Your search keyword '"Soubrié P"' showing total 23 results

1. Selective inhibition of sucrose and ethanol intake by SR 141716, an antagonist of central cannabinoid (CB1) receptors

Author

Arnone, Michèle, Maruani, Jeanne, Chaperon, Frédérique, Thiébot, Marie-Hélène, Poncelet, M., Soubrié, Philippe, and Fur, Gérard Le

Published

1997

2. Effets du diazépam sur six modèles d'hyperactivité chez la souris

Author

Soubrié, P., Simon, P., and Boissier, J. R.

Published

1975

3. Effets des anxiolytiques sur la prise de nourriture de rats et de souris placés en situation nouvelle ou familière

Author

Soubrié, P., Kulkarni, S., Simon, P., and Boissier, J. R.

Published

1975

4. Acute versus repeated administration of desipramine in rats and mice: Relationships between brain concentrations and reduction of immobility in the swimming test

Author

Poncelet, M., Gaudel, G., Danti, S., Soubrié, Ph., and Simon, P.

Published

1986

5. SR146131: a new potent, orally active, and selective nonpeptide cholecystokinin subtype 1 receptor agonist. I. In vitro studies

Author

Bignon E, Bachy A, Boigegrain R, Brodin R, Cottineau M, Gully D, Jm, Herbert, Keane P, Labie C, Jc, Molimard, Olliero D, Oury-Donat F, Petereau C, Prabonnaud V, Mp, Rockstroh, Paul Schaeffer, Servant O, Thurneyssen O, Soubrié P, Pascal M, Jp, Maffrand, and Le Fur G

Subjects

Indoles, CHO Cells, Devazepide, Sincalide, Immediate-Early Proteins, Mice, Neuroblastoma, Hormone Antagonists, Inosine Monophosphate, Cricetinae, Tumor Cells, Cultured, Animals, Humans, Genes, Immediate-Early, Early Growth Response Protein 1, Indoleacetic Acids, 3T3 Cells, Receptor, Cholecystokinin B, Recombinant Proteins, Receptor, Cholecystokinin A, DNA-Binding Proteins, Thiazoles, Calcium-Calmodulin-Dependent Protein Kinases, Calcium, Receptors, Cholecystokinin, Transcription Factors

Abstract

SR146131 inhibited the binding of [125I]-Bolton Hunter (BH)-sulfated cholecystokinin octapeptide (CCK-8S) for the human recombinant cholecystokinin subtype 1 (CCK1) receptor (IC50 = 0.56 nM) with high (300-fold) selectivity to the CCK2 receptor. The biological activity of SR146131 was characterized in vitro in a NIH-3T3 cell line expressing the human recombinant CCK1 receptor (3T3-hCCK1). Measuring intracellular calcium release, SR146131 behaved as a full agonist with an efficacy comparable with that of CCK-8S (EC50 = 1.38 +/- 0.06 nM). On individual cells, SR146131 induced, like CCK-8S, Ca2+ oscillations at subnanomolar concentrations and sustained responses at higher concentrations. Like CCK-8S, SR146131 also fully stimulated inositol monophosphate formation (EC50 = 18 +/- 4 nM). SR146131 partially activated mitogen-activated protein kinase and enhanced the expression of the immediate early gene krox 24. In the human CHP212 and IMR32 neuroblastoma cell lines, which constitutively express the CCK1 receptor, SR146131 behaved as a partial agonist on intracellular calcium release and inositol monophosphate formation. All of these effects of SR146131 were inhibited by the CCK1 receptor antagonists SR27897B and devazepide, suggesting that the effects of SR146131 were entirely mediated by the CCK1 receptor. In contrast, high concentrations (1 microM) of SR146131 had only minimal effects on CCK-8S-stimulated and unstimulated Chinese hamster ovary (CHO) cells expressing the human CCK2 receptor, indicating that SR146131 is functionally inactive on the CCK2 receptor. In conclusion, these in vitro experiments show that SR146131 is a highly potent and selective agonist of the CCK1 receptor.

Published

1999

6. The effect of the nonpeptide neurotrophic compound SR 57746A on the progression of the disease state of the pmn mouse

Author

Duong, F, Fournier, J, Keane, P E, Guénet, J L, Soubrié, P, Warter, J M, Borg, J, and Poindron, P

Subjects

Motor Neurons, Time Factors, Pyridines, Motor Activity, Naphthalenes, Sciatic Nerve, Mice, Mutant Strains, Electrophysiology, Mice, Nerve Fibers, Neuroprotective Agents, Animals, Newborn, Papers, Nerve Degeneration, Animals, Motor Neuron Disease, Muscle, Skeletal

Abstract

1. The progressive motor neuronopathy (pmn) mouse is an autosomal recessive mutant, in which the homozygotes suffer caudio-cranial degeneration of motor axons and die several weeks after birth. This strain provides the opportunity of testing potential therapeutic strategies for the treatment of motor neurone diseases such as amyotrophic lateral sclerosis. We have performed a study of the effects on the pmn mouse of SR 57746A, an orally-active, non-peptide compound which has been found to exhibit neurotrophic effects in vitro and in vivo. In order to treat the affected mice from birth, the mothers were administered 2.5 mg kg(-1). p.o., SR 57746A every two days until the weaning of the offspring (at day 20); then the offspring were given every two days a dose of 30 microg kg(-1), p.o., until their death. 2. Affected mice treated with SR 57746A had a lifespan 50% longer than that of the vehicle-treated mice (P=0.01). Compared to vehicle-treated pmn mice, SR 57746A improved the performance of the pmn mice in three different behavioural tasks. SR 57746A also maintained the amplitude of the motor evoked response of the gastrocnemius muscle, reduced the distal motor latency, and delayed the occurrence of the spontaneous denervation activity in this muscle. Histological studies indicated that at 20 days of age the mean surface areas of the fibres of the sciatic nerve were higher in SR 57746A-treated than in vehicle-treated mice. 3. At present, SR 57746A is the only orally active, nonpeptide compound known to be capable of delaying the progression of the motor neurone degeneration in pmn mice.

