Effect of adrenalectomy and corticosterone replacement on prepulse inhibition and locomotor activity in mice

1 Stress is a risk factor in psychiatric illnesses such as schizophrenia. The aim of the present study was to investigate the effect of different circulating levels of the adrenal steroid corticosterone (CORT) on locomotor hyperactivity and prepulse inhibition of acoustic startle, two behavioural animal models of aspects of schizophrenia. 2 Male C57BL/6J mice (n=10 per group) were anaesthetised with isoflurane and sham-operated or adrenalectomised (ADX). ADX mice were implanted with 50 mg pellets consisting of 100% cholesterol, or 2, 10 or 50 mg of CORT mixed with cholesterol. CORT pellet implantation dose dependently increased plasma CORT levels 3 weeks after surgery. Starting 1 week after surgery, mice were tested for prepulse inhibition after injection of saline or 5 mg kg(-1) of haloperidol. 3 In intact mice and in mice implanted with 10 mg of CORT, haloperidol treatment significantly increased prepulse inhibition (average values from 38 - 42 to 52%). Similar results were observed when testing the mice for amphetamine-induced locomotor hyperactivity (5 mg kg(-1)). In contrast, there was no significant effect of haloperidol in mice implanted either with cholesterol or 2 or 50 mg of CORT. 4 These results in behavioural animal models of schizophrenia suggest an important role of the stress hormone CORT in modulating dopaminergic activity in this illness.     

Effects of α4/β2- and α7-nicotine acetylcholine receptor agonists on prepulse inhibition of the acoustic startle response in rats and mice

RATIONALE: Nicotine and agonists at subtypes of the nicotine acetylcholine receptor (nAChR) affect auditory gating, but the magnitude and direction of such effects appear highly variable. This variability may be due to differences in the tested dose range, selectivity of the test compound, species and strain, and suggests that nAChR subtypes are differentially involved in the control of auditory gating. OBJECTIVES AND METHODS: This study aimed to characterise the effects of nicotine and agonists with preferential activity at alpha4/beta2- and alpha7-nAChRs on auditory sensorimotor gating using a prepulse inhibition (PPI) paradigm. Similar experimental conditions were employed in rats and two strains of mice. The paradigm used startle stimuli of 120 dB and prepulse intensities of 3, 6 and 12 dB above a background of 70 dB. RESULTS: In Sprague-Dawley rats, nicotine disrupted PPI [minimal effective dose (MED): 1 mg/kg, SC] and this effect was mimicked by the potent nAChR agonist, epibatidine, (MED: < or = 0.001 mg/kg, IP) and the potent, and relatively selective, alpha4/beta2-nAChR agonist A-85380 (MED: < or = 0.1 mg/kg, IP). The effects of epibatidine, A-85380 and, to a lesser extent, nicotine were blocked by the non-selective nAChR antagonist mecamylamine. The relatively selective alpha7-nAChR agonists, GTS-21 and AR-R-17779, did not affect PPI in a consistent manner, both in rats and in DBA/2 mice, a strain expressing a disrupted gating phenotype, presumably due to altered activity of hippocampal alpha7-nAChRs. In BALB/c mice, a strain expressing a normal gating phenotype, nicotine (MED: 10 mg/kg, SC), epibatidine (MED: 0.03 mg/kg, IP) and A-85380 (MED: 0.3 mg/kg, IP) predominantly augmented PPI and mecamylamine attenuated these effects. CONCLUSIONS: The present results confirm that the effects of nAChR agonists on PPI are species dependent and suggest that stimulation of heteromeric nAChRs containing both alpha and beta subunits, and possibly of the alpha4/beta2 type, affect sensorimotor gating. Evidence supporting a role for alpha7-nAChRs in the control of PPI of the acoustic startle response was not obtained.     

