats and cynomolgus monkeys have shown that Spiegelmers do not enter the central nervous system. The results of the present experiments may be of clinical interest since prevention of ghrelin's brain access tentatively could be used as novel treatment of alcohol addiction.

Published

2014

13. Local infusion of low, but not high, doses of alcohol into the anterior ventral tegmental area causes release of accumbal dopamine

Author

Elisabet Jerlhag and Jörgen A. Engel

Subjects

Dopaminergic, Mesolimbic dopamine, Alcohol, Alcohol use disorder, Nucleus accumbens, Pharmacology, medicine.disease, Ventral tegmental area, chemistry.chemical_compound, medicine.anatomical_structure, nervous system, chemistry, Dopamine, mental disorders, medicine, High doses, Neuroscience, psychological phenomena and processes, medicine.drug

Abstract

The mesolimbic dopamine system consisting of dopaminergic neurons projecting from the ventral tegmental area (VTA) to the nucleus accumbens (N.Acc.) mediates the reinforcing effects of addictive drugs including alcohol. Given that VTA is a heterogeneous area and that alcohol, in rather low doses, interacts directly with ligand-gated ion channels, we hypothesised that low, rather than high, doses of alcohol into the VTA activate the mesolimbic dopamine system and that alcohol may have different effects in the anterior and posterior parts of the VTA. The present study was undertaken to investigate this hypothesis. The present series of experiment show that infusion of a low dose of alcohol (20 mM) into the anterior, but not posterior, part of the VTA increases accumbal dopamine release in rats. In addition, higher doses of alcohol (100 or 300 mM) into the anterior or posterior part of the VTA do not affect the release of dopamine in the N.Acc., suggesting that low doses of alcohol can activate the mesolimbic dopamine system via mechanisms in the VTA. These data contribute to understanding the neuronal mechanisms underlying the dependence-producing properties of alcohol and could tentatively contribute to that new treatment strategies for alcohol use disorder can be developed.

Published

2014

14. The glucagon-like peptide 1 analogue Exendin-4 attenuates alcohol mediated behaviors in rodents

Author

Emil Egecioglu, Kristin Feltmann, Pia Steensland, Elisabet Jerlhag, Jörgen A. Engel, and Ida Fredriksson

Subjects

Male, medicine.medical_specialty, Dopamine, Endocrinology, Diabetes and Metabolism, Drug-Seeking Behavior, Self Administration, Alcohol, Motor Activity, Nucleus accumbens, Choice Behavior, Nucleus Accumbens, Mice, chemistry.chemical_compound, Endocrinology, Reward, Glucagon-Like Peptide 1, Internal medicine, Conditioning, Psychological, medicine, Animals, Glucose homeostasis, Biological Psychiatry, Dose-Response Relationship, Drug, Ethanol, Venoms, Exendin-4, Endocrine and Autonomic Systems, Liraglutide, Conditioned place preference, Rats, Ventral tegmental area, Psychiatry and Mental health, medicine.anatomical_structure, chemistry, Alcoholism. Alcohol, Conditioning, Operant, Exenatide, Brain stimulation reward, Peptides, Self-administration, Psychology, medicine.drug

Abstract

SummaryDevelopment of alcohol use disorders largely depends on the effects of alcohol on the brain reward systems. Emerging evidence indicate that common mechanisms regulate food and alcohol intake and raise the possibility that endocrine signals from the gut may play an important role for alcohol consumption, alcohol-induced reward and the motivation to consume alcohol. Glucagon-like peptide 1 (GLP-1), a gastrointestinal peptide regulating food intake and glucose homeostasis, has recently been shown to target central brain areas involved in reward and motivation, including the ventral tegmental area and nucleus accumbens. Herein we investigated the effects of the GLP-1 receptor agonist, Exendin-4 (Ex4), on various measures of alcohol-induced reward as well as on alcohol intake and alcohol seeking behavior in rodents. Treatment with Ex4, at a dose with no effect per se, attenuated alcohol-induced locomotor stimulation and accumbal dopamine release in mice. Furthermore, conditioned place preference for alcohol was abolished by both acute and chronic treatment with Ex4 in mice. Finally we found that Ex4 treatment decreased alcohol intake, using the intermittent access 20% alcohol two-bottle-choice model, as well as alcohol seeking behavior, using the progressive ratio test in the operant self-administration model, in rats. These novel findings indicate that GLP-1 signaling attenuates the reinforcing properties of alcohol implying that the physiological role of GLP-1 extends beyond glucose homeostasis and food intake regulation. Collectively these findings implicate that the GLP-1 receptor may be a potential target for the development of novel treatment strategies for alcohol use disorders.

Published

2013

15. The Leu72Met Polymorphism of the Prepro-ghrelin Gene is Associated With Alcohol Consumption and Subjective Responses to Alcohol: Preliminary Findings

Author

Colin A. Hodgkinson, Vijay A. Ramchandani, Bethany L. Stangl, Jörgen A. Engel, Petra Suchankova, Melanie L. Schwandt, Lorenzo Leggio, Jia Yan, and Elisabet Jerlhag

Subjects

Adult, Male, medicine.medical_specialty, Alcohol Drinking, Mutation, Missense, Alcohol abuse, Alcohol, Self Administration, Alcohol use disorder, Article, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, 0302 clinical medicine, Alcohol and health, Internal medicine, medicine, Humans, Genetic Predisposition to Disease, Alcohol tolerance, Ethanol, business.industry, Alcohol dependence, Case-control study, General Medicine, medicine.disease, Ghrelin, 030227 psychiatry, Biotechnology, Alcoholism, Endocrinology, chemistry, Case-Control Studies, Administration, Intravenous, business, 030217 neurology & neurosurgery

Abstract

Aims The orexigenic peptide ghrelin may enhance the incentive value of food-, drug- and alcohol-related rewards. Consistent with preclinical findings, human studies indicate a role of ghrelin in alcohol use disorders (AUD). In the present study an a priori hypothesis-driven analysis was conducted to investigate whether a Leu72Met missense polymorphism (rs696217) in the prepro-ghrelin gene (GHRL), is associated with AUD, alcohol consumption and subjective responses to alcohol. Method Association analysis was performed using the National Institute on Alcohol Abuse and Alcoholism (NIAAA) clinical sample, comprising AUD individuals and controls (N = 1127). Then, a post-hoc analysis using data from a human laboratory study of intravenous alcohol self-administration (IV-ASA, N = 144) was performed to investigate the association of this SNP with subjective responses following a fixed dose of alcohol (priming phase) and alcohol self-administration (ad libitum phase). Results The case-control study revealed a trend association (N = 1127, OR = 0.665, CI = 0.44-1.01, P = 0.056) between AUD diagnosis and Leu72Met. In AUD subjects, the SNP was associated with significantly lower average drinks per day (n = 567, β = -2.49, 95% CI = -4.34 to -0.64, P = 0.008) and significantly fewer heavy drinking days (n = 567, β = -12.00, 95% CI = -19.10 to -4.89, P < 0.001). The IV-ASA study further revealed that 72Met carriers had greater subjective responses to alcohol (P < 0.05) when compared to Leu72Leu both at priming and during ad lib self-administration. Conclusion Although preliminary, these findings suggest that the Leu72Leu genotype may lead to increased risk of AUD possibly via mechanisms involving a lower response to alcohol resulting in excessive alcohol consumption. Further investigations are warranted. Short Summary We investigated whether a Leu72Met missense polymorphism in the prepro-ghrelin gene, is associated with alcohol use disorder, alcohol consumption and subjective responses to alcohol. Although preliminary, results suggest that the Leu72Leu genotype may lead to increased risk of alcohol use disorder possibly via mechanisms involving a lower response to alcohol.

Published

2016

16. The glucagon-like peptide 1 receptor agonist liraglutide attenuates the reinforcing properties of alcohol in rodents

Author

Daniel, Vallöf, Paola, Maccioni, Giancarlo, Colombo, Minja, Mandrapa, Julia Winsa, Jörnulf, Emil, Egecioglu, Jörgen A, Engel, and Elisabet, Jerlhag

Subjects

Preclinical Studies, endocrine system, Ethanol, Dopamine, Microdialysis, digestive, oral, and skin physiology, Substance Abuse, Central Nervous System Depressants, Self Administration, Prostheses and Implants, dependence, Liraglutide, Nucleus Accumbens, Rats, Alcoholism, Disease Models, Animal, Mice, Preclinical Study, Reward, Addictive behaviours, Animals, Conditioning, Operant, Hypoglycemic Agents, Other Basic Medicine, Reinforcement, Psychology

Abstract

The incretin hormone, glucagon‐like peptide 1 (GLP‐1), regulates gastric emptying, glucose‐dependent stimulation of insulin secretion and glucagon release, and GLP‐1 analogs are therefore approved for treatment of type II diabetes. GLP‐1 receptors are expressed in reward‐related areas such as the ventral tegmental area and nucleus accumbens, and GLP‐1 was recently shown to regulate several alcohol‐mediated behaviors as well as amphetamine‐induced, cocaine‐induced and nicotine‐induced reward. The present series of experiments were undertaken to investigate the effect of the GLP‐1 receptor agonist, liraglutide, on several alcohol‐related behaviors in rats that model different aspects of alcohol use disorder in humans. Acute liraglutide treatment suppressed the well‐documented effects of alcohol on the mesolimbic dopamine system, namely alcohol‐induced accumbal dopamine release and conditioned place preference in mice. In addition, acute administration of liraglutide prevented the alcohol deprivation effect and reduced alcohol intake in outbred rats, while repeated treatment of liraglutide decreased alcohol intake in outbred rats as well as reduced operant self‐administration of alcohol in selectively bred Sardinian alcohol‐preferring rats. Collectively, these data suggest that GLP‐1 receptor agonists could be tested for treatment of alcohol dependence in humans.

