Biochemical and pharmacological activities of SSR 146977, a new potent nonpeptide tachykinin NK3 receptor antagonist

SSR 146977 is a potent and selective antagonist of the tachykinin NK3 receptor. In Chinese hamster ovary cells expressing the human tachykinin NK3 receptor, SSR 146977 inhibited the binding of radioactive neurokinin B to NK3 receptors (Ki = 0.26 nM), senktide (10 nM) induced inositol monophosphate formation (IC50 = 7.8-13 nM), and intracellular calcium mobilization (IC50 = 10 nM). It antagonized [MePhe7]neurokinin B induced contractions of guinea pig ileum (pA2 = 9.07). Senktide (30 nM) induced firing rate increase of noradrenergic neurons in the guinea pig locus coeruleus and dopaminergic neurons in the guinea pig substantia nigra was also blocked by SSR 146977 (50 and 100 nM, respectively). In vivo, in the respiratory system, SSR 146977 inhibited bronchial hyperresponsiveness to acetylcholine, bronchial microvascular permeability hypersensitivity to histamine (doses of 0.1-1 mg/kg i.p.), and cough (doses of 0.03-1 mg/kg i.p.) provoked by citric acid in guinea pigs. In the central nervous system, SSR 146977 inhibited turning behaviour (ID50 = 0.2 mg/kg i.p. and 0.4 mg/kg p.o.) and prevented the decrease of locomotor activity (10 and 30 mg/kg i.p) mediated by the stimulation of NK3 receptors in gerbils. In guinea pigs, SSR 146977 antagonized senktide-induced acetylcholine release in the hippocampus (0.3 and 1 mg/kg i.p) and norepinephrine release in the prefrontal cortex (0.3 mg/kg i.p.). It also prevented haloperidol-induced increase of the number of spontaneously active dopamine A10 neurons (1 and 3 mg/kg i.p.).     

Activation of tachykinin,neurokinin 3 receptors affects chromatin structure and gene expression by means of histone acetylation

The tachykinin, neurokinin 3 receptor (NK3R) is a g-protein coupled receptor that is broadly distributed in the nervous system and exerts its diverse physiological actions through multiple signaling pathways. Despite the role of the receptor system in a range of biological functions, the effects of NK3R activation on chromatin dynamics and gene expression have received limited attention. The present work determined the effects of senktide, a selective NK3R agonist, on chromatin organization, acetylation, and gene expression, using qRT-PCR, in a hypothalamic cell line (CLU 209) that expresses the NK3R. Senktide (1 nM, 10 nM) caused a relaxation of chromatin, an increase in global acetylation of histone H3 and H4, and an increase in the expression of a common set of genes involved in cell signaling, cell growth, and synaptic plasticity. Pretreatment with histone acetyltransferase (HAT) inhibitor (garcinol and 2-methylene y-butylactone), that inhibits p300, p300/CREB binding protein (CBP) associated factor (PCAF), and GCN 5, prevented the senktide-induced increase in expression of most, but not all, of the genes upregulated in response to 1 nM and 10 nM senktide. Treatment with 100 nM had the opposite effect: a reduction in chromatin relaxation and decreased acetylation. The expression of four genes was significantly decreased and the HAT inhibitor had a limited effect in blocking the upregulation of genes in response to 100 nM senktide. Activation of the NK3R appears to recruit multiple pathways, including acetylation, and possibly histone deactylases, histone methylases, or DNA methylases to affect chromatin structure and gene expression.     

Estrogen-dependent regulation of neurokinin 3 receptor-mediated uterine contractility in the rat

The receptors for neurokinin 1 (NK1-R), neurokinin 2 (NK2-R), and neurokinin 3 (NK3-R) are expressed and functionally active in the uterus, promoting strong contractions of the myometrium. Previously, we demonstrated that myometrial contractility activated by the NK-Rs is regulated by estrogen. In the current study, we furthered our investigations of the role of estrogen in the regulation of NK3-R-mediated myometrial contractility. Estrogen promotes both heterologous and homologous desensitization of NK3-R-mediated uterine contractility. In tissue obtained from estrogen-dominated rats (ovariectomized estrogen-treated rats and rats in estrus), the magnitude of uterine contractions decreased in response to consecutive additions of the NK3-R-selective agonist senktide. By addition of the fourth dose of agonist, the contractile response was routinely barely above baseline. In contrast, in tissue obtained from non-estrogen-dominated rats consecutive doses of senktide resulted in contractions of identical magnitude. The homologous desensitization was specific to the NK3-R, and the desensitization of the NK3-R-mediated response did not affect the magnitude or nature of uterine contractions in response to NK1-R or NK2-R activation. Furthermore, heterologous and homologous desensitization of NK3-R-mediated contractility is dependent upon the duration of exposure to estrogen. This complex mechanism appears to be important in intact tissue; capsaicin-mediated release of endogenous neuropeptides resulted in a desensitization of response to subsequent stimulation with senktide in estrogen-dominated uterine tissue.     