Published

1998

7. Characterization of the effects of cannabinoid receptor deletion on energy metabolism in female C57BL mice.

Author

Sotzen, Morgan, Ahmed, Ahmed, Olson, L. Karl, and Alshaarawy, Omayma

Subjects

CANNABINOID receptors, WEIGHT gain, ENERGY metabolism, WHITE adipose tissue, MALE models, MICE, HIGH-fat diet

Abstract

Background: Despite the evidence that energy balance is regulated differently in females and that the endocannabinoid system is sexually dimorphic, previous studies on the endocannabinoid system and energy balance predominantly used male models. Here, we characterize the effects of cannabinoid receptor deletion on body weight gain and glucose metabolism in female C57BL mice. Methods: Female mice lacking the cannabinoid-1 receptor (CB1R-/-), cannabinoid-2 receptor (CB2R-/-), or both receptors (CB1R-/-/CB2R-/-) and wild-type (WT) mice were fed with a low (LFD; 10% of calories from fat) or high-fat diet (HFD; 45% of calories from fat) for six weeks. Results: Female WT mice fed with HFD gained significantly more weight than WT mice fed with LFD (p < 0.001). Similar pattern was observed for CB2/- mice fed with HFD compared to CB2R-/- mice fed with LFD (p < 0.001), but not for CB1R-/- fed with HFD vs. LFD (p = 0.22) or CB1R-/-/CB2R-/- fed with HFD vs. LFD (p = 0.96). Comparing the 4 groups on LFD, weight gain of CB1R-/- mice was greater than all other genotypes (p < 0.05). When fed with HFD, the deletion of CB1R alone in females did not attenuate weight gain compared to WT mice (p = 0.72). Female CB1R-/-/CB2R-/- mice gained less weight than WT mice when fed with HFD (p = 0.007) despite similar food intake and locomotor activity, potentially owing to enhanced thermogenesis in the white adipose tissue. No significant difference in weight gain was observed for female CB2R-/- and WT mice on LFD or HFD. Fasting glucose, however, was higher in CB2R-/- mice fed with LFD than all other groups (p < 0.05). Conclusion: The effects of cannabinoid receptor deletion on glucose metabolism in female mice were similar to previously published findings on male mice, yet the effects on body weight gain and thermogenesis were attenuated in CB1R-/- mice. [ABSTRACT FROM AUTHOR]

Published

2024

8. Evaluating Fatty Acid Amide Hydrolase as a Suitable Target for Sleep Promotion in a Transgenic TauP301S Mouse Model of Neurodegeneration.

Author

Martin, Shenée C., Joyce, Kathryn K., Harper, Kathryn M., Harp, Samuel J., Cohen, Todd J., Moy, Sheryl S., and Diering, Graham H.

Subjects

NEUROFIBRILLARY tangles, MICE, TRANSGENIC mice, SLEEP interruptions, LABORATORY mice, FATTY acids, SLEEP, ALZHEIMER'S disease

Abstract

Sleep disruption is an expected component of aging and neurodegenerative conditions, including Alzheimer's disease (AD). Sleep disruption has been demonstrated as a driver of AD pathology and cognitive decline. Therefore, treatments designed to maintain sleep may be effective in slowing or halting AD progression. However, commonly used sleep aid medications are associated with an increased risk of AD, highlighting the need for sleep aids with novel mechanisms of action. The endocannabinoid system holds promise as a potentially effective and novel sleep-enhancing target. By using pharmacology and genetic knockout strategies, we evaluated fatty acid amide hydrolase (FAAH) as a therapeutic target to improve sleep and halt disease progression in a transgenic Tau P301S (PS19) model of Tauopathy and AD. We have recently shown that PS19 mice exhibit sleep disruption in the form of dark phase hyperarousal as an early symptom that precedes robust Tau pathology and cognitive decline. Acute FAAH inhibition with PF3845 resulted in immediate improvements in sleep behaviors in male and female PS19 mice, supporting FAAH as a potentially suitable sleep-promoting target. Moreover, sustained drug dosing for 5–10 days resulted in maintained improvements in sleep. To evaluate the effect of chronic FAAH inhibition as a possible therapeutic strategy, we generated FAAH−/− PS19 mice models. Counter to our expectations, FAAH knockout did not protect PS19 mice from progressive sleep loss, neuroinflammation, or cognitive decline. Our results provide support for FAAH as a novel target for sleep-promoting therapies but further indicate that the complete loss of FAAH activity may be detrimental. [ABSTRACT FROM AUTHOR]

Published

2024

9. Δ9-Tetrahydrocannabinol Effects on Respiration and Heart Rate Across Route of Administration in Female and Male Mice.

Author

Laudermilk, Lucas T., Marusich, Julie A., and Wiley, Jenny L.