Published

2016

17. Ghrelin receptor antagonism attenuates nicotine-induced locomotor stimulation, accumbal dopamine release and conditioned place preference in mice

Author

Jörgen A. Engel and Elisabet Jerlhag

Subjects

Male, Nicotine, medicine.medical_specialty, Dopamine, Microdialysis, Growth hormone secretagogue receptor, Glycine, Motor Activity, Toxicology, Nucleus Accumbens, Mice, Internal medicine, Orexigenic, Conditioning, Psychological, Animals, Medicine, Pharmacology (medical), Nicotinic Agonists, Receptors, Ghrelin, Amphetamine, Pharmacology, Dose-Response Relationship, Drug, business.industry, Triazoles, Conditioned place preference, Psychiatry and Mental health, Endocrinology, Incentive salience, Ghrelin, business, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Background The orexigenic peptide ghrelin activates the reward systems, specifically the cholinergic–dopaminergic reward link, suggesting that ghrelin may increase the incentive salience of motivated behaviours such as food seeking. Moreover, central ghrelin signalling, involving the growth hormone secretagogue receptor 1A (GHS-R1A), is required for the rewarding properties, as measured by locomotor stimulation, accumbal dopamine release and conditioned place preference, of alcohol, cocaine as well as amphetamine. As the target circuits for other drugs of abuse, including nicotine, in the brain includes this reward link, we sought to determine whether the central ghrelin signalling system is involved in nicotine's activation of this system. Methods This was investigated by studying the effects of peripheral administration of a GHS-R1A antagonist (JMV2959) on the nicotine-induced locomotor simulation, accumbal dopamine release and conditioned place preference. Results In the present study we found that the ability of nicotine to increase the locomotor activity, accumbal dopamine release and to condition place preference were reduced in mice treated with a GHS-R1A antagonist. Conclusion Thus GHS-R1A appears to be required not only for alcohol, cocaine and amphetamine-induced reward, but also for reward induced by nicotine. Our data suggest that the central ghrelin signalling system may constitute a novel potential target for treatment of drug dependence.

Published

2011

18. FREE ORAL COMMUNICATIONS 4: ALCOHOL DEPENDENCE: TREATMENT APPROACHES * O4.1 * EFFECTIVENESS OF STIMULANT MEDICATION IN FETAL ALCOHOL SPECTRUM DISORDERS

Author

Angela D. Bryan, Renee E. Magnan, Barbara J. Mason, Philippe Allain, Francis Eustache, A. Brock, A. Ulmer, S.W. Feldstein Ewing, C. C. Humber, A. P. Le Berre, Henrik Zetterberg, M. A. Infante, Coralie Lannuzel, François Vabret, P. Lehert, Claudia Fahlke, Kaj Blennow, Jörgen A. Engel, Edward P. Riley, B. Desgranges, Kristina Berglund, Ulf Berggren, Kent E. Hutchison, Sarah N. Mattson, C. Duval, C. Cauvin, A. L. Pitel, Hélène Beaunieux, and Jan Balldin

Subjects

Stimulant, Fetal alcohol, medicine.medical_specialty, business.industry, Anesthesia, medicine.medical_treatment, Alcohol dependence, Medicine, General Medicine, business, Psychiatry

Published

2011

19. Neuroendocrine Assessment of Serotonergic, Dopaminergic, and Noradrenergic Functions in Alcohol-Dependent Individuals

Author

Ulf Berggren, Henrik Zetterberg, Jan Balldin, Claudia Fahlke, Kaj Blennow, Jörgen A. Engel, and Kristina Berglund

Subjects

medicine.medical_specialty, Alcohol dependence, Dopaminergic, Medicine (miscellaneous), Citalopram, Toxicology, Serotonergic, Prolactin, Apomorphine, Psychiatry and Mental health, Endocrinology, Dopamine, Internal medicine, Monoaminergic, medicine, Psychology, medicine.drug

Abstract

BACKGROUND: Alcohol dependence has been associated with reduced function of serotonin, dopamine as well as noradrenaline activities in several neuroendocrine studies. To our knowledge, there is, however, no study investigating all these 3 systems with the use of neuroendocrine methods in one and the same alcohol-dependent individual. METHODS: Alcohol-dependent individuals (n = 42) and controls (n = 28) participated in the neuroendocrine test series. Central serotonergic neurotransmission was assessed by the prolactin (PRL) response to citalopram (CIT). The postsynaptic DRD2 function was measured by the growth hormone (GH) response to apomorphine (APO) and the postsynaptic α2-adrenoceptor function by GH response to clonidine (CLON). RESULTS: In the alcohol-dependent individuals, the PRL concentrations were significantly lower at the time points 240 minutes and 300 minutes after CIT administration and mean delta PRL value was significantly reduced by 45% in comparison with controls. There were no significant differences in APO-GH and CLON-GH concentrations at any time points or in mean delta GH values between the groups. An impaired monoaminergic profile, including all 3 systems, was significantly more frequent in alcohol-dependent individuals than controls (43% vs. 6% respectively). CONCLUSIONS: The monoaminergic dysfunction was restricted to an impairment of the serotonergic system, suggesting that this system is especially vulnerable to long-term and excessive alcohol consumption. Moreover, impaired monoaminergic profiles, including low responses in 2 or 3 systems, were more frequently observed in alcohol-dependent individuals than in controls. Such impaired profiles may be of clinical importance, but further studies are needed.

Published

2011

20. Ghrelin receptor (GHS-R1A) antagonism suppresses both operant alcohol self-administration and high alcohol consumption in rats

Author

Jörgen A. Engel, Jeffrey A. Simms, Selena E. Bartlett, Elisabet Jerlhag, Sara Landgren, and Petri Hyytiä

Subjects

Pharmacology, medicine.medical_specialty, Ethanol, Addiction, media_common.quotation_subject, Alcohol dependence, Antagonist, Medicine (miscellaneous), Alcohol, Psychiatry and Mental health, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, medicine, Ghrelin, Psychology, Self-administration, Receptor, hormones, hormone substitutes, and hormone antagonists, media_common

Abstract

The mechanisms involved in alcohol use disorders are complex. It has been shown that ghrelin is an important signal for the control of body weight homeostasis, preferably by interacting with hypothalamic circuits, as well as for drug reward by activating the mesolimbic dopamine system. The ghrelin receptor (GHS-R1A) has been shown to be required for alcohol-induced reward. Additionally, ghrelin increases and GHR-R1A antagonists reduce moderate alcohol consumption in mice, and a single nucleotide polymorphism in the GHS-R1A gene has been associated with high alcohol consumption in humans. However, the role of central ghrelin signaling in high alcohol consumption is not known. Therefore, the role of GHS-R1A in operant self-administration of alcohol in rats as well as for high alcohol consumption in Long-Evans rats and in alcohol preferring [Alko alcohol (AA)] rats was studied here. In the present study, the GHS-R1A antagonist, JMV2959, was found to reduce the operant self-administration of alcohol in rats and to decrease high alcohol intake in Long-Evans rats as well as in AA rats. These results suggest that the ghrelin receptor signaling system, specifically GHS-R1A, is required for operant self-administration of alcohol and for high alcohol intake in rats. Therefore, the GHS-R1A may be a therapeutic target for treatment of addictive behaviors, such as alcohol dependence.

Published

2011

21. The alcohol-induced locomotor stimulation and accumbal dopamine release is suppressed in ghrelin knockout mice

Author

Sara Landgren, Suzanne L. Dickson, Emil Egecioglu, E. Jerlhag, and Jörgen A. Engel

Subjects

Male, medicine.medical_specialty, Health (social science), media_common.quotation_subject, Dopamine, Growth hormone secretagogue receptor, Stimulation, Nucleus accumbens, Motor Activity, Toxicology, Biochemistry, Nucleus Accumbens, 03 medical and health sciences, Behavioral Neuroscience, Mice, 0302 clinical medicine, Internal medicine, medicine, Animals, Receptors, Ghrelin, 030304 developmental biology, media_common, Mice, Knockout, 0303 health sciences, Ethanol, Chemistry, digestive, oral, and skin physiology, Appetite, General Medicine, Conditioned place preference, Ghrelin, Mice, Inbred C57BL, Endocrinology, Neurology, Knockout mouse, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, medicine.drug

Abstract

Ghrelin, the first endogenous ligand for the type 1A growth hormone secretagogue receptor (GHS-R1A), plays a role in energy balance, feeding behavior, and reward. Previously, we showed that pharmacologic and genetic suppression of the GHS-R1A attenuates the alcohol-induced stimulation, accumbal dopamine release, and conditioned place preference as well as alcohol consumption in mice, implying that the GHS-R1A is required for alcohol reward. The present study further elucidates the role of ghrelin for alcohol-induced dopamine release in nucleus accumbens and locomotor stimulation by means of ghrelin knockout mice. We found that the ability of alcohol to increase accumbal dopamine release in wild-type mice is not observed in ghrelin knockout mice. Furthermore, alcohol induced a locomotor stimulation in the wild-type mice and ghrelin knockout mice; however, the locomotor stimulation in homozygote mice was significantly lower than in the wild-type mice. The present series of experiments suggest that endogenous ghrelin may be required for the ability of alcohol to activate the mesolimbic dopamine system.

Published

2011

22. Hedonic and incentive signals for body weight control

Author

Emil Egecioglu, Karolina P. Skibicka, Suzanne L. Dickson, Mayte Alvarez-Crespo, P. Anders Friberg, E. Jerlhag, Jörgen A. Engel, and Caroline Hansson

Subjects

medicine.medical_specialty, Dopamine, Endocrinology, Diabetes and Metabolism, media_common.quotation_subject, Appetite, Article, Pleasure, Eating, Food Preferences, 03 medical and health sciences, Reward system, 0302 clinical medicine, Endocrinology, Wanting, Reward, Internal medicine, Orexigenic, medicine, Animals, Humans, Obesity, 030304 developmental biology, media_common, 2. Zero hunger, 0303 health sciences, Body Weight, digestive, oral, and skin physiology, Food reward, Brain, Ghrelin, Incentive, Incentive salience, Liking, Psychology, Neuroscience, psychological phenomena and processes, 030217 neurology & neurosurgery, medicine.drug

Abstract

Here we review the emerging neurobiological understanding of the role of the brain's reward system in the regulation of body weight in health and in disease. Common obesity is characterized by the over-consumption of palatable/rewarding foods, reflecting an imbalance in the relative importance of hedonic versus homeostatic signals. The popular 'incentive salience theory' of food reward recognises not only a hedonic/pleasure component ('liking') but also an incentive motivation component ('wanting' or 'reward-seeking'). Central to the neurobiology of the reward mechanism is the mesoaccumbal dopamine system that confers incentive motivation not only for natural rewards such as food but also by artificial rewards (eg. addictive drugs). Indeed, this mesoaccumbal dopamine system receives and integrates information about the incentive (rewarding) value of foods with information about metabolic status. Problematic over-eating likely reflects a changing balance in the control exerted by hypothalamic versus reward circuits and/or it could reflect an allostatic shift in the hedonic set point for food reward. Certainly, for obesity to prevail, metabolic satiety signals such as leptin and insulin fail to regain control of appetitive brain networks, including those involved in food reward. On the other hand, metabolic control could reflect increased signalling by the stomach-derived orexigenic hormone, ghrelin. We have shown that ghrelin activates the mesoaccumbal dopamine system and that central ghrelin signalling is required for reward from both chemical drugs (eg alcohol) and also from palatable food. Future therapies for problematic over-eating and obesity may include drugs that interfere with incentive motivation, such as ghrelin antagonists.