Activation of the neurokinin 3 receptor promotes filopodia growth and sprouting in rat embryonic hypothalamic cells

Members of the tachykinin family have trophic effects on developing neurons. The tachykinin neurokinin 3 receptor (NK3R) appears early in embryonic development; during the peak birthdates of hypothalamic neurons, but its involvement in neural development has not been examined. To address its possible role, immortalized embryonic hypothalamic neurons (CLU209) were treated with CellMask, a plasma membrane stain, or the membranes were imaged in CLU209 cells that were transfected with a pEGFP‐NK3R expression vector. Nontransfected cells and transfected cells were then treated with senktide, a NK3R agonist, or Dulbecco's Modified Eagle's Medium (DMEM) and time‐lapse confocal images were captured for the following 30 min. Compared to DMEM, senktide treatment led to filopodia initiation from the soma of both nontransfected and transfected CLU209 cells. These filopodia had diameters and lengths of approximately 200 nm and 3 µm, respectively. Pretreatment with an IP3 receptor blocker, 2‐aminoethoxydiphenyl borate (2‐APB), prevented the senktide‐induced growth in filopodia; demonstrating that NK3R‐induced outgrowth of filopodia likely involves the release of intracellular calcium. Exposure of transfected CLU209 cells to senktide for 24 h led to further growth of filopodia and processes that extended 10–20 µm. A mathematical model, composed of a linear and population model was developed to account for the dynamics of filopodia growth during a timescale of minutes. The results suggest that the ligand‐induced activation of NK3R affects early developmental processes by initiating filopodia formation that are a prerequisite for neuritogenesis. © 2014 Wiley Periodicals, Inc. Develop Neurobiol 75: 12–22, 2015     

Conformational analysis of receptor selective tachykinin analogs: senktide and septide.

The conformational behavior in solution of two receptor selective tachykinin agonists, senktide (succinyl-D-F-MeF-G-L-M-NH2) and septide (pQ-F-F-P-L-M-NH2) is described. Two dimensional cross relaxation NMR spectroscopy is used together with coupling constant data to obtain interproton distance constraints. These results are used in conjunction with semi-empirical energy computations to indicate favorable conformations. Senktide is found to have a high degree of conformational order which is attributed to rotational restriction associated with the N-methylation of phenylalanine. The lowest energy conformation in accord with the experimental interproton distances contains a beta-turn. Interproton distances indicate that septide exists as a random coil or in an extended chain conformation. Energy computations suggest that septide is primarily an extended chain with internal reorientation restricted by the proline residue. These results may be related to the selectivity of these peptides for different receptors, in that the analogs, with conformations more stable than tachykinins, are more receptor selective.     

Cocaethylene: a neuropharmacologically active metabolite associated with concurrent cocaine-ethanol ingestion

High concentrations of cocaethylene (EC), the ethyl ester of benzoylecgonine, were measured in the blood of individuals who had concurrently used cocaine and ethanol. Since the powerful reinforcing effects of cocaine appear to be dependent on inhibition of dopamine reuptake in brain, we compared the effects of EC on the dopamine uptake system and its behavioral effects with those of cocaine. EC was equipotent to cocaine with respect to inhibition of binding of [3H]GBR 12935 to the dopamine reuptake complex, inhibition of [3H]dopamine uptake into synaptosomes and in its ability to increase extracellular dopamine concentration in the nucleus accumbens following its systemic administration to rats. Moreover, in rats, EC and cocaine each increased locomotor activity and rearing to the same extent following i.p. administration. In self-administration studies in primates, EC was approximately equipotent to cocaine in maintaining responding. The in vivo formation of this active, transesterified ethyl homolog of cocaine may contribute to the effects and consequences of combined cocaine and ethanol abuse.     