Chronic corticosterone treatment alters sensory gating in C3H mice

Two methods of evaluating inhibitory sensory processing are prepulse inhibition of acoustic startle (PPI) and gating of auditory evoked potentials. Studies using both methods suggest nicotinic acetylcholinergic receptor modulation of gating, specifically the alpha-bungarotoxin (alpha-BTX) binding site (alpha7 receptor subtype). However, recent assessment of alpha7 null mutant mice failed to demonstrate any effect of the loss of this receptor in either gating paradigm. An alternate approach to assessing the effects of the alpha7 receptor is to reduce its numbers in mature inbred mice, thus, avoiding the twin problems of background and developmental compensation inherent in null mutant mouse studies. Numerous studies have shown that chronic corticosterone (CCS) treatment selectively reduces alpha-BTX binding sites. C3H mice were adrenalectomized and implanted with corticosterone or cholesterol (control) pellets. After 8 days, they were tested in one of the gating paradigms. PPI and auditory gating were significantly diminished in corticosterone-treated mice concomitant with a reduction in alpha-BTX binding in several brain regions. Cholesterol-treated mice had no change in either paradigm. Nicotine treatment (1 mg/kg) produced significant improvement in both paradigms in corticosterone-treated mice. These data agree with previous pharmacological studies suggesting modulation of gating occurs through a nicotinic receptor.     

Affective and somatic aspects of spontaneous and precipitated nicotine withdrawal in C57BL/6J and BALB/cByJ mice

The aversive aspects of nicotine withdrawal are powerful motivational forces contributing to the tobacco smoking habit. We evaluated measures of affective and somatic aspects of nicotine withdrawal in C57BL/6J and BALB/cByJ mice. Nicotine withdrawal was induced by termination of chronic nicotine delivery through osmotic minipumps or precipitated with the nicotinic acetylcholine receptor (nAChR) antagonists mecamylamine or dihydro-beta-erythroidine (DHbetaE). A rate-independent discrete-trial intracranial self-stimulation threshold procedure was used to assess brain reward function. Anxiety-like behavior and sensorimotor gating were assessed in the light-dark box and prepulse inhibition (PPI) tests, respectively. Acoustic startle response and somatic signs of withdrawal were also evaluated. Spontaneous nicotine withdrawal after 14-day exposure to 10-40 mg/kg/day nicotine induced no alterations in anxiety-like behavior, startle reactivity, PPI, or somatic signs in either strain, and no changes in thresholds in C57BL/6J mice. Extended 28-day exposure to 40 mg/kg/day nicotine induced threshold elevations, increased somatic signs, and anxiety-like behavior 24 h post-nicotine in C57BL/6J mice; thresholds returned to baseline levels by day 4 in nicotine-exposed mice. Mecamylamine or DHbetaE administration induced threshold elevations in nicotine-exposed C57BL/6J mice compared with saline-exposed mice. In conclusion, administration of relatively high nicotine doses over prolonged periods of time induces both the affective and somatic aspects of spontaneous nicotine withdrawal in the mouse, while exposure to nicotine for shorter periods of time is sufficient for nAChR antagonist-precipitated nicotine withdrawal. The current study is one of the first to demonstrate reward deficits associated with both spontaneous and nAChR antagonist-precipitated nicotine withdrawal in C57BL/6J mice.     

Stress-induced cross-sensitization to cocaine: effect of adrenalectomy and corticosterone after short- and long-term withdrawal