Published

2011

23. Blockade of central nicotine acetylcholine receptor signaling attenuate ghrelin-induced food intake in rodents

Author

Csilla S. Molnár, E. Jerlhag, Mayte Alvarez-Crespo, Caroline Hansson, Suzanne L. Dickson, Jörgen A. Engel, Erik Hrabovszky, Zsolt Liposits, Emil Egecioglu, and Karolina P. Skibicka

Subjects

Male, medicine.medical_specialty, Growth hormone secretagogue receptor, Mice, Transgenic, Nicotinic Antagonists, Mecamylamine, Receptors, Nicotinic, Nucleus accumbens, Hexamethonium, Nucleus Accumbens, Choline O-Acetyltransferase, Rats, Sprague-Dawley, Nicotine, Eating, Food Preferences, Mice, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Animals, Medicine, Drug Interactions, Receptors, Ghrelin, 030304 developmental biology, Neurons, Analysis of Variance, 0303 health sciences, business.industry, Drug Administration Routes, General Neuroscience, Ventral Tegmental Area, digestive, oral, and skin physiology, Fasting, Ghrelin, Rats, Ventral tegmental area, Endocrinology, medicine.anatomical_structure, Nicotinic agonist, nervous system, Conditioning, Operant, Cholinergic, business, 030217 neurology & neurosurgery, Signal Transduction, medicine.drug

Abstract

Here we sought to determine whether ghrelin's central effects on food intake can be interrupted by nicotine acetylcholine receptor (nAChR) blockade. Ghrelin regulates mesolimbic dopamine neurons projecting from the ventral tegmental area (VTA) to the nucleus accumbens, partly via cholinergic VTA afferents originating in the laterodorsal tegmental area (LDTg). Given that these cholinergic projections to the VTA have been implicated in natural as well as drug-induced reinforcement, we sought to investigate the role of cholinergic signaling in ghrelin-induced food intake as well as fasting-induced food intake, for which endogenous ghrelin has been implicated. We found that i.p. treatment with the non-selective centrally active nAChR antagonist, mecamylamine decreased fasting-induced food intake in both mice and rats. Moreover, central administration of mecamylamine decreased fasting-induced food intake in rats. I.c.v. ghrelin-induced food intake was suppressed by mecamylamine i.p. but not by hexamethonium i.p., a peripheral nAChR antagonist. Furthermore, mecamylamine i.p. blocked food intake following ghrelin injection into the VTA. Expression of the ghrelin receptor, the growth hormone secretagogue receptor 1A, was found to co-localize with choline acetyltransferase, a marker of cholinergic neurons, in the LDTg. Finally, mecamylamine treatment i.p. decreased the ability of palatable food to condition a place preference. These data suggest that ghrelin-induced food intake is partly mediated via nAChRs and that nicotinic blockade decreases the rewarding properties of food.

Published

2010

24. Glutamatergic regulation of ghrelin-induced activation of the mesolimbic dopamine system

Author

Suzanne L. Dickson, Emil Egecioglu, Jörgen A. Engel, and E. Jerlhag

Subjects

medicine.medical_specialty, Medicine (miscellaneous), Nucleus accumbens, 03 medical and health sciences, Orexin-A, 0302 clinical medicine, Dopamine, Internal medicine, mental disorders, medicine, 030304 developmental biology, Pharmacology, 0303 health sciences, Chemistry, digestive, oral, and skin physiology, Dopaminergic, Orexin receptor, 3. Good health, Orexin, Ventral tegmental area, Psychiatry and Mental health, Endocrinology, medicine.anatomical_structure, nervous system, Ghrelin, Neuroscience, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, medicine.drug

Abstract

Recently, we demonstrated that the central ghrelin signalling system, involving the ghrelin receptor (GHS-R1A), is important for alcohol reinforcement. Ghrelin targets a key mesolimbic circuit involved in natural as well as drug-induced reinforcement, that includes a dopamine projection from the ventral tegmental area (VTA) to the nucleus accumbens. The aim of the present study was to determine whether it is possible to suppress ghrelin's effects on this mesolimbic dopaminergic pathway can be suppressed, by interrupting afferent inputs to the VTA dopaminergic cells, as shown previously for cholinergic afferents. Thus, the effects of pharmacological suppression of glutamatergic, orexin A and opioid neurotransmitter systems on ghrelin-induced activation of the mesolimbic dopamine system were investigated. We found in the present study that ghrelin-induced locomotor stimulation was attenuated by VTA administration of the N-methyl-D-aspartic acid receptor antagonist (AP5) but not by VTA administration of an orexin A receptor antagonist (SB334867) or by peripheral administration of an opioid receptor antagonist (naltrexone). Intra-VTA administration of AP5 also suppressed the ghrelin-induced dopamine release in the nucleus accumbens. Finally the effects of peripheral ghrelin on locomotor stimulation and accumbal dopamine release were blocked by intra-VTA administration of a GHS-R1A antagonist (BIM28163), indicating that GHS-R1A signalling within the VTA is required for the ghrelin-induced activation of the mesolimbic dopamine system. Given the clinical knowledge that hyperghrelinemia is associated with addictive behaviours (such as compulsive overeating and alcohol use disorder) our finding highlights a potential therapeutic strategy involving glutamatergic control of ghrelin action at the level of the mesolimbic dopamine system.

Published

2010

25. Genetic Variation of the Ghrelin Signaling System in Females With Severe Alcohol Dependence

Author

Elisabeth Strandhagen, Dag S. Thelle, Lars Oreland, Sara Landgren, Kaj Blennow, Jörgen A. Engel, Lauren Lissner, Henrik Zetterberg, Jarmila Hallman, and Elisabet Jerlhag

Subjects

medicine.medical_specialty, Addiction, media_common.quotation_subject, digestive, oral, and skin physiology, Haplotype, Alcohol dependence, Medicine (miscellaneous), Single-nucleotide polymorphism, Biology, Toxicology, Psychiatry and Mental health, Endocrinology, Polymorphism (computer science), Internal medicine, Genetic variation, medicine, SNP, Ghrelin, media_common

Abstract

Introduction: Central ghrelin signaling is required for the rewarding effects of alcohol in mice. Because ghrelin is implied in other addictive behaviors such as eating disorders and smoking, and because there is co-morbidity between these disorders and alcohol dependence, the ghrelin signaling system could be involved in mediating reward in general. Furthermore, in humans, single nucleotide polymorphisms (SNPs) and haplotypes of the pro-ghrelin gene (GHRL) and the ghrelin receptor gene (GHSR) have previously been associated with increased alcohol consumption and increased body weight. Known gender differences in plasma ghrelin levels prompted us to investigate genetic variation of the ghrelin signaling system in females with severe alcohol dependence (n = 113) and in a selected control sample of female low-consumers of alcohol from a large cohort study in southwest Sweden (n = 212). Methods: Six tag SNPs in the GHRL (rs696217, rs3491141, rs4684677, rs35680, rs42451, and rs26802) and four tag SNPs in the GHSR (rs495225, rs2232165, rs572169, and rs2948694) were genotyped in all individuals. Results: We found that one GHRL haplotype was associated with reports of paternal alcohol dependence as well as with reports of withdrawal symptoms in the female alcohol-dependent group. Associations with 2 GHSR haplotypes and smoking were also shown. One of these haplotypes was also negatively associated with BMI in controls, while another haplotype was associated with having the early-onset, more heredity-driven, type 2 form of alcohol dependence in the patient group. Conclusion: Taken together, the genes encoding the ghrelin signaling system cannot be regarded as major susceptibility genes for female alcohol dependence, but is, however, involved in paternal heritability and may affect other reward- and energy-related factors such as smoking and BMI.

Published

2010

26. Ghrelin increases intake of rewarding food in rodents

Author

Mohammad Bohlooly-Y, Nicolas Salomé, Emil Egecioglu, Elisabet Jerlhag, Jörgen A. Engel, Karolina P. Skibicka, David Haage, Mikael Bjursell, Daniel Andersson, Suzanne L. Dickson, and Daniel Perrissoud

Subjects

medicine.medical_specialty, Taste, Medicine (miscellaneous), Nucleus accumbens, Pharmacology, 03 medical and health sciences, Reward system, 0302 clinical medicine, Limbic system, Dopamine, Internal medicine, medicine, 030304 developmental biology, 0303 health sciences, digestive, oral, and skin physiology, Antagonist, Ventral tegmental area, Psychiatry and Mental health, medicine.anatomical_structure, Endocrinology, Ghrelin, Psychology, hormones, hormone substitutes, and hormone antagonists, psychological phenomena and processes, 030217 neurology & neurosurgery, medicine.drug

Abstract

We investigated whether ghrelin action at the level of the ventral tegmental area (VTA), a key node in the mesolimbic reward system, is important for the rewarding and motivational aspects of the consumption of rewarding/palatable food. Mice with a disrupted gene encoding the ghrelin receptor (GHS-R1A) and rats treated peripherally with a GHS-R1A antagonist both show suppressed intake of rewarding food in a free choice (chow/rewarding food) paradigm. Moreover, accumbal dopamine release induced by rewarding food was absent in GHS-R1A knockout mice. Acute bilateral intra-VTA administration of ghrelin increased 1-hour consumption of rewarding food but not standard chow. In comparison with sham rats, VTA-lesioned rats had normal intracerebroventricular ghrelin-induced chow intake, although both intake of and time spent exploring rewarding food was decreased. Finally, the ability of rewarding food to condition a place preference was suppressed by the GHS-R1A antagonist in rats. Our data support the hypothesis that central ghrelin signaling at the level of the VTA is important for the incentive value of rewarding food.