Conformational Analysis of Receptor Selective Tachykinin Analogs: Senktide and Septide

Abstract

The conformational behavior in solution of two receptor selective tachykinin agonists, senktide (succiny1-D-F-MeF-G-L-M-NH₂) and septide (pQ-F-F-P-L-M-NH₂) is described. Two dimensional cross relaxation NMR spectroscopy is used together with coupling constant data to obtain interproton distance constraints. These results are used in conjunction with semi-empirical energy computations to indicate favorable conformations. Senktide is found to have a high degree of conformational order which is attributed to rotational restriction associated with the N-methylation of phenylalanine. The lowest energy conformation in accord with the experimental interproton distances contains a β-turn. Interproton distances indicate that septide exists as a random coil or in an extended chain conformation. Energy computations suggest that septide is primarily an extended chain with internal reorientation restricted by the proline residue. These results may be related to the selectivity of these peptides for different receptors, in that the analogs, with conformations more stable than tachykinins, are more receptor selective.     

Cocaine Modulates Locomotion Behavior in C. elegans

Cocaine, a potent addictive substance, is an inhibitor of monoamine transporters, including DAT (dopamine transporter), SERT (serotonin transporter) and NET (norepinephrine transporter). Cocaine administration induces complex behavioral alterations in mammals, but the underlying mechanisms are not well understood. Here, we tested the effect of cocaine on C. elegans behavior. We show for the first time that acute cocaine treatment evokes changes in C. elegans locomotor activity. Interestingly, the neurotransmitter serotonin, rather than dopamine, is required for cocaine response in C. elegans. The C. elegans SERT MOD-5 is essential for the effect of cocaine, consistent with the role of cocaine in targeting monoamine transporters. We further show that the behavioral response to cocaine is primarily mediated by the ionotropic serotonin receptor MOD-1. Thus, cocaine modulates locomotion behavior in C. elegans primarily by impinging on its serotoninergic system.     

Deletion of the 5-HT(3A)-receptor subunit blunts the induction of cocaine sensitization

Serotonin (5-HT) receptors are classified into seven groups (5-HT_1–7), comprising at least 14 structurally and pharmacologically distinct receptor subtypes. Pharmacological antagonism of ionotropic 5-HT₃ receptors has been shown to modulate both behavioral and neurochemical aspects of the induction of sensitization to cocaine. It is not known, however, if specific molecular subunits of the 5-HT₃ receptor influence the development of cocaine sensitization. To address this question, we studied the effects of acute and chronic intermittent cocaine administration in mice with a targeted deletion of the gene for the 5-HT_3A-receptor subunit (5-HT_3A−/−). 5-HT_3A (−/−) mice showed blunted induction of cocaine-induced locomotor sensitization as compared with wild-type littermate controls. 5-HT_3A (−/−) mice did not differ from wild-type littermate controls on measures of basal motor activity or response to acute cocaine treatment. Enhanced locomotor response to saline injection following cocaine sensitization was observed equally in 5-HT_3A (−/−) and wild-type mice suggesting similar conditioned effects associated with chronic cocaine treatment. These data show a role for the 5-HT_3A-receptor subunit in the induction of behavioral sensitization to cocaine and suggest that the 5-HT_3A molecular subunit modulates neurobehavioral adaptations to cocaine, which may underlie aspects of addiction.     

Sensitivity to psychostimulants in mice bred for high and low stimulation to methamphetamine

Methamphetamine (MA) and cocaine induce behavioral effects primarily through modulation of dopamine neurotransmission. However, the genetic regulation of sensitivity to these two drugs may be similar or disparate. Using selective breeding, lines of mice were produced with extreme sensitivity (high MA activation; HMACT) and insensitivity (low MA activation; LMACT) to the locomotor stimulant effects of acute MA treatment. Studies were performed to determine whether there is pleiotropic genetic influence on sensitivity to the locomotor stimulant effect of MA and to other MA- and cocaine-related behaviors. The HMACT line exhibited more locomotor stimulation in response to several doses of MA and cocaine, compared to the LMACT line. Both lines exhibited locomotor sensitization to 2 mg/kg of MA and 10 mg/kg of cocaine; the magnitude of sensitization was similar in the two lines. However, the lines differed in the magnitude of sensitization to a 1 mg/kg dose of MA, a dose that did not produce a ceiling effect that may confound interpretation of studies using higher doses. The LMACT line consumed more MA and cocaine in a two-bottle choice drinking paradigm; the lines consumed similar amounts of saccharin and quinine, although the HMACT line exhibited slightly elevated preference for a low concentration of saccharin. These results suggest that some genes that influence sensitivity to the acute locomotor stimulant effect of MA have a pleiotropic influence on the magnitude of behavioral sensitization to MA and sensitivity to the stimulant effects of cocaine. Further, extreme sensitivity to MA may protect against MA and cocaine self-administration.     