Subjects

HEART beat, RESPIRATION, CANNABINOID receptors, HEART rate monitors, PHOTOPLETHYSMOGRAPHY, HEART rate monitoring, MICE

Abstract

The physiological impact of cannabinoid receptor agonists is of great public health interest due to their increased use in recreational and therapeutic contexts. However, the body of literature on cannabinoid receptor agonists includes multiple confounding variables that complicate comparisons across studies, including route of administration, timeline across which phenotypes are observed, agonist dose, and sex of the study cohort. In this study, we characterized the impact of sex and route of administration on Δ9-tetrahydrocannabinol (THC)-induced changes in cardiopulmonary phenotypes in mice. Using noninvasive plethysmography and telemetry, we monitored heart rate and respiration in the same cohort of animals across aerosol, oral gavage, subcutaneous, and intraperitoneal administrations of THC (0–30 mg/kg THC for oral gavage, subcutaneous, and intraperitoneal, and 0-300 mg/ml THC for aerosol). All routes of THC administration altered respiratory minute volume and heart rate, with the direction of effects typically being consistent across dependent measures. THC primarily decreased respiration and heart rate, but females given oral gavage THC showed increased heart rate. Intraperitoneal and subcutaneous THC produced the longest-lasting effects, including THC-induced alterations in physiological parameters for up to 10 h, whereas effects of aerosolized THC were short lived. The fastest onset of effects of THC occurred for aerosolized and intraperitoneal THC. Altogether, the work herein establishes the impact of dosing route on THC-induced heart rate and respiratory alteration in male and female mice. This study highlights important differences in the timeline of cardiopulmonary response to THC following the most common preclinical routes of administration. [ABSTRACT FROM AUTHOR]

Published

2023

10. Context-dependent effects of the CB1 receptor antagonist rimonabant on morphine-induced behavioral sensitization in female mice.

Author

Marinho, Eduardo A. V., Justo Oliveira-Lima, Alexandre, Reis, Henrique S., Santos-Baldaia, Renan, Wuo-Silva, Raphael, Hollais, Andre W., Yokoyama, Thais S., Frussa-Filho, Roberto, and Berro, Lais F.

Subjects

RIMONABANT, OPIOID abuse, CONDITIONED response, LABORATORY mice, H2 receptor antagonists, ANIMAL locomotion, NEUROBIOLOGY

Abstract

Introduction: The endocannabinoid system has been implicated in the neurobiology of opioid use disorder. While the CB1 receptor antagonist rimonabant has been shown to block some of the behavioral effects of opioids, studies suggest that the treatment environment (i.e., receiving treatment in the drug-associated environment, and/or novelty) can influence its effects. In the present study, we investigated the role of the treatment environment in the effects of rimonabant on the expression of morphine-induced behavioral sensitization. Methods: Adult female Swiss mice were submitted to a behavioral sensitization protocol, during which they received morphine (20 mg/kg, i.p.) in the open-field apparatus, and were subsequently treated with vehicle or rimonabant (1 or 10 mg/kg, i.p.) either in the open-field, in the home-cage or in an activity box (novel environment). The expression of conditioned locomotion (increased locomotor activity in the open-field apparatus in the absence of morphine) and of morphine-induced behavioral sensitization (increased locomotor activity in animals sensitized to morphine) was evaluated during asubsequent saline and morphine challenge, respectively. Results: Animals treated with morphine expressed behavioral sensitization, showing a significant increase in locomotor activity over time. Animals sensitized to morphine and treated with vehicle in the home-cage expressed conditioned locomotion, an effect that was blocked by home-cage treatment with rimonabant. During a saline challenge, only animals sensitized to morphine and treated with saline in the homecage expressed morphine-induced conditioned locomotion. All morphine-treated animals that received saline during the treatment phase (control groups) expressed behavioral sensitization during the morphine challenge. Treatment with rimonabant in the open-field and in the activity box, but not in the home-cage, blocked the expression of morphine-induced behavioral sensitization. Discussion: Our findings suggest that CB1 receptor antagonism can modulate conditioned responses to morphine even when administered in the home-cage. However, exposure to the drug-associated environment or to a novel environment is necessary for the expression of rimonabant's effects on morphine-induced behavioral sensitization during a morphine challenge. [ABSTRACT FROM AUTHOR]

Published

2023

11. In Vivo Bio-Activation of JWH-175 to JWH-018: Pharmacodynamic and Pharmacokinetic Studies in Mice.

Author

Tirri, Micaela, Arfè, Raffaella, Bilel, Sabrine, Corli, Giorgia, Marchetti, Beatrice, Fantinati, Anna, Vincenzi, Fabrizio, De-Giorgio, Fabio, Camuto, Cristian, Mazzarino, Monica, Barbieri, Mario, Gaudio, Rosa Maria, Varani, Katia, Borea, Pier Andrea, Botrè, Francesco, and Marti, Matteo

Subjects

PHARMACOKINETICS, PAIN threshold, CANNABINOID receptors, LIVER microsomes, CLINICAL toxicology, SYNTHETIC marijuana, MICE