Published

2010

27. Ghrelin receptor antagonism attenuates cocaine- and amphetamine-induced locomotor stimulation, accumbal dopamine release, and conditioned place preference

Author

Suzanne L. Dickson, Emil Egecioglu, Jörgen A. Engel, and E. Jerlhag

Subjects

Male, Psychostimulant drugs, medicine.medical_specialty, Dopamine, Growth hormone secretagogue receptor, Stimulation, Motor Activity, Pharmacology, Nucleus Accumbens, Mice, 03 medical and health sciences, chemistry.chemical_compound, Drug Delivery Systems, 0302 clinical medicine, Cocaine, Reward, Internal medicine, Conditioning, Psychological, medicine, Animals, Receptors, Ghrelin, Neurotransmitter, Amphetamine, Accumbens, Original Investigation, 030304 developmental biology, 0303 health sciences, Behavior, Animal, digestive, oral, and skin physiology, Ghrelin, Conditioned place preference, Reinforcement, 3. Good health, Behavior, Addictive, Endocrinology, chemistry, Catecholamine, Psychology, VTA, psychological phenomena and processes, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, Signal Transduction, medicine.drug

Abstract

Introduction Recently we demonstrated that genetic or pharmacological suppression of the central ghrelin signaling system, involving the growth hormone secretagogue receptor 1A (GHS-R1A), lead to a reduced reward profile from alcohol. As the target circuits for ghrelin in the brain include a mesolimbic reward pathway that is intimately associated with reward-seeking behaviour, we sought to determine whether the central ghrelin signaling system is required for reward from drugs of abuse other than alcohol, namely cocaine or amphetamine. Results We found that amphetamine—as well as cocaine-induced locomotor stimulation and accumbal dopamine release were reduced in mice treated with a GHS-R1A antagonist. Moreover, the ability of these drugs to condition a place preference was also attenuated by the GHS-R1A antagonist. Conclusions Thus GHS-R1A appears to be required not only for alcohol-induced reward, but also for reward induced by psychostimulant drugs. Our data suggest that the central ghrelin signaling system constitutes a novel potential target for treatment of addictive behaviours such as drug dependence.

Published

2010

28. Metatyrosine-Induced Reversal of the Suppression of the Conditioned Avoidance Response in Reserpine-Treated Rats

Author

Jörgen A. Engel

Subjects

Male, medicine.medical_specialty, Reserpine, Metabolite, Tyramine, Endogeny, Dopamine beta-Hydroxylase, Avoidance response, Toxicology, Locomotor activity, Receptor stimulation, Norepinephrine, chemistry.chemical_compound, Thiocarbamates, Dopamine, Internal medicine, Conditioning, Psychological, Avoidance Learning, medicine, Animals, Aromatic Amino Acid Decarboxylase Inhibitors, Octopamine, Pharmacology, Aromatic L-amino acid decarboxylase, Behavior, Animal, Rats, Hydrazines, Endocrinology, chemistry, Tyrosine, Injections, Intraperitoneal, medicine.drug

Abstract

DL-Metatyrosine (200 mg/kg intraperitoneally) administration after peripheral DOPA decarboxylase inhibition caused a temporary reversal of reserpine-induced (5 mg/kg intraperitoneally) suppression of a conditioned avoidance response in the rat, both with and without pretreatment with a dopamine-β-hydroxylase inhibitor, bis-(4-methyl-1-homopiperazinylthiocarbonyl)-disulfide, (FLA-63, 10 mg/kg intraperitoneally); but the duration of the reversal was shorter after FLA-63. After the injection of DL-metatyrosine there was a rapid and marked accumulation of metatyramine and a smaller accumulation of the β-hydroxylated metabolite, metaoctopamine. FLA-63 pretreatment prevented the metaoctopamine accumulation. Some of the behavioural effects observed after DL-metatyrosine may be due to displacement of endogenous noradrenaline not depleted by reserpine. The increase in locomotor activity after DL-metatyrosine was not affected by the dopamine-β-hydroxylase inhibitor. The results provide further support for the hypothesis that dopamine is important for elementary motor functions (e.g. locomotor activity) whilst additional noradrenaline receptor stimulation is essential for more complex and integrated hebaviour (e.g. a conditioned avoidance response).

Published

2009

29. Effects of Maternal Ethanol Consumption on the Offspring Sensory-Motor Development, Ultrasonic Vocalization, Audiogenic Immobility Reaction and Brain Monoamine Synthesis

Author

Barbara Musi, Sture Liljequist, Ernest Hård, Jörgen A. Engel, and Knut Larsson

Subjects

Male, Biogenic Amines, medicine.medical_specialty, Startle response, Tyrosine 3-Monooxygenase, Offspring, Motor Activity, Biology, Toxicology, Immobilization, Fetus, Sex Factors, Pregnancy, Dopamine, Internal medicine, medicine, Animals, Ultrasonics, Amino Acids, Pharmacology, Ethanol, medicine.diagnostic_test, Body Weight, Brain, Rats, Inbred Strains, medicine.disease, Rats, Endocrinology, Monoamine neurotransmitter, Toxicity, Gestation, Female, Serotonin, Vocalization, Animal, medicine.drug

Abstract

Female rats were given 16% ethanol solution as the sole liquid during the entire period of gestation. At birth the offspring was removed and reared by foster dams consuming normal tap water. The development of sensory motor behaviour and emotional reactions was delayed by 1-2 days in the prenatally ethanol exposed pups as assessed by tests on body righting, acoustic startle response, air righting, rearing and ultrasonic vocalization. In the open-field test the normally occurring behavioural difference between the sexes was not found in the prenatally ethanol exposed pups. Both sexes of the ethanol exposed pups behaved like the female controls suggesting deficient masculinization of the ethanol exposed male pups during foetal age. Biochemical analysis of the brains showed a decreased synthesis of serotonin and dopamine.

Published

2009

30. Association of Pro-Ghrelin and GHS-R1A Gene Polymorphisms and Haplotypes With Heavy Alcohol Use and Body Mass

Author

Ulrica Olofsson, Henrik Zetterberg, Elisabet Jerlhag, Arturo Gonzalez-Quintela, Kaj Blennow, Sara Landgren, Jörgen A. Engel, Staffan Nilsson, and Joaquin Campos

Subjects

Adult, Male, medicine.medical_specialty, Alcohol Drinking, Haploview, media_common.quotation_subject, Medicine (miscellaneous), Biology, Toxicology, Polymorphism, Single Nucleotide, Body Mass Index, Reward, Growth hormone secretagogue, Orexigenic, Internal medicine, medicine, Humans, Prospective Studies, Receptors, Ghrelin, Aged, media_common, Genetics, Addiction, digestive, oral, and skin physiology, Alcohol dependence, Haplotype, Middle Aged, Ghrelin, Alcoholism, Psychiatry and Mental health, Endocrinology, Haplotypes, Female, Brain stimulation reward, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Background: Ghrelin, an orexigenic peptide, acts on growth hormone secretagogue receptors (GHS-R1A), expressed in the hypothalamus as well as in important reward nodes such as the ventral tegmental area. Interestingly, ghrelin has been found to activate an important part of the reward systems, i.e., the cholinergic-dopaminergic reward link. Additionally, the rewarding and neurochemical properties of alcohol are, at least in part, mediated via this reward link. There is comorbidity between alcohol dependence and eating disorders. Thus, plasma levels of ghrelin are altered in patients with addictive behaviors such as alcohol and nicotine dependence and in binge eating disorder. This overlap prompted as to investigate the pro-ghrelin and GHS-R1A genes in a haplotype analysis of heavy alcohol-using individuals. Methods: A total of 417 Spanish individuals (abstainers, moderate, and heavy alcohol drinkers) were investigated in a haplotype analysis of the pro-ghrelin and GHS-R1A genes. Tag SNPs were chosen using HapMap data and the Tagger and Haploview softwares. These SNPs were then genotyped using TaqMan Allelic Discrimination. Results: SNP rs2232165 of the GHS-R1A gene was associated with heavy alcohol consumption and SNP rs2948694 of the same gene as well as haplotypes of both the pro-ghrelin and the GHS-R1A genes were associated with body mass in heavy alcohol consuming individuals. Conclusions: The present findings are the first to disclose an association between the pro-ghrelin and GHS-R1A genes and heavy alcohol use, further strengthening the role of the ghrelin system in addictive behaviors and brain reward.

Published

2008

31. Ghrelin administration into tegmental areas stimulates locomotor activity and increases extracellular concentration of dopamine in the nucleus accumbens

Author

Emil Egecioglu, Lennart Svensson, Annika Douhan, Suzanne L. Dickson, Jörgen A. Engel, and Elisabet Jerlhag

Subjects

Male, medicine.medical_specialty, Tegmentum Mesencephali, Dopamine, Microdialysis, Peptide Hormones, media_common.quotation_subject, Medicine (miscellaneous), Mice, Inbred Strains, Motor Activity, Nucleus accumbens, Nucleus Accumbens, Receptors, G-Protein-Coupled, Nicotine, Mice, Neurochemical, Reward, Growth hormone secretagogue, Internal medicine, Neural Pathways, medicine, Animals, Receptors, Ghrelin, media_common, Pharmacology, Brain Mapping, Chemistry, Ventral Tegmental Area, digestive, oral, and skin physiology, Extracellular Fluid, Appetite, Acetylcholine, Ghrelin, Ventral tegmental area, Psychiatry and Mental health, medicine.anatomical_structure, Endocrinology, Neuroscience, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Ghrelin stimulates appetite, increases food intake and causes adiposity by mechanisms that include direct actions on the brain. Previously, we showed that intracerebroventricular administration of ghrelin has stimulatory and dopamine-enhancing properties. These effects of ghrelin are mediated via central nicotine receptors, suggesting that ghrelin can activate the acetylcholine-dopamine reward link. This reward link consists of cholinergic input from the laterodorsal tegmental area (LDTg) to the mesolimbic dopamine system that originates in the ventral tegmental area (VTA) and projects to the nucleus accumbens. Given that growth hormone secretagogue receptors (GHSR-1A) are expressed in the VTA and LDTg, brain areas involved in reward, the present series of experiments were undertaken to examine the hypothesis that these regions may mediate the stimulatory and dopamine-enhancing effects of ghrelin, by means of locomotor activity and in vivo microdialysis in freely moving mice. We found that local administration of ghrelin into the VTA (1 microg in 1 microl) induced an increase in locomotor activity and in the extracellular concentration of accumbal dopamine. In addition, local administration of ghrelin into the LDTg (1 microg in 1 microl) caused a locomotor stimulation and an increase in the extracellular levels of accumbal dopamine. Taken together, this indicates that ghrelin might, via activation of GHSR-1A in the VTA and LDTg, stimulate the acetylcholine-dopamine reward link, implicating that ghrelin is a part of the neurochemical overlap between the reward systems and those that regulate energy balance.