Sex differences in cocaine-induced behavioral sensitization.

To further understand how sex differences affect the development and maintenance of sensitization, 48 adult Fischer rats (24 female and 24 male) received chronic administration (14 days) of cocaine (15 mg/kg, i.p.) or saline or a challenge dose (7 days after chronic cocaine administration). Sex differences were observed in the development and maintenance of cocaine-induced total locomotor, ambulatory and rearing activity. Although, overall cocaine administration increased stereotypic activity in both male and female rats, female rats had significantly higher stereotypic activity than male rats across the three behavioral test days (1, 7 and 14). Female rats had statistically significant higher benzoylecognine levels after acute cocaine administration than male rats. However, no differences between male and female rats in benzoylecognine plasma levels were observed after chronic and challenge doses of cocaine administration. Interestingly, after acute and challenge cocaine administration, corticosterone levels were significantly higher in female rats when compared to male rats. This study confirms previous reports that there are sex differences in the behavioral response to cocaine. Moreover, this study expands previous studies by demonstrating that sex differences occur in only certain aspects of cocaine-induced behavioral activation and the development and maintenance of cocaine-induced behavioral sensitization.     

Effect of subchronic administration of tachykinin antagonists on response of guinea-pigs to mild and severe stress

The effects of subchronic subcutaneous treatment with tachykinin receptor antagonists over nine days on the repeated mild stress response induced by daily subcutaneous injections and on the severe acute stress induced by morphine withdrawal were investigated in guinea-pigs. The NK(1) receptor antagonist, L733,060, 0.25mg/kg, significantly increased locomotor activity of guinea-pigs compared with animals subjected to repeated injection of the inactive enantiomer, but inhibited Fos-like immunoreactivity (Fos-LI) in the hypothalamus. In animals subjected to the acute severe stress of naltrexone-induced morphine withdrawal, treatment with the NK(1) antagonist, L733,060, produced reductions in Fos-LI in the spinal dorsal horn, whereas those treated with the NK(3) antagonist, SSR146,977, 0.3mg/kg, had reduced Fos-LI in the dorsal horn, adrenal medulla, nucleus accumbens, ventral tegmental area and periaqueductal grey. Those animals treated with both NK(1) and NK(3) antagonists also had reduced Fos-LI in the amygdala and paraventricular nucleus of the thalamus. It was concluded that the NK(1) antagonist reduced the hypothalamic response to mild stress but the NK(3) antagonist was more effective in reducing the severe stress response to morphine withdrawal. Furthermore, combination of NK(1) and NK(3) antagonists was more effective than either antagonist in reducing the Fos-LI response to morphine withdrawal.     

Does the response to cocaine differ as a function of sex or hormonal status in human and non-human primates?

Stimulant abuse continues to be a growing problem among women. Over the last 10-15 years, an increasing number of studies have focused on factors that may be implicated in stimulant abuse in women as compared to men, including the role of hormonal fluctuations across the menstrual cycle. Numerous preclinical studies have documented that female rodents are more sensitive than male rodents to the behavioral effects of stimulant administration and the hormone estradiol is involved in the enhanced response to stimulants observed in females. In contrast, fewer studies have been conducted in humans and non-human primates addressing the role of sex and gonadal hormones on the effects of cocaine. This review paper presents a recent update on data collected in our Human Cocaine Challenge Laboratory and our Non-human Primate Laboratory, including analysis of cocaine pharmacokinetics, sex differences, the menstrual cycle, and the role of progesterone in modulating the response to cocaine. Our studies indicate that there is minimal evidence that the response to intranasal cocaine varies across the menstrual cycle or between men and women. In contrast, the response to smoked cocaine is greater in the follicular phase than the luteal phase and differences between men and women generally only emerge when men are compared to women in the luteal phase. In terms of potential hormonal mechanisms for these differences, the hormone progesterone attenuates the subjective response to cocaine. With respect to cocaine self-administration, there are minimal changes across the menstrual cycle in both humans and non-human primates. Thus, there is converging evidence across a range of species that the behavioral effects of cocaine (1) differ between males and females, (2) differ in relation to hormonal fluctuations, (3) can be attenuated by progesterone (at least in females), and (4) do not appear to be related to differences in cocaine pharmacokinetics.     