Abstract

3-(1-Naphthalenylmethyl)-1-pentyl-1H-indole (JWH-175) is a synthetic cannabinoid illegally marketed for its psychoactive cannabis-like effects. This study aimed to investigate and compare in vitro and in vivo pharmacodynamic activity of JWH-175 with that of 1-naphthalenyl (1-pentyl-1H-indol-3-yl)-methanone (JWH-018), as well as evaluate the in vitro (human liver microsomes) and in vivo (urine and plasma of CD-1 male mice) metabolic profile of JWH-175. In vitro binding studies showed that JWH-175 is a cannabinoid receptor agonist less potent than JWH-018 on mouse and human CB1 and CB2 receptors. In agreement with in vitro data, JWH-175 reduced the fESPS in brain hippocampal slices of mice less effectively than JWH-018. Similarly, in vivo behavioral studies showed that JWH-175 impaired sensorimotor responses, reduced breath rate and motor activity, and increased pain threshold to mechanical stimuli less potently than JWH-018. Metabolic studies demonstrated that JWH-175 is rapidly bioactivated to JWH-018 in mice blood, suggesting that in vivo effects of JWH-175 are also due to JWH-018 formation. The pharmaco-toxicological profile of JWH-175 was characterized for the first time, proving its in vivo bio-activation to the more potent agonist JWH-018. Thus, it highlighted the great importance of investigating the in vivo metabolism of synthetic cannabinoids for both clinical toxicology and forensic purposes. [ABSTRACT FROM AUTHOR]

Published

2022

12. Mice Lacking Gpr75 are Hypophagic and Thin.

Author

Powell, David R, Doree, Deon D, DaCosta, Christopher M, Platt, Kenneth A, Brommage, Robert, Buhring, Lindsey, Revelli, Jean-Pierre, and Shadoan, Melanie K

Subjects

CALORIC expenditure, GLUCOSE tolerance tests, BODY composition, INSULIN sensitivity, MICE, INSULIN resistance, FAT

Abstract

Purpose: Humans with haploinsufficiency of GPR75, an orphan GPCR, are thin. Gpr75 knockout (KO) mice are also thin with improved glucose homeostasis. We wanted to confirm these findings in Gpr75 KO mice and determine whether decreased energy intake and/or increased energy expenditure contributed to the thin phenotype. Methods: Gpr75 KO mice were generated by homologous recombination. All studies compared female and male Gpr75 KO mice to their wild type (WT) littermates. Body composition was measured by DXA and QMR technologies. Glucose homeostasis was evaluated by measuring glucose and insulin levels during oral glucose tolerance tests (OGTTs). Food intake was measured in group-housed mice. In singly housed mice, energy expenditure was measured in Oxymax indirect calorimetry chambers, and locomotor activity was measured in Oxymax and Photobeam Activity System chambers. Results: In all 12 cohorts of adult female or male mice, Gpr75 KO mice had less body fat; pooled data showed that, compared to WT littermates (n = 103), Gpr75 KO mice (n = 118) had 49% less body fat and 4% less LBM (P < 0.001 for each). KO mice also had 8% less body fat at weaning (P < 0.05), and during the month after weaning as the thin phenotype became more exaggerated, Gpr75 KO mice ate significantly less than, but had energy expenditure and activity levels comparable to, their WT littermates. During OGTTs, Gpr75 KO mice showed improved glucose tolerance (glucose AUC 23% lower in females, P < 0.05, and 26% lower in males, P < 0.001), accompanied by significantly decreased insulin levels and significantly increased insulin sensitivity indices. Conclusion: Gpr75 KO mice are thin at weaning, are hypophagic as the thin phenotype becomes more exaggerated, and exhibit improved glucose tolerance and insulin sensitivity as healthy-appearing adults. These results suggest that inhibiting GPR75 in obese humans may safely decrease energy intake and body fat while improving glucose tolerance and insulin sensitivity. [ABSTRACT FROM AUTHOR]

Published

2022

13. Neurotensin Attenuates Nociception by Facilitating Inhibitory Synaptic Transmission in the Mouse Spinal Cord.

Author

Zhang, Ming-Ming, Feng, Yu-Peng, Qiu, Xin-Tong, Chen, Tao, Bai, Yang, Feng, Jia-Ming, Wang, Jun-Da, Chen, Yan, Zhang, Ming-Zhe, Duan, Hao-Kai, Zhao, Mingwei, Teng, Yi-Hui, Cao, Jing, Zang, Wei-Dong, Yang, Kun, and Li, Yun-Qing

Subjects

SPINAL cord, NEUROTENSIN, CENTRAL nervous system, INTRATHECAL injections, IMMUNOSTAINING, NEURAL transmission

Abstract

Neurotensin (NT) is an endogenous tridecapeptide in the central nervous system. NT-containing neurons and NT receptors are widely distributed in the spinal dorsal horn (SDH), indicating their possible modulatory roles in nociception processing. However, the exact distribution and function of NT, as well as NT receptors (NTRs) expression in the SDH, have not been well documented. Among the four NTR subtypes, NTR2 is predominantly involved in central analgesia according to previous reports. However, the expression and function of NTR2 in the SDH has not yet been directly elucidated. Specifically, it remains unclear how NT-NTR2 interactions contribute to NT-mediated analgesia. In the present study, by using immunofluorescent histochemical staining and immunohistochemical staining with in situ hybridization histochemical staining, we found that dense NT- immunoreactivity (NT-ir) and moderate NTR2-ir neuronal cell bodies and fibers were localized throughout the superficial laminae (laminae I-II) of the SDH at the light microscopic level. In addition, γ-aminobutyric acid (GABA) and NTR2 mRNA were colocalized in some neuronal cell bodies, predominantly in lamina II. Using confocal and electron microscopy, we also observed that NT-ir terminals made both close contacts and asymmetrical synapses with the local GABA-ir neurons. Second, electrophysiological recordings showed that NT facilitated inhibitory synaptic transmission but not glutamatergic excitatory synaptic transmission. Inactivation of NTR2 abolished the NT actions on both GABAergic and glycinergic synaptic release. Moreover, a behavioral study revealed that intrathecal injection of NT attenuated thermal pain, mechanical pain, and formalin induced acute inflammatory pain primarily by activating NTR2. Taken together, the present results provide direct evidence that NT-containing terminals and fibers, as well as NTR2-expressing neurons are widely distributed in the spinal dorsal horn, GABA-containing neurons express NTR2 mainly in lamina II, GABA coexists with NTR2 mainly in lamina II, and NT may directly increase the activity of local inhibitory neurons through NTR2 and induce analgesic effects. [ABSTRACT FROM AUTHOR]