Published

2007

32. Genetic variation of the growth hormone secretagogue receptor gene is associated with alcohol use disorders identification test scores and smoking

Author

Petra, Suchankova, Staffan, Nilsson, Bettina, von der Pahlen, Pekka, Santtila, Kenneth, Sandnabba, Ada, Johansson, Patrick, Jern, Jörgen A, Engel, and Elisabet, Jerlhag

Subjects

Adult, Male, Human Genetic Study, gastrointestinal hormones, Genotype, substance use disorder, digestive, oral, and skin physiology, Smoking, Mutation, Missense, Candidate gene association study, Polymorphism, Single Nucleotide, Ghrelin, Humans, Female, Human Genetic Studies, Receptors, Ghrelin, Alcohol-Related Disorders

Abstract

The multifaceted gut‐brain peptide ghrelin and its receptor (GHSR‐1a) are implicated in mechanisms regulating not only the energy balance but also the reward circuitry. In our pre‐clinical models, we have shown that ghrelin increases whereas GHSR‐1a antagonists decrease alcohol consumption and the motivation to consume alcohol in rodents. Moreover, ghrelin signaling is required for the rewarding properties of addictive drugs including alcohol and nicotine in rodents. Given the hereditary component underlying addictive behaviors and disorders, we sought to investigate whether single nucleotide polymorphisms (SNPs) located in the pre‐proghrelin gene (GHRL) and GHSR‐1a gene (GHSR) are associated with alcohol use, measured by the alcohol use disorders identification test (AUDIT) and smoking. Two SNPs located in GHRL, rs4684677 (Gln90Leu) and rs696217 (Leu72Met), and one in GHSR, rs2948694, were genotyped in a subset (n = 4161) of a Finnish population‐based cohort, the Genetics of Sexuality and Aggression project. The effect of these SNPs on AUDIT scores and smoking was investigated using linear and logistic regressions, respectively. We found that the minor allele of the rs2948694 SNP was nominally associated with higher AUDIT scores (P = 0.0204, recessive model) and smoking (P = 0.0002, dominant model). Furthermore, post hoc analyses showed that this risk allele was also associated with increased likelihood of having high level of alcohol problems as determined by AUDIT scores ≥ 16 (P = 0.0043, recessive model). These convergent findings lend further support for the hypothesized involvement of ghrelin signaling in addictive disorders.

Published

2015

33. Central administration of the anorexigenic peptide neuromedin U decreases alcohol intake and attenuates alcohol-induced reward in rodents

Author

Daniel, Vallöf, Lisa, Ulenius, Emil, Egecioglu, Jörgen A, Engel, and Elisabet, Jerlhag

Subjects

Male, obesity, food intake, Alcohol Drinking, Behavior, Animal, Ethanol, Neuropeptides, Drinking Behavior, Addiction, Rats, Preclinical Study, Reward, Models, Animal, Animals, Original Article, appetite regulation, dopamine, gut–brain axis

Abstract

By investigating the neurochemical mechanisms through which alcohol activates the brain reward systems, novel treatment strategies for alcohol use disorder (AUD), a chronic relapsing disease, can be developed. In contrast to the common view of the function of gut–brain peptides, such as neuromedin U (NMU), to regulate food intake and appetite, a novel role in reinforcement mediation has been implied. The anorexigenic effects of NMU are mediated via NMU2 receptors, preferably in the arcuate nucleus and paraventricular nucleus. The expression of NMU2 receptors is also expressed in several reward‐related areas in the brain, suggesting a role in reward regulation. The present experiments were therefore set up to investigate the effect of intracerebroventricular administration of NMU on alcohol‐mediated behaviors in rodents. We found that central administration of NMU attenuated alcohol‐induced locomotor stimulation, accumbal dopamine release and the expression of conditioned place preference in mice. In addition, NMU dose dependently decreased alcohol intake in high, but not in low, alcohol‐consuming rats. Central NMU administration did not alter the blood alcohol concentrations nor change the corticosterone levels in rodents. Given that AUD is a major health‐care challenge causing an enormous cost to society and novel treatment strategies are warranted, our data suggest that NMU analogues deserve to be evaluated as novel treatment of AUD in humans.

Published

2015

34. Sub-chronic Ghrelin Receptor Blockade Attenuates Alcohol- and Amphetamine-Induced Locomotor Stimulation in Mice

Author

Elisabet Jerlhag, Jörgen A. Engel, and Petra Suchankova

Subjects

0301 basic medicine, Male, medicine.medical_specialty, media_common.quotation_subject, Glycine, Nucleus accumbens, Pharmacology, Nucleus Accumbens, 03 medical and health sciences, Mice, 0302 clinical medicine, Internal medicine, medicine, Animals, Amphetamine, Receptor, Receptors, Ghrelin, media_common, Ethanol, Addiction, digestive, oral, and skin physiology, Ventral Tegmental Area, Antagonist, Appetite, General Medicine, Triazoles, Ventral tegmental area, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Ghrelin, Central Nervous System Stimulants, Psychology, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, Locomotion, medicine.drug

Abstract

Aims Ghrelin initially emerged as a gut-brain hormone controlling food intake, meal initiation and appetite mainly via hypothalamic circuits in both rodents and humans. The findings that ghrelin receptors (GHS-R1A) are expressed in reward-related areas, including the nucleus accumbens (NAc) and ventral tegmental area (VTA), suggest that ghrelin is a novel reward regulator. Indeed, ghrelin signalling mediates the rewarding and motivational properties of addictive drugs. In addition, daily co-administration of a GHS-R1A antagonist and various addictive drugs prevents the drug-induced locomotor sensitization in rats. Methods The present series of experiment were designed to evaluate the effect of repeated pharmacological GHS-R1A suppression on drug-induced locomotor stimulation in more detail. Results We showed that sub-chronic pre-treatment of the GHS-R1A antagonist, JMV2959, attenuated the ability of acute administration of alcohol as well as of amphetamine to stimulate locomotion. However, there was no effect of sub-chronic JMV2959 treatment on locomotor activity per se or on the expression of the GHS-R1A gene ( Ghsr ) in the VTA or the NAc compared with vehicle treatment. In addition, sub-chronic ghrelin treatment caused a locomotor sensitization. Conclusions While previous research has pinpointed ghrelin as an appetite regulator the present study together with previous studies suggest that ghrelin signalling modulates various reward-mediated behaviours in rodents. Collectively, this suggests that the GHS-R1A could be a key target for novel treatment strategies for addiction.

Published

2015

35. Blockade of growth hormone secretagogue receptor 1A signaling by JMV 2959 attenuates the NMDAR antagonist, phencyclidine-induced impairments in prepulse inhibition

Author

Elisabet Jerlhag, Lennart Svensson, Jörgen A. Engel, Roy G. Smith, and Emil Egecioglu

Subjects

Male, Reflex, Startle, Dopamine, Growth hormone secretagogue receptor, Psychotomimetic drug, Glycine, Phencyclidine, Pharmacology and Toxicology, Receptors, N-Methyl-D-Aspartate, Rats, Sprague-Dawley, Cognition, medicine, Animals, Receptor, Receptors, Ghrelin, Prepulse inhibition, Original Investigation, Pharmacology, Sensory gating, Dose-Response Relationship, Drug, Prepulse Inhibition, Sensory Gating, Triazoles, Rats, medicine.anatomical_structure, NMDA, Schizophrenia, NMDA receptor, Ghrelin, Glutamate, Psychology, Neuroscience, medicine.drug, Signal Transduction

Abstract

Rationale Schizophrenic-spectrum patients commonly display deficits in preattentive information processing as evidenced, for example, by disrupted prepulse inhibition (PPI), a measure of sensorimotor gating. Similar disruptions in PPI can be induced in rodents and primates by the psychotomimetic drug phencyclidine (PCP), a noncompetitive inhibitor of the NMDA receptor. Mounting evidence suggests that the hunger hormone ghrelin and its constitutively active receptor influences neuronal circuits involved in the regulation of mood and cognition. Objectives In the present series of experiments, we investigated the effects of ghrelin and the growth hormone secretagogue receptor (GHS-R1A) neutral antagonist, JMV 2959, on acoustic startle responses (ASR), PPI, and PCP-induced alterations in PPI. Results Intraperitoneal (i.p.) administration of ghrelin (0.033, 0.1, and 0.33 mg/kg) did not alter the ASR or PPI in rats. Conversely, i.p. injection of JMV 2959 (1, 3, and 6 mg/kg), dose dependently decreased the ASR and increased PPI. Pretreatment with JMV 2959 at a dose with no effect on ASR or PPI per se, completely blocked PCP-induced (2 mg/kg) deficits in PPI while pretreatment with the highest dose of ghrelin did not potentiate or alter PPI responses of a sub-threshold dose of PCP (0.75 mg/kg). Conclusion These findings indicate that the GHS-R1A is involved in specific behavioral effects of PCP and may have relevance for patients with schizophrenia.