Substrain specific behavioral responses in male C57BL/6N and C57BL/6J mice to a shortened 21-hour day and high-fat diet

ABSTRACT

Altered circadian rhythms have negative consequences on health and behavior. Emerging evidence suggests genetics influences the physiological and behavioral responses to circadian disruption. We investigated the effects of a 21 h day (T = 21 cycle), with high-fat diet consumption, on locomotor activity, explorative behaviors, and health in male C57BL/6J and C57BL/6N mice. Mice were exposed to either a T = 24 or T = 21 cycle and given standard rodent chow (RC) or a 60% high-fat diet (HFD) followed by behavioral assays and physiological measures. We uncovered numerous strain differences within the behavioral and physiological assays, mainly that C57BL/6J mice exhibit reduced susceptibility to the obesogenic effects of (HFD) and anxiety-like behavior as well as increased circadian and novelty-induced locomotor activity compared to C57BL/6N mice. There were also substrain-specific differences in behavioral responses to the T = 21 cycle, including exploratory behaviors and circadian locomotor activity. Under the 21-h day, mice consuming RC displayed entrainment, while mice exposed to HFD exhibited a lengthening of activity rhythms. In the open-field and light-dark box, mice exposed to the T = 21 cycle had increased novelty-induced locomotor activity with no further effects of diet, suggesting daylength may affect mood-related behaviors. These results indicate that different circadian cycles impact metabolic and behavioral responses depending on genetic background, and despite circadian entrainment.     

Impairment of the organization of locomotor and exploratory behaviors in bile duct-ligated rats

Hepatic encephalopathy (HE) arises from acute or chronic liver diseases and leads to several problems, including motor impairment. Animal models of chronic liver disease have extensively investigated the mechanisms of this disease. Impairment of locomotor activity has been described in different rat models. However, these studies are controversial and the majority has primarily analyzed activity parameters. Therefore, the aim of the present study was to evaluate locomotor and exploratory behavior in bile duct-ligated (BDL) rats to explore the spatial and temporal structure of behavior. Adult female Wistar rats underwent common bile duct ligation (BDL rats) or the manipulation of common bile duct without ligation (control rats). Six weeks after surgery, control and BDL rats underwent open-field, plus-maze and foot-fault behavioral tasks. The BDL rats developed chronic liver failure and exhibited a decrease in total distance traveled, increased total immobility time, smaller number of rearings, longer periods in the home base area and decreased percentage of time in the center zone of the arena, when compared to the control rats. Moreover, the performance of the BDL rats was not different from the control rats for the elevated plus-maze and foot-fault tasks. Therefore, the BDL rats demonstrated disturbed spontaneous locomotor and exploratory activities as a consequence of altered spatio-temporal organization of behavior.     

Resveratrol suppresses body mass gain in a seasonal non-human primate model of obesity

Background  

Resveratrol, a natural polyphenolic compound, was shown to protect rodents against high-fat-diet induced diabesity by boosting energy metabolism. To the best of our knowledge, no data is yet available on the effects of resveratrol in non-human primates. Six non-human heterotherm primates (grey mouse lemurs, Microcebus murinus) were studied during four weeks of dietary supplementation with resveratrol (200 mg/kg/day) during their winter body-mass gain period. Body mass, spontaneous energy intake, resting metabolic rate, spontaneous locomotor activity and daily variations in body temperature were measured. In addition, the plasma levels of several gut hormones involved in satiety control were evaluated.     

The effects of Coenzyme Q10 on locomotor and behavioral activity in young and aged C57BL/6 mice

To explore the possibility that Coenzyme Q10 (CoQ10) supplementation stabilizes psychomotor behavioral function in the aging organism, the behavioral effects of CoQ10 were evaluated in young adult male C57BL/6 mice (3 months of age) and aged C57BL/6 mice (24 months of age). Mice treated with CoQ10 exhibited significantly greater locomotor activity as reflected by an increase in square crosses than non-drug controls. The administration of CoQ10 increased all aspects of exploratory behavior in the open field. The effect was uniform across all mice and did not interact with age. Younger animals and aged animals treated with CoQ10 may adapt rapidly to novel areas, or they are less fearful of exploration. The behavioral activation observed in CoQ10 treated mice may be the result of increased locomotor activity, psychomotor stimulation, or decreased anxiety.