Published

2021

14. SGIP1 is involved in regulation of emotionality, mood, and nociception and modulates in vivo signalling of cannabinoid CB1 receptors.

Author

Dvorakova, Michaela, Kubik‐Zahorodna, Agnieszka, Straiker, Alex, Sedlacek, Radislav, Hajkova, Alena, Mackie, Ken, Blahos, Jaroslav, and Kubik-Zahorodna, Agnieszka

Subjects

CYCLOSERINE, CANNABINOID receptors, ENDORPHIN receptors, PROCESS control systems, SHORT-term memory, ANXIETY, NERVOUS system, RESEARCH, ANIMAL experimentation, RESEARCH methodology, SENSORY perception, CELL receptors, FEAR, MEDICAL cooperation, EVALUATION research, HYDROCARBONS, COMPARATIVE studies, MICE

Abstract

Background and Purpose: Src homology 3-domain growth factor receptor-bound 2-like endophilin interacting protein 1 (SGIP1) interacts with cannabinoid CB1 receptors. SGIP1 is abundantly and principally expressed within the nervous system. SGIP1 and CB1 receptors co-localize in axons and presynaptic boutons. SGIP1 interferes with the internalization of activated CB1 receptors in transfected heterologous cells. Consequently, the transient association of CB1 receptors with β-arrestin2 is enhanced and prolonged, and CB1 receptor-mediated ERK1/2 signalling is decreased. Because of these actions, SGIP1 may modulate affect, anxiety, pain processing, and other physiological processes controlled by the endocannabinoid system (ECS).Experimental Approach: Using a battery of behavioural tests, we investigated the consequences of SGIP1 deletion in tasks regulated by the ECS in SGIP1 constitutive knockout (SGIP1-/- ) mice.Key Results: In SGIP1-/- mice, sensorimotor gating, exploratory levels, and working memory are unaltered. SGIP1-/- mice have decreased anxiety-like behaviours. Fear extinction to tone is facilitated in SGIP1-/- females. Several cannabinoid tetrad behaviours are altered in the absence of SGIP1. SGIP1-/- males exhibit abnormal behaviours on Δ9 -tetrahydrocannabinol withdrawal. SGIP1 deletion also reduces acute nociception, and SGIP1-/- mice are more sensitive to analgesics.Conclusion and Implications: SGIP1 was detected as a novel protein associated with CB1 receptors, and profoundly modified CB1 receptor signalling. Genetic deletion of SGIP1 particularly affected behavioural tests of mood-related assessment and the cannabinoid tetrad. SGIP1-/- mice exhibit decreased nociception and augmented responses to CB1 receptor agonists and morphine. These in vivo findings suggest that SGIP1 is a novel modulator of CB1 receptor-mediated behaviour. [ABSTRACT FROM AUTHOR]

Published

2021

15. β-Caryophyllene, a dietary terpenoid, inhibits nicotine taking and nicotine seeking in rodents.

Author

He, Yi, Galaj, Ewa, Bi, Guo‐Hua, Wang, Xiao‐Fei, Gardner, Eliot, Xi, Zheng‐Xiong, Bi, Guo-Hua, Wang, Xiao-Fei, and Xi, Zheng-Xiong

Subjects

DOPAMINERGIC neurons, NICOTINE, CARYOPHYLLENE, SMOKING cessation, ANIMAL behavior, RODENTS, CANNABINOID receptors, FOOD additives, TERPENES, ANIMAL experimentation, CELL receptors, RATS, RESEARCH funding, MICE

Abstract

Background and Purpose: β-Caryophyllene (BCP) is a plant-derived terpenoid used as a food additive for many decades. Recent studies indicate that BCP is a cannabinoid CB2 receptor agonist with medical benefits for a number of human diseases. However, little is known about its therapeutic potential for drug abuse and addiction.Experiment Approach: We used pharmacological, transgenic, and optogenetic approaches to systematically evaluate the effects of BCP on nicotine-taking and nicotine-seeking behaviour in animal models of drug self-administration, electrical, and optical brain-stimulation reward.Key Results: Systemic administration of BCP dose-dependently inhibited nicotine self-administration and motivation for nicotine seeking in rats and mice. The reduction in nicotine self-administration was blocked by AM630, a selective CB2 receptor antagonist, but not by AM251, a selective CB1 receptor antagonist, suggesting involvement of a CB2 receptor mechanism. Genetic deletion of CB2 receptors in mice blocked the reduction in nicotine self-administration produced only by low doses, but not by high doses, of BCP, suggesting involvement of both CB2 and non-CB2 receptor mechanisms. Furthermore, in the intracranial self-stimulation paradigm, BCP attenuated electrical brain-stimulation reward and nicotine-enhanced brain-stimulation reward in rats. Lastly, BCP also attenuated brain-stimulation reward maintained by optogenetic stimulation of dopaminergic neurons in the ventral tegmental area in DAT-cre mice, suggesting the involvement of a dopamine-dependent mechanism in BCP's action.Conclusions and Implications: The present findings suggest that BCP has significant anti-nicotine effects via both CB2 and non-CB2 receptor mechanisms and, therefore, deserves further study as a potential new pharmacotherapy for cigarette smoking cessation. [ABSTRACT FROM AUTHOR]