Published

2015

36. Ghrelin stimulates locomotor activity and accumbal dopamine-overflow via central cholinergic systems in mice: implications for its involvement in brain reward

Author

Malin E. Andersson, Suzanne L. Dickson, Jörgen A. Engel, Emil Egecioglu, Lennart Svensson, and Elisabet Jerlhag

Subjects

Male, medicine.medical_specialty, Substance-Related Disorders, Tegmentum Mesencephali, Dopamine, Peptide Hormones, Medicine (miscellaneous), Mice, Inbred Strains, Mecamylamine, Motor Activity, Receptors, Nicotinic, Nucleus accumbens, Nucleus Accumbens, Feeding and Eating Disorders, Mice, Reward system, Reward, Internal medicine, Orexigenic, medicine, Animals, Injections, Intraventricular, Pharmacology, Afferent Pathways, digestive, oral, and skin physiology, Brain, Ghrelin, Ventral tegmental area, Psychiatry and Mental health, Endocrinology, medicine.anatomical_structure, Cholinergic Fibers, Brain stimulation reward, Psychology, Neuroscience, medicine.drug

Abstract

It is becoming increasingly apparent that there is a degree of neurochemical overlap between the reward systems and those regulating energy balance. We therefore investigated whether ghrelin, a stomach-derived and centrally derived orexigenic peptide, might act on the reward systems. Central ghrelin administration (1 microg/microL, to the third ventricle) induced an acute increase in locomotor activity as well as dopamine-overflow in the nucleus accumbens, suggesting that ghrelin can activate the mesoaccumbal dopamine system originating in the ventral tegmental area, a system associated with reward and motivated behaviour. The cholinergic afferents to the ventral tegmental area have been implicated in natural reward and in regulating mesoaccumbal dopamine neurons. The possibility that nicotinic receptors are involved in mediating the stimulatory and dopamine-enhancing effects of ghrelin is supported by the findings that peripheral injection of the unselective nicotinic antagonist mecamylamine (2.0 mg/kg) blocked these ghrelin-induced effects. Tentatively, ghrelin may, via activation of the acetylcholine-dopamine reward link, increase the incentive values of signals associated with motivated behaviours of importance for survival such as feeding behaviour. It will be important to discover whether this has therapeutic implications for compulsive addictive behaviours, such as eating behaviour disorders and drug dependence.

Published

2006

37. Liver-derived IGF-I regulates exploratory activity in old mice

Author

Claes Ohlsson, Jörgen A. Engel, Bo Söderpalm, Klara Sjögren, and Johan Svensson

Subjects

Male, Activity level, Aging, medicine.medical_specialty, Physiology, Ratón, Endocrinology, Diabetes and Metabolism, Period (gene), Motor Activity, Biology, Growth hormone, Locomotor activity, Mice, Physiology (medical), Internal medicine, medicine, Animals, Insulin-Like Growth Factor I, Habituation, Habituation, Psychophysiologic, Maze Learning, Mice, Knockout, Triiodothyronine, Age Factors, Metabolism, Thyroxine, Endocrinology, Liver, Growth Hormone, Exploratory Behavior, Female

Abstract

Growth hormone (GH) replacement in hypopituitary patients improves well-being and initiative. Experimental studies indicate that these psychic effects may be reflected in enhanced locomotor activity in mice. It is unknown whether these phenomena are mediated directly by GH or by circulating IGF-I. IGF-I production in the liver was inactivated at 6–10 wk of age (LI-IGF-I−/− mice), resulting in an 80–85% reduction of circulating IGF-I, and, secondary to this, increased GH secretion. Using activity boxes on three different occasions during 1 wk, 6-mo-old LI-IGF-I−/− mice had similar activity levels, and 14-mo-old mice had a moderate but significant decrease in activity level, compared with control mice. At 20 mo of age, the LI-IGF-I−/− mice displayed a more prominent decrease in activity level with decreased horizontal activity throughout the test period, and at day 1, there were several signs of an altered habituation process with different time patterns of locomotor activity and horizontal activity compared with the control mice. At days 3 and 5, rearing activity was lower in the 20-mo-old LI-IGF-I−/− mice. Anxiety level was unaffected in all age groups, as measured using the Montgomery’s elevated plus-maze. In conclusion, old LI-IGF-I−/− mice displayed a decrease in both horizontal and rearing (exploratory) activity level and an altered habituation process. These results indicate that liver-derived IGF-I mediates at least part of the effects of GH on exploratory activity in mice.

Published

2005

38. VOLUNTARY ETHANOL INTAKE INCREASES EXTRACELLULAR ACETYLCHOLINE LEVELS IN THE VENTRAL TEGMENTAL AREA IN THE RAT

Author

Bo Söderpalm, Lena Edström, Jörgen A. Engel, Lennart Svensson, and Anna Larsson

Subjects

Male, medicine.medical_specialty, Alcohol Drinking, Dopamine, Statistics as Topic, Nucleus accumbens, Nucleus Accumbens, Nicotine, Internal medicine, Mecamylamine, medicine, Animals, Rats, Wistar, Acetylcholine receptor, Chemistry, Ventral Tegmental Area, Extracellular Fluid, General Medicine, Acetylcholine, Rats, Ventral tegmental area, medicine.anatomical_structure, Endocrinology, Nicotinic agonist, medicine.drug

Abstract

Concurrent use of ethanol and nicotine (tobacco) is often seen in human beings. In previous animal experiments, we have demonstrated that nicotinic acetylcholine receptors, especially α-conotoxin MII and mecamylamine sensitive receptors located in the ventral tegmental area may be involved in the stimulatory, dopamine enhancing, and rewarding effects of ethanol in rodents. Ethanol may exert these effects via direct interaction with nicotinic acetylcholine receptors and/or indirectly via enhancement of extracellular acetylcholine levels in the ventral tegmental area. The present experiments investigated a possible indirect effect of ethanol in stimulating the mesoaccumbal dopamine system. Methods: Neurochemical effects of voluntary ethanol intake on extracellular ventral tegmental acetylcholine and accumbal dopamine levels were measured by means of in vivo microdialysis with a two-probe approach in freely moving rats. Results: Obtained data indicate that voluntary ethanol intake (~0.7 g/kg/h) leads to an increase of extracellular acetylcholine levels in the ventral tegmental area, and an almost time-locked increase of dopamine levels in the nucleus accumbens. A positive correlation between the ventral tegmental acetylcholine levels and ethanol intake as well as preference was also observed. Conclusion: The present results suggest that voluntary ethanol intake enhances extracellular ventral tegmental acetylcholine that may interact with nicotinic acetylcholine receptors, possibly α-conotoxin MII sensitive receptors, localized in the ventral tegmental area that subsequently may stimulate dopamine overflow in the nucleus accumbens.

Published

2005

39. Antagonism of the nitric oxide synthase inhibitor, L-NAME, of the effects of phencyclidine on latent inhibition in taste aversion conditioning

Author

Lennart Svensson, Trevor Archer, Caroline Wass, Daniel Klamer, Erik Pålsson, and Jörgen A. Engel

Subjects

Male, Hallucinogen, Dextroamphetamine, Drinking, Psychotomimetic drug, Phencyclidine, Pharmacology, Nitric oxide, Rats, Sprague-Dawley, Behavioral Neuroscience, chemistry.chemical_compound, Latent inhibition, Avoidance Learning, medicine, Animals, Drug Interactions, Enzyme Inhibitors, Amphetamine, Analysis of Variance, Behavior, Animal, Dose-Response Relationship, Drug, Chemistry, Rats, Inhibition, Psychological, NG-Nitroarginine Methyl Ester, Biochemistry, Taste, Taste aversion, Conditioning, Operant, NMDA receptor, Central Nervous System Stimulants, medicine.drug

Abstract

Latent inhibition (LI) is a behavioural procedure used to evaluate the potential propsychotic and antipsychotic properties of psychoactive drugs. In the present study, a conditioned taste aversion (CTA) procedure was used to investigate the effects of the nitric oxide (NO) synthase inhibitor, N G -nitro- l -arginine methyl ester (L-NAME), and the psychotomimetic drugs, phencyclidine (PCP) and d-amphetamine (d-AMP) on LI. PCP (2 mg/kg) and d-AMP (0.5 mg/kg) were both found to enhance LI in this procedure. The effect of d-AMP on LI was less pronounced and this drug also caused a weak disruption of taste aversion conditioning. Pretreatment with L -NAME (10 mg/kg) blocked the LI enhancing effect of PCP on LI but not that of d-AMP. L -NAME by itself caused an attenuation of LI. L -NAME has been shown to block also other behavioural and biochemical effects of PCP in previous studies and these results and the present findings suggest that at least some of the effects PCP are dependent on NO and possibly also that some NOS inhibitors may exert antipsychotic properties.

Published

2005

40. Phencyclidine-Induced Behaviour in Mice Prevented by Methylene Blue

Author

Lennart Svensson, Jörgen A. Engel, and Daniel Klamer

Subjects

Pharmacology, education.field_of_study, biology, Chemistry, Population, General Medicine, Psychotomimetic, Toxicology, Nitric oxide, Nitric oxide synthase, chemistry.chemical_compound, Dose–response relationship, medicine, biology.protein, education, Phencyclidine, Methylene blue, Prepulse inhibition, medicine.drug

Abstract

Schizophrenia is a major public health problem that affects approximately 1% of the population worldwide. Schizophrenia-like symptoms can be induced in humans by phencyclidine (PCP), a drug with marked psychotomimetic properties. Phencyclidine disrupts prepulse inhibition of acoustic startle in rodents, a measure which has also been shown to be disrupted in schizophrenic patients. This effect is blocked by nitric oxide synthase (NOS) inhibitors, suggesting that nitric oxide plays an important role in this effect of phencyclidine. Methylene blue, a guanylate cyclase and nitric oxide syntase inhibitor, has shown therapeutic value as an adjuvant to conventional antipsychotics in the therapy of schizophrenia. The aim of the present study was to investigate if phencyclidine-(4 mg/kg)induced disruption of prepulse inhibition could be affected by methylene blue (50 or 100 mg/kg) in mice. Furthermore, the effect of methylene blue (50 mg/kg) on phencyclidine-(4 mg/kg)induced hyperlocomotion was investigated. The present study shows that phencyclidine readily disrupts prepulse inhibition in mice without affecting pulse-alone trials. It was also found that methylene blue prevents the decrease in prepulse inhibition caused by phencyclidine in a dose-related manner. Furthermore, the increase in locomotor activity caused by phencyclidine was reduced by pretreatment with methylene blue. The results from the present study further support the suggestion that the nitric oxide synthase/guanylate cyclase pathway is involved in pharmacological and behavioural effects of phencyclidine. Since phencyclidine as well exerts psychotomimetic characteristics, agents that interfere with the nitric oxide synthase/guanylate cyclase pathway may be of therapeutic value also in the treatment of schizophrenia.