 We have recently shown that adrenalectomy (ADX) in rats blocks the appearance of cocaine-induced sensitization when this behavioral response is tested at early withdrawal times (1–2 days), but not after later withdrawal from cocaine (12 days). To determine if a similar phenomenon occurred with stress-induced sensitization, male Sprague-Dawley rats were given a sham ADX, ADX surgery, or ADX plus SC implanted corticosterone (CORT) pellets (CORT 12.5% pellets or CORT 50% pellets). A fifth group was given ADX surgery, but CORT 50% pellets were implanted after repeated stress treatment. One week after surgery, each group was divided into two additional groups, naive and stress. Naive animals remained unhandled, while stress rats were given a variety of daily stressors administered twice per day for 6 consecutive days. One day after the last stress, rats were given a saline injection followed by a cocaine injection (15 mg/kg, IP) the next day, and locomotor activity was monitored (early withdrawal). Two weeks after the last stress, the locomotor responses to an additional saline and cocaine injection were monitored (late withdrawal). At early withdrawal, no significant sensitization occurred for horizontal activity, but cross-sensitization was demonstrated for vertical activity. At late withdrawal, sham controls showed a stress-induced elevation in horizontal activity, with only a trend toward increased vertical activity. Animals given ADX surgery or ADX and CORT 12.5% pellets did not demonstrate sensitization to repeated stress, while CORT 50% pellets in ADX rats restored the sensitized horizontal response to cocaine challenge at late withdrawal. In contrast, stress-pretreated rats which were given CORT 50% pellets during the 2-week withdrawal period after the stress showed a marked decrease in horizontal activity in response to cocaine challenge at late withdrawal. The results provide evidence for a necessary role for adrenal hormones in long term, but not short-term, stress-induced cross-sensitization. Together with our previous study on the role of CORT in cocaine-induced sensitization, the results indicate that CORT is not the common factor mediating the long-term sensitization to cocaine and stress. Received: 10 April 1997 / Final version: 19 August 1997     

Consequence of long-term exposure to corticosterone or dexamethasone on ethanol consumption in the adrenalectomized rat,and the effect of type I and type II corticosteroid receptor antagonists

The daily fluid intake of male Wistar rats with simultaneous access to 6% ethanol and water was determined during a baseline period (1 week), following adrenalectomy (1 week) and for 3 weeks following SC implantation of hormone pellets containing corticosterone (CORT) or dexamethasone (DEX). Ethanol consumption dropped during the first week of adrenalectomy (ADX) but increased again in the absence of hormone replacement to reach preoperative levels during the ensuing weeks. The CORT treatment, which produced plasma hormone levels similar to the 24-h mean concentration of adrenally intact rats, not only reversed the effect of ADX on alcohol consumption but also enhanced it to levels above those observed in intact rats. Water intake was not affected by the CORT treatment. DEX implants stimulated water intake, but did not enhance the drinking of ethanol. SC injections of RU 28318 (type I corticosterone receptor antagonist; 10 mg/kg) or mifepristone (RU 38486; type II receptor antagonist; 25 mg/kg) at the beginning and halfway through three daily, 6-h tests failed to affect ethanol drinking in adrenally intact rats or in ADX rats bearing CORT implants. Similarly, there was no effect of giving the two antagonists in combination. These results suggest that exogenous CORT can induce excessive alcohol intake in genetically unselected rats and that this facilitatory effect may be mediated by non-genomic cellular mechanisms.     

Dose-related neuroprotective effects of chronic nicotine in 6-hydroxydopamine treated rats, and loss of neuroprotection in alpha4 nicotinic receptor subunit knockout mice

The present study examined the effect of a range of doses of chronic nicotine (0.75, 1.5, 3.0 and 30.0 mg kg(-1) day(-1), s.c., 14 days) upon striatal dopaminergic nerve terminal survival following 6-hydroxydopamine (6-OHDA; 10 microg intrastriatal unilaterally) in rats; and the effects of acute nicotine (1 mg kg(-1), s.c.) pretreatment upon striatal neurodegeneration induced by methamphetamine (5 mg kg(-1), i.p., three doses at 2 h intervals) in wild-type and alpha4 nicotinic receptor (nAChR) subunit knockout mice. In both models of Parkinsonian-like damage, loss of striatal dopaminergic nerve terminals was assessed by [(3)H]-mazindol autoradiography. In rats, chronic nicotine infusion delivered by osmotic minipump implanted subcutaneously 7 days prior to intrastriatal 6-OHDA injection produced significant and dose-related protection against 6-OHDA-induced neurodegeneration. Low (0.75 and 1.5 mg kg(-1) day(-1)) but not high (3.0 and 30.0 mg kg(-1) day(-1)) nicotine doses significantly inhibited 6-OHDA-induced degeneration. In wild-type mice, acute nicotine treatment produced significant inhibition of methamphetamine-induced neurodegeneration. In alpha4 nAChR subunit knockout mice, acute nicotine treatment failed to inhibit methamphetamine-induced neurodegeneration. Nicotine is capable of protecting dopaminergic neurons against Parkinsonian-like neurodegeneration in vivo. In rats, this neuroprotective effect is critically dependent upon nicotine dose and is consistent with the activation of nAChRs, as high, desensitizing doses of nicotine fail to be neuroprotective. Further, neuroprotection is absent in alpha4 nAChR subunit knockout mice. The current results therefore suggest that activation of alpha4 subunit containing nAChRs constitutes a major component of the neuroprotective effect of nicotine upon Parkinsonian-like damage in vivo.     