Published

2020

16. THC exposure during adolescence does not modify nicotine reinforcing effects and relapse in adult male mice.

Author

Flores, África, Maldonado, Rafael, and Berrendero, Fernando

Subjects

NICOTINE, ADOLESCENCE, MICE, ANIMAL behavior, DRUG addiction, OPERATIVE surgery, NICOTIANA

Abstract

Rationale: Cannabis use is typically initiated during adolescence, and different studies suggest that adolescent cannabinoid exposure may increase the risk for drug addiction in adulthood. Objectives: This study investigated the effects of adolescent exposure to the main psychoactive component of cannabis, ∆9-tetrahydrocannabinol (THC), in the reinforcing properties of nicotine in adult male mice. Possible alterations in relapse to nicotine-seeking behaviour in adult animals due to THC adolescent exposure were also evaluated. Methods: Adolescent mice were exposed to escalating doses of THC from PND35 to PND49. When mice reached adulthood (PND70), surgical procedures were applied for further behavioural evaluation. Nicotine self-administration sessions were conducted consecutively for 10 days. Following extinction, mice were tested for cue- and stress-induced reinstatement of nicotine-seeking behaviour. Results: Adolescent THC treatment did not modify acquisition and extinction of nicotine self-administration in adulthood. Moreover, THC exposure did not alter relapse to nicotine seeking induced by stress or nicotine-associated cues. Conclusions: These results suggest that a history of exposure to THC during adolescence under these particular conditions does not modify the reinforcing effects and seeking behaviour of nicotine in the adult period. [ABSTRACT FROM AUTHOR]

Published

2020

17. Dual inhibition of cannabinoid CB1 receptor and inducible NOS attenuates obesity-induced chronic kidney disease.

Author

Udi, Shiran, Hinden, Liad, Ahmad, Majdoleen, Drori, Adi, Iyer, Malliga R., Cinar, Resat, Herman‐Edelstein, Michal, Tam, Joseph, and Herman-Edelstein, Michal

Subjects

CHRONIC kidney failure, KIDNEY tubules, CANNABINOID receptors, WESTERN diet, OXIDATIVE stress, PREVENTION of obesity, OBESITY, RESEARCH, ANIMAL experimentation, RESEARCH methodology, CELL receptors, DIET, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, CELLS, RESEARCH funding, OXIDOREDUCTASES, MICE, CHEMICAL inhibitors

Abstract

Background and Purpose: Obesity, an important risk factor for developing chronic kidney disease (CKD), affects the kidneys by two main molecular signalling pathways: the endocannabinoid/CB1 receptor system, whose activation in obesity promotes renal inflammation, fibrosis, and injury, and the inducible NOS (iNOS), which generates ROS resulting in oxidative stress. Hence, a compound that inhibits both peripheral CB1 receptors and iNOS may serve as an effective therapeutic agent against obesity-induced CKD.Experimental Approach: Here, we describe the effect of a novel peripherally restricted, orally bioavailable dual CB1 receptor/iNOS antagonist, MRI-1867 (3 mg·kg-1 ), in ameliorating obesity-induced CKD, and compared its metabolic and renal efficacies to a stand-alone peripheral CB1 receptor antagonist (JD5037; 3 mg·kg-1 ), iNOS antagonist (1400W; 10 mg·kg-1 ), and pair feeding. Mice with high-fat diet-induced obesity were treated orally with these compounds or vehicle (Veh) for 28 days. Standard diet-fed mice treated with Veh served as controls.Key Results: Enhanced expression of CB1 receptors and iNOS in renal tubules was found in human kidney patients with obesity and other CKDs. The hybrid inhibitor ameliorated obesity-induced kidney morphological and functional changes via decreasing kidney inflammation, fibrosis, oxidative stress, and renal injury. Some of these features were independent of the improved metabolic profile mediated via inhibition of CB1 receptors. An additional interesting finding is that these beneficial effects on the kidney were partially associated with modulating renal adiponectin signalling.Conclusions and Implications: Collectively, our results highlight the therapeutic relevance of blocking CB1 receptors and iNOS in ameliorating obesity-induced CKD. [ABSTRACT FROM AUTHOR]

Published

2020

18. The Impact of CB2 Receptor Ligands on the MK-801-Induced Hyperactivity in Mice.

Author

Kruk-Slomka, Marta, Banaszkiewicz, Izabela, and Biala, Grazyna

Subjects

CANNABINOID receptors, LIGANDS (Biochemistry), HYPERACTIVITY, LABORATORY mice, SCHIZOPHRENIA, CANNABIS (Genus), PHYSIOLOGY