Published

2004

41. Neurochemical and behavioral studies on ethanol and nicotine interactions

Author

Jörgen A. Engel and Anna L. E. Larsson

Subjects

Nicotine, Cognitive Neuroscience, Mesolimbic pathway, Motor Activity, Receptors, Nicotinic, Behavioral Neuroscience, Neurochemical, Dopamine, medicine, Animals, Humans, Drug Interactions, Nicotinic Agonists, Brain Chemistry, Behavior, Animal, Ethanol, Chemistry, Ventral Tegmental Area, Dopaminergic, Central Nervous System Depressants, Ventral tegmental area, Nicotinic acetylcholine receptor, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Nicotinic agonist, Ion Channel Gating, Neuroscience, medicine.drug

Abstract

The most commonly abused drugs, alcohol and nicotine, are likely also the most costly drugs in terms of health and societal costs. A large body of evidence from epidemiological studies indicate that smoking and alcohol-intake are positively correlated. The mesocorticolimbic dopamine system has been implicated in mediating some of the reinforcing effects of ethanol, however, the mechanism(s) of action remains to be elucidated; consideration as to ethanol's ability to interact with ligand-gated ion channels should be considered. Accumulating evidence from electrophysiological, pharmacological and neurochemical studies suggest that ethanol may interact with the nicotinic acetylcholine receptor (nAChR). Thus, it has been shown that the ethanol-induced stimulation of the mesolimbic dopamine system and of locomotor activity as well as ethanol intake and preference in rodents may involve central nicotinic acetylcholine receptors. Additionally, data has been presented that nAChRs located in the ventral tegmental area may be of particular importance for these effects of ethanol. Studies aimed at defining the nAChR subpopulation(s) involved in mediating ethanol-induced locomotor stimulation and accumbal dopamine overflow as well as ethanol-intake have revealed that alpha(3)beta(2) or alpha(6) (using alpha-Conotoxin MII) but not alpha(4)beta(2) (using dihydro-beta-erythroidine) or alpha(7) (using methyllycaconitine), could represent targets for developing new drugs in the treatment of alcoholism. These results do not allow any conclusion as to whether the involvement nAChRs in mediating the effects of ethanol is direct and/or indirect. With regard to an indirect effect, evidence has accumulated indicating that the cholinergic excitatory input to the dopaminergic neurons in the ventral tegmental area may be an important part of the neuronal circuits mediating natural as well as drug-rewarded behavior. The possibility may thus be considered that ethanol activates the cholinergic afferents causing a release of acetylcholine in the ventral tegemental area leading to a stimulation of nAChRs and thereby excite the mesocorticolimbic dopamine system.

Published

2004

42. Testosterone treatment induces behavioral disinhibition in adult male rats

Author

Jörgen A. Engel, Bo Söderpalm, Pernilla Åkesson, and Anders Svensson

Subjects

Male, medicine.medical_specialty, medicine.drug_class, Clinical Biochemistry, Drinking, Hypothalamic–pituitary–gonadal axis, Flunitrazepam, Genitalia, Male, In Vitro Techniques, Toxicology, Impulsivity, Biochemistry, Rats, Sprague-Dawley, Behavioral Neuroscience, Chlorides, Internal medicine, medicine, Animals, Testosterone, GABA Modulators, gamma-Aminobutyric Acid, Biological Psychiatry, Drug Implants, Pharmacology, Electroshock, Motivation, Behavior, Animal, Dose-Response Relationship, Drug, Ethanol, GABAA receptor, Central Nervous System Depressants, Testosterone (patch), Organ Size, Receptors, GABA-A, Androgen, Rats, Inhibition, Psychological, Endocrinology, Mechanism of action, Disinhibition, Androgens, medicine.symptom, Psychology, Synaptosomes, medicine.drug

Abstract

The importance of testosterone for impulsive-like behavior is unclear. Here we studied the effect of testosterone administration during 6 and 14 days (separate experiments) with one, three and five testosterone-filled silastic capsules implanted subcutaneously on shock-induced behavioral inhibition and on flunitrazepam-induced disinhibition in a modified Vogel's drinking conflict model in rats. Alleviation of shock-induced behavioral inhibition has been suggested to reflect impulsive-like behavior and/or anxiolysis. Treatment with the highest testosterone dose used for 6 (Experiment 1) and 14 (Experiment 3) days increased the number of shocks accepted. Testosterone treatment affected serum levels of testosterone and accessory sex organ weights. Flunitrazepam induced behavioral disinhibition in both testosterone-treated (for 14 days) and sham-treated rats. Moreover, testosterone treatment for 14 days resulted in enhanced GABA-induced 36Cl- uptake into synaptoneurosomes as compared to controls. In conclusion, testosterone produces behavioral disinhibition and may enhance brain GABAA receptor function.

Published

2003

43. New Neuronal Networks Involved in Ethanol Reinforcement

Author

Lennart Svensson, Deborah A. Finn, Ryan K. Bachtell, Andrey E. Ryabinin, Giovanni Vacca, Jörgen A. Engel, Giancarlo Colombo, Anna Larsson, Kalervo Kiianmaa, Petri Hyytiä, Bo Söderpalm, and Herman H. Samson

Subjects

Urocortin, Brain Mapping, Neurotransmitter Agents, Neuroactive steroid, Alcohol Drinking, Dopaminergic, Brain, Medicine (miscellaneous), Mesolimbic pathway, Nucleus accumbens, Toxicology, Alcoholism, Psychiatry and Mental health, Neurochemical, Dopamine, medicine, Animals, Humans, Neural Networks, Computer, Prefrontal cortex, Psychology, Reinforcement, Psychology, Neuroscience, medicine.drug

Abstract

This article represents the proceedings of a symposium at the 2002 ISBRA/RSA meeting in San Francisco. The organizers were Kalervo Kiianmaa and Andrey E. Ryabinin. The chairs were Kalervo Kiianmaa and Jörgen A. Engel. The presentations were (1) The role of opioidergic and dopaminergic networks in ethanol-seeking behavior, by Kalervo Kiianmaa and Petri Hyytiä; (2) Interaction between the dopamine systems in the prefrontal cortex and nucleus accumbens during ethanol self-administration, by Herman H. Samson; (3) Neurochemical and behavioral studies on ethanol and nicotine interactions, by Jörgen A. Engel, Lennart Svensson, Bo Söderpalm, and Anna Larsson; (4) Involvement of the GABA receptor in alcohol reinforcement in sP rats, by Giancarlo Colombo and Giovanni Vacca; (5) Neuroactive steroids and ethanol reinforcement, by Deborah A. Finn, and (6) Potential contribution of the urocortin system to regulation of alcohol self-administration, by Andrey E. Ryabinin and Ryan K. Bachtell.(B)

Published

2003

44. The Ghrelin Signalling System Is Involved in the Consumption of Sweets

Author

Jörgen A. Engel, Jeffrey A. Simms, Sara Landgren, Elisabeth Strandhagen, Elisabet Jerlhag, Selena E. Bartlett, and Dag S. Thelle

Subjects

Consumption (economics), medicine.medical_specialty, Multidisciplinary, business.industry, Science, lcsh:R, education, Signalling system, Alternative medicine, Declaration, lcsh:Medicine, Correction, Public administration, humanities, medicine, Medicine, lcsh:Q, Ghrelin, lcsh:Science, business, health care economics and organizations

Abstract

The authors wish to make the following correction: In our article, we declared that the study was partly funded by the Swedish Council for Tobacco Research (Radet for Medicinsk Tobaksforskning). While the authors have received a grant from the Swedish Council for Tobacco Research, this was for a different project. The current study was therefore not funded by the Swedish Council for Tobacco Research and the declaration of funding should not have included a reference to this body.

Published

2014

45. Ghrelin Receptor Antagonism as a Potential Therapeutic Target for Alcohol Use Disorders: A Preclinical Perspective

Author

Elisabet Jerlhag and Jörgen A. Engel

Subjects

business.industry, Addiction, media_common.quotation_subject, digestive, oral, and skin physiology, Alcohol dependence, Alcohol use disorder, Pharmacology, medicine.disease, Nicotine, Reward system, Orexigenic, Medicine, Ghrelin, business, Amphetamine, hormones, hormone substitutes, and hormone antagonists, medicine.drug, media_common

Abstract

The rewarding properties of natural and chemical reinforcers are mediated via the reward systems, such as the cholinergic-dopaminergic reward link. A dysfunction in these reward systems underlies development of addictive behaviours such as alcohol use disorder. By elucidating the complex neurobiological mechanisms involved in the drug-induced activation of the mesolimbic dopamine system, novel treatment strategies can be identified. Recent work has suggested that the gut–brain peptide ghrelin may be such candidates. Indeed, the orexigenic peptide ghrelin activates the cholinergic-dopaminergic reward link. Ghrelin may thereby increase the incentive salience for motivated behaviours such as reward seeking. Moreover, preclinical findings show that ghrelin signalling is required for reward induced by alcohol, for the motivation to consume alcohol and for the intake of alcohol in rodents. Reward induced by other additive drugs such as nicotine, cocaine and amphetamine also involve ghrelin and its receptor. Human genetic data support a role for ghrelin in drug reward. Polymorphisms in ghrelin-related genes are associated with increased alcohol intake, smoking as well as amphetamine dependence in humans. Furthermore, plasma levels of ghrelin are associated with alcohol dependence as well as with craving. Finally, another gut–brain peptide known to regulate food intake, i.e., the anorectic peptide glucagone-like-peptide-1 (GLP-1), was recently shown to regulate drug reinforcement. Peripheral treatment with a GLP-1 analogue attenuated alcohol-induced reward as well as decreased alcohol intake and alcohol seeking behaviour in rodents. In addition, GLP-1 analogues appear to attenuate drug-induced reward. Collectively, these data suggest that ghrelin and GLP-1 receptors may be novel targets for development of pharmacological treatments of addictive behaviours such as alcohol dependence.