Abstract

It has been known that there is a relationship between cannabis use and schizophrenia-related symptoms; however, it can be a subject of controversy. The involvement of CB1 receptor ligands in the schizophrenia has already been revealed and confirmed. However, there is still lack of information concerning the role of CB2 receptors in the psychosis-like effects in mice and the further studies are needed. The aim of the present research was to study the role of the CB2 receptor ligands in the symptoms typical for schizophrenia. We provoked hyperlocomotion in mice which is analogous to positive psychosis-like effects in humans, by an acute administration of a NMDA receptor antagonist, MK-801 (0.3 and 0.6 mg/kg), a pharmacological model of schizophrenia. An acute administration of MK-801 induced the increase in locomotor activity (hyperactivity) in rodents, measured in actimeters. We revealed that an acute injection of CB2 receptor agonist JWH 133 at the dose range (0.05-1.0 mg/kg) and CB2 receptor antagonist, AM 630 at the dose range (0.1-1.0 mg/kg) decreased locomotion of mice. An acute injection of JWH 133 (2.0 mg/kg) and AM 630 (2.0 mg/kg) had no statistical significant influence on the locomotor activity of mice. However, an acute injection of both CB2 receptor ligands (agonist and antagonist), JWH 133, at the non-effective dose of 2.0 mg/kg and AM 630 at the non-effective dose of 2.0 mg/kg, potentiated the MK-801-induced hyperactivity. The present findings have confirmed that endocannabinoid system, not only via CB1, but also via CB2 receptors, may be involved in the schizophrenia-like responses, including hyperlocomotion in mice. [ABSTRACT FROM AUTHOR]

Published

2017

19. Neurobehavioural evaluation of Lophira alata (Ochnaceae) stem bark extract in mice.

Author

Iniaghe, Loretta O., Ighodaro, Igbe, Magaji, Mohammed G., Tabot, Tabot P., and Maduka, Ijeoma T.

Subjects

MEDICINAL plants, ANIMAL experimentation, ANTICONVULSANTS, ANTIDEPRESSANTS, BARK, MICE, TRADITIONAL medicine, TRANQUILIZING drugs, PHYTOCHEMICALS, PLANT extracts, DATA analysis software, ONE-way analysis of variance

Abstract

Background: Stem bark and leaves of Lophira alata (Family: Ochnaceae) have been used traditionally for their anti-psychotic, anti-convulsant and anxiolytic properties. Since no existing data was found on the neurobehavioural properties, this study was carried out to evaluate some neurobehavioural properties of the aqueous extract of the stem bark of L. alata in animal models. Methods: The oral mean lethal dose (LD50) of the extract was estimated, and preliminary phytochemical screening was conducted. Lophira alata extract (200, 400 and 800 mg/kg, p.o.) was investigated for antidepressant effect using the forced swim and tail suspension tests, and the anxiolytic potential was assessed using the stair case and hole board tests. Pentylenetetrazole-induced convulsion test was used to investigate the anticonvulsant potential of the extract. Results: The LD50 was estimated to be > 5000 mg/kg. Oral administration of L. alata extract produced a significant (p < 0.05) non-dose-dependent decrease in the period of immobility in both the forced swim and tail suspension tests. While a significant decrease (p < 0.05) in episodes of grooming was recorded in the staircase test, the number of head dips was not significantly reduced (p > 0.05) in the hole board test. In the pentylenetetrazole-induced convulsion, a non-dose-dependent increase in onset of tonicclonic seizures and protection from death was recorded. Conclusions: The results obtained suggest that the aqueous stem bark extract of L. alata possesses neurobehavioural properties which may account for its use in ethnomedicine. [ABSTRACT FROM AUTHOR]

Published

2015

20. Evaluation of anxiolytic activity of the essential oil of the aerial part of Foeniculum vulgare Miller in mice.

Author

Mesfin, Miraf, Asres, Kaleab, and Shibeshi, Workineh

Subjects

ANIMAL experimentation, ANXIETY, DIAZEPAM, ESSENTIAL oils, FENNEL, MICE, ORAL drug administration, SURFACE active agents, PLANT extracts, PLANT anatomy

Abstract

Background: Foeniculum vulgare locally known as ensilal, is an aromatic plant widely cultivated in temperate and tropical regions. The anti-anxiety activity of the crude extract of F. vulgare has been reported. However, the fraction responsible for anxiolytic activity is not known and there is no any report on the anti-anxiety activity of the essential oil of F. vulgare. The objective of study was to evaluate the anxiolytic activity of the essential oil of Foeniculum vulgare Miller. Methods: Adult Swiss albino male mice were randomly divided into six groups (n = 6). Groups I and II received Tween 80 (5%, v/v) and diazepam (0.5 mg/kg, ip), respectively, while groups III to V received orally 50, 100, and 200 and 400 mg/kg doses of the essential oil of F. vulgare, respectively. The mice were then individually placed in animal anxiety models: elevated plus maze (EPM), staircase test (SCT) and open field test (OFT) and evaluated for various parameters. Results: In EPM test, 100 and 200 mg/kg doses of the essential oil significantly increased percent number of entries and time spent in open arms compared to control. In SCT these doses also reduced rearing significantly compared to controls, while only the 200 mg/kg dose significantly increased number of squares crossed at the center in the OFT test. Conclusion: The essential oil of F. vulgare was found to exhibit a promising anxiolytic activity. [ABSTRACT FROM AUTHOR]

Published

2014

21. In vivo imaging of lipid storage and regression in diet-induced obesity during nutrition manipulation.

Author

Wahad Bidar, Abdel, Ploj, Karolina, Lelliott, Christopher, Nelander, Karin, Sörhede Winzell, Maria, Böttcher, Gerhard, Oscarsson, Jan, Storlien, Leonard, and Hockings, Paul D.

Abstract

Changes in adipose tissue distribution and ectopic fat storage in, liver and skeletal muscle tissue impact whole body insulin sensitivity in both humans and experimental animals. Numerous mouse models of obesity, insulin resistance, and diabetes exist; however, current methods to assess mouse phenotypes commonly involve direct harvesting of the tissues of interest, precluding the possibility of repeated measurements in the same animal. In this study, we demonstrate that whole body 3-D imaging of body fat composition can be used to analyze distribution as well as redistribution of fat after intervention by repeated assessment of intrahepatocellular lipids (IHCL), intra-abdominal, subcutaneous, and total adipose tissue (IAT, SAT, and TAT) and brown adipose tissue (BAT). C57BL/6J mice fed a cafeteria diet for 16 wk were compared with mice fed standard chow for 16 wk and mice switched from café diet to standard chow after 12 wk. MRI determinations were made at 9 and 15 wk, and autopsy was performed at 16 wk. There was a strong correlation between MRI-calculated weights in vivo at 15 wk and measured weights at 16 wk ex vivo for IAT (r = 0.99), BAT (r = 0.93), and IHCL (r = 0.97). IHCL and plasma insulin increased steeply relative to body weight at body weights above 45 g. This study demonstrates that the use of 3-D imaging to assess body fat composition may allow substantial reductions in animal usage. The dietary interventions indicated that a marked metabolic deterioration occurred when the mice had gained a certain fat mass. [ABSTRACT FROM AUTHOR]

Published

2012

22. ETHANOL INDUCES HIGHER BEC IN CB1 CANNABINOID RECEPTOR KNOCKOUT MICE WHILE DECREASING ETHANOL PREFERENCE.

Author

Lallemand, F. and De Witte, P.

Subjects

CANNABINOIDS, CANNABIS (Genus), ALCOHOL, MICE, ALCOHOL drinking, ALCOHOLISM

Abstract

Aims: Previous studies have shown that CB1 cannabinoid receptors are involved in the behavioural effects induced by chronic ethanol administration in Wistar rats by using SR 141716, a CB1 cannabinoid receptor antagonist. These studies have now been extended to investigate the effect of acute and chronic alcoholization on blood ethanol concentration (BEC) and ethanol preference in CB1 knockout (-/--) mice. Methods: BEC was monitored for a period of 8 h in both CB1-/- male mice and CB1 male wild-type (+/+) mice, which had received an acute i.p. injection of ethanol in 1, 3 or 5 g/kg doses. Ethanol preference was assayed in both groups of male mice in non-forced ethanol administration and forced chronic pulmonary alcohol administration for 14 and 39 days, respectively. Results: After an acute intraperitoneal ethanol injection of 5 g/kg, CB1-/- mice showed a significant higher BEC during the ethanol elimination stage than the CB1+/+ mice. However, those in the 1 and 3 g/kg groups showed no significant difference. A 2-3 fold increase in BEC was observed in CB1-/- mice on days 10 and 11 after commencement of forced chronic pulmonary alcoholization in comparison with CB1+/+ mice, although comparable BEC values were assayed in both groups on day 12. In addition, these CB1-/- mice showed a significantly lower preference for ethanol than CB1+/+ mice. Conclusions: The studies on CB1-/- and CB1+/+ mice have clearly confirmed the involvement of CB1 receptor on ethanol induced behavioural effects and also revealed that CB1 receptors may be implicated in ethanol absorption/distribution, particularly after administration of high ethanol doses. [ABSTRACT FROM AUTHOR]

Published

2005

23. Expression of the cannabinoid receptor CB1 in distinct neuronal subpopulations in the adult mouse forebrain.

Author

Marsicano, Giovanni and Lutz, Beat

Subjects

CANNABINOIDS, PROSENCEPHALON, MICE, CYTOLOGY

Abstract

Abstract Cannabinoids can modulate motor behaviour, learning and memory, cognition and pain perception. These effects correlate with the expression of the cannabinoid receptor 1 (CB1) and with the presence of endogenous cannabinoids in the brain. In trying to obtain further insights into the mechanisms underlying the modulatory effects of cannabinoids, CB1-positive neurons were determined in the murine forebrain at a single cell resolution. We performed a double in situ hybridization study to detect mRNA of CB1 in combination with mRNA of glutamic acid decarboxylase 65k, neuropeptide cholecystokinin (CCK), parvalbumin, calretinin and calbindin D28k, respectively. Our results revealed that CB1-expressing cells can be divided into distinct neuronal subpopulations. There is a clear distinction between neurons containing CB1 mRNA either at high levels or low levels. The majority of high CB1-expressing cells are GABAergic (γ-aminobutyric acid) neurons belonging mainly to the cholecystokinin-positive and parvalbumin-negative type of interneurons (basket cells) and, to a lower extent, to the calbindin D28k-positive mid-proximal dendritic inhibitory interneurons. Only a fraction of low CB1-expressing cells is GABAergic. In the hippocampus, amygdala and entorhinal cortex area, CB1 mRNA is present at low but significant levels in many non-GABAergic cells that can be considered as projecting principal neurons. Thus, a complex mechanism appears to underlie the modulatory effects of cannabinoids. They might act on principal glutamatergic circuits as well as modulate local GABAergic inhibitory circuits. CB1 is very highly coexpressed with CCK. It is known that cannabinoids and CCK often have opposite effects on behaviour and physiology. Therefore, we suggest that a putative cross-talk between cannabinoids and CCK might exist and will be relevant to better understanding of physiology and pharmacology of the cannabinoid system. [ABSTRACT FROM AUTHOR]

Published

1999