Published

2014

46. Effects of 5-HT1A and 5-HT2 receptor agonists on the behavioral and neurochemical consequences of repeated nicotine treatment

Author

Jörgen A. Engel, Peter Olausson, Bo Söderpalm, and Pernilla Åkesson

Subjects

Male, Agonist, medicine.medical_specialty, Time Factors, medicine.drug_class, Dopamine, Microdialysis, Mesolimbic pathway, Motor Activity, Nucleus accumbens, Nucleus Accumbens, Rats, Sprague-Dawley, Nicotine, Neurochemical, Internal medicine, medicine, Animals, Maze Learning, Sensitization, Pharmacology, 8-Hydroxy-2-(di-n-propylamino)tetralin, Behavior, business.industry, musculoskeletal, neural, and ocular physiology, Amphetamines, Brain, Rats, Serotonin Receptor Agonists, Endocrinology, medicine.anatomical_structure, Disinhibition, Receptors, Serotonin, medicine.symptom, business, Receptors, Serotonin, 5-HT1, medicine.drug

Abstract

This study investigated the effects of repeated daily (15 days) treatment with nicotine, alone or in combination with the 5-HT1A/7 receptor agonist (±)-8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT) or the 5-HT2 receptor agonist (±)-2,5-dimethoxy-4-iodoamphetamine (DOI) on locomotor sensitization, mesolimbic dopamine neurochemistry and on behavioral inhibition in the rat. Acute nicotine elevated the extracellular dopamine levels in the nucleus accumbens and stimulated locomotor activity, effects that were sensitized after repeated nicotine treatment. Repeated nicotine administration also produced nicotine-induced behavioral disinhibition in the elevated plus-maze. Treatment with DOI counteracted the expression of the nicotine-induced locomotor and neurochemical sensitization, but had no effect on nicotine-induced behavioral disinhibition. Treatment with 8-OH-DPAT decreased the expression of nicotine-induced behavioral disinhibition, but had no effect on locomotor or neurochemical sensitization. Taken together, these findings suggest that the 5-HT1A and the 5-HT2 receptor subtypes are differentially involved in the effects of repeated nicotine on locomotor sensitization, behavioral inhibition and mesolimbic dopamine neurochemistry.

Published

2001

47. Nicotine-induced behavioral disinhibition and ethanol preference correlate after repeated nicotine treatment

Author

Bo Söderpalm, Peter Olausson, Jörgen A. Engel, Mia Ericson, and Elin Löf

Subjects

Male, Nicotine, Elevated plus maze, Time Factors, Motor Activity, Pharmacology, chemistry.chemical_compound, medicine, Animals, Rats, Wistar, Maze Learning, Sensitization, Analysis of Variance, Ethanol, Behavior, Animal, Chemistry, Alkaloid, Rats, medicine.anatomical_structure, Disinhibition, Toxicity, Analysis of variance, medicine.symptom, medicine.drug

Abstract

This study investigated the effects of repeated daily nicotine (0.35 mg/kg; 15 days) treatment on behavioral inhibition and locomotor activity in the elevated plus-maze and on voluntary ethanol consumption. When challenged with nicotine before the test, rats pretreated with repeated nicotine spent more time on and made more entries onto the open arms of an elevated plus-maze than did vehicle-pretreated animals. The ethanol preference and intake, measured during 3 h after a nicotine injection, was also higher in the nicotine-pretreated animals. In ethanol consumption experiments, there was a positive correlation between the % time and % entries made onto open arms vs. the ethanol preference and intake. However, no correlation between the total number of entries made in the elevated plus-maze and the measures of ethanol consumption was observed. These findings suggest that the ability of repeated nicotine administration to increase ethanol consumption is related to development of a nicotine-induced reduction of inhibitory control rather than development of locomotor sensitization.

Published

2001

48. Disinhibitory behavior and GABAA receptor function in serotonin-depleted adult male rats are reduced by gonadectomy

Author

Anders Svensson, Anders Berntsson, Bo Söderpalm, and Jörgen A. Engel

Subjects

Male, Serotonin, medicine.medical_specialty, medicine.drug_class, 5,7-Dihydroxytryptamine, Clinical Biochemistry, Hypothalamic–pituitary–gonadal axis, Toxicology, Hippocampus, Biochemistry, Rats, Sprague-Dawley, Behavioral Neuroscience, Serotonin Agents, Internal medicine, medicine, Animals, Biological Psychiatry, Testosterone, Cerebral Cortex, Pharmacology, Benzodiazepine, Behavior, Animal, GABAA receptor, Chemistry, Receptors, GABA-A, Androgen, Rats, Inhibition, Psychological, Endocrinology, Mechanism of action, medicine.symptom, Orchiectomy, Hormone

Abstract

Impulsive and aggressive behaviors in, e.g., personality or substance abuse disorders in man and corresponding behaviors in rats may involve serotonin (5-HT), γ-amino-butyric acid A /benzodiazepine receptor complexes (GABA A /BDZ-RC) and steroid hormones, e.g., testosterone. Here, we studied the effect of gonadectomy on disinhibitory behavior in individually housed 5-HT-depleted rats and on GABA A /BDZ-RC function in vitro, in corticohippocampal synaptoneurosomes prepared from the brain of these animals. 5-HT depletion by intracerebroventricular 5,7-dihydroxytryptamine (5,7-DHT)-induced disinhibitory behavior in a shock-induced behavioral inhibition model (punished conflict model) 14 days after operation. Gonadectomy in connection with the 5-HT depletion reduced the disinhibitory behavior and testosterone substitution prevented this effect. Shock threshold and drinking motivation were not affected by gonadectomy and/or 5-HT depletion. The relative epididymides weight was increased in 5-HT-depleted as compared to sham-operated rats. However, the serum concentrations of testosterone and the relative testes weights were not different in 5-HT-depleted rats as compared to controls. GABA-induced (30, 100, 300 μM) 36 Cl − -uptake into synaptoneurosomes was lower in 5,7-DHT+gonadectomized rats compared to the control group. This effect was reversed by substitution with testosterone. These results demonstrate that gonadectomy reduces disinhibitory behavior in 5-HT-depleted rats and that GABA A /BDZ-RC may be involved in this effect.

Published

2000

49. Gonadectomy Enhances Shock-Induced Behavioral Inhibition in Adult Male Rats

Author

Anders Svensson, Jörgen A. Engel, and Bo Söderpalm

Subjects

Pharmacology, Agonist, medicine.medical_specialty, medicine.drug_class, GABAA receptor, Sedation, Clinical Biochemistry, Toxicology, Androgen, Biochemistry, Behavioral Neuroscience, Endocrinology, Disinhibition, Internal medicine, medicine, Serotonin, medicine.symptom, Psychology, Diazepam, Biological Psychiatry, Testosterone, medicine.drug

Abstract

The effects of gonadectomy on shock-induced behavioral inhibition in a modified Vogel's drinking conflict model and on diazepam-induced disinhibition and sedation were investigated in adult male rats. Gonadectomy enhanced shock-induced behavioral inhibition when determined 9, 21, 45, and 65 days, but not 3 days, after operation, without affecting shock sensitivity or drinking motivation. Testosterone-substitution for 21 days following gonadectomy prevented this enhanced inhibition without significantly affecting the behavior in sham-operated rats. Diazepam produced behavioral disinhibition both in sham-operated and gonadectomized rats. However, after the highest dose (16 mg/kg, IP) the disinhibited behavior decreased only in sham-operated animals, most likely due to sedation. Moreover, whereas there was no difference in basal rotarod-performance between controls and gonadectomized rats, the latter animals were less sensitive to diazepam-induced disruption of rotarod walking ability. Sham-operated or gonadectomized animals did not differ with respect to serum diazepam levels at the postinjection times used in the behavioral tests. Taken together, gonadectomized rats were less sensitive towards diazepam-induced sedation, possibly due to a subsensitivity at or beyond GABA A /benzodiazepine receptors. Furthermore, the finding that lack of testosterone enhanced shock-induced inhibition could be interpreted to reflect increased impulse control and may involve an altered activation of GABA A /benzodiazepine receptors.

Published

2000

50. Neonatal herpes simplex virus type 1 brain infection affects the development of sensorimotor gating in rats

Author

A. Liljeroth, C. Forkstam, Lennart Svensson, N Conradi, Tomas Bergström, Jianhua Zhang, and Jörgen A. Engel

Subjects

Reflex, Startle, Time Factors, Central nervous system, Neural Inhibition, Herpesvirus 1, Human, Gating, Motor Activity, medicine.disease_cause, Polymerase Chain Reaction, Rats, Sprague-Dawley, Pregnancy, medicine, Animals, Habituation, Molecular Biology, Prepulse inhibition, Neurons, General Neuroscience, Body Weight, Age Factors, Brain, Viral Load, medicine.disease, Startle reaction, Rats, Survival Rate, Disease Models, Animal, Herpes simplex virus, medicine.anatomical_structure, Animals, Newborn, Schizophrenia, DNA, Viral, Female, Encephalitis, Herpes Simplex, Neurology (clinical), Psychology, Neuroglia, Neuroscience, Psychomotor Performance, Developmental Biology

Abstract

The effect of neonatal brain infection of herpes simplex virus type 1 (HSV-1) on the development of sensorimotor function in the rat was investigated using an acoustic startle paradigm. Intracerebral inoculation of HSV-1 at day 2 after birth, but not at day 4, caused a significant delay in the development of prepulse inhibition of acoustic startle. A decrease in prepulse inhibition was shown at 37, 46 and 58 days of age in these rats compared to control rats. No evidence was obtained for other behavioural dysfunctions such as differences in sensorimotor reactivity, sensorimotor response habituation, spontaneous locomotor activity, rearing activity or stereotyped behaviour. Prepulse inhibition of acoustic startle is an accepted model of sensorimotor gating in the CNS, a function which has been shown diminished in schizophrenic persons. The present results suggest that early viral infections during a neurone-susceptible period may contribute to the development of this deficit.

Published

2000