Chronic corticosterone administration modulates nicotine sensitivity and brain nicotinic receptor binding in C3H mice

Glucocorticoid regulation of nicotine sensitivity was investigated in adrenalectomized (ADX) and sham-operated C3H mice administered chronic corticosterone (CCS) replacement therapy. Hormone pellets (60% CCS or pure cholesterol) were implanted at the time of surgery and animals were tested for nicotine sensitivity in a battery of behavioral and physiological tests. ADX-induced increases in nicotine sensitivity were reversed by chronic CCS replacement. Sham-operated animals that received CCS supplementation were subsensitive to the effects of nicotine. In both ADX and sham-operated animals, chronic CCS administration induced a decrease in the number of CNS nicotinic cholinergic receptors labeled by alpha-[¹²⁵I]-bungarotoxin. Binding was decreased by 30–60% depending on brain region; no changes in affinity (K _d ) were detected. The number of brain nicotinic sites labeled by [³H]-nicotine was unaltered following 1 week of chronic CCS administration. These data support the hypothesis that glucocorticoids modulate nicotine sensitivity in the C3H mouse. In animals chronically treated with CCS, nicotine tolerance may be due to CCS-induced changes in nicotinic cholinergic receptor binding or the presence of high CCS titers at the time of testing.     

Long-term nicotine treatment decreases striatal alpha 6* nicotinic acetylcholine receptor sites and function in mice

Alpha-conotoxin MII-sensitive nicotinic acetylcholine receptors (nAChRs) are distinct from other subtypes in their relatively restricted localization to the striatum and some other brain regions. The effect of nicotine treatment on nAChR subtypes has been extensively investigated, with the exception of changes in alpha-conotoxin MII-sensitive receptor expression. We therefore determined the consequence of long-term nicotine administration on this subtype and its function. Nicotine was given in drinking water to provide a long-term yet intermittent treatment. Consistent with previous studies, nicotine exposure increased 125I-epibatidine and 125I-A85380 (3-[2-(S)-azetidinylmethoxy]pyridine), but not 125I-alpha-bungarotoxin, receptors in cortex and striatum. We observed an unexpected reduction (30%) in striatal 125I-alpha-conotoxin MII sites, which occurred because of a decrease in B(max). This decline was more robust in older (>8-month-old) compared with younger (2-4-month-old) mice, suggesting age is important for nicotine-induced disruption of nAChR phenotype. Immunoprecipitation experiments using nAChR subunit-directed antibodies indicate that alterations in subunit-immunoreactivity with nicotine treatment agree with those in the receptor binding studies. To determine the relationship between striatal nAChR sites and function, we measured nicotine-evoked [3H]dopamine release. A decline was obtained with nicotine treatment that was caused by a selective decrease in alpha-conotoxin MII-sensitive but not alpha-conotoxin MII-resistant dopamine release. These results may explain previous findings that nicotine treatment decreased striatal nAChR-mediated dopamine function, despite an increase in [3H]nicotine (alpha4*) sites. The present data suggest that the alpha6* nAChR subtype represents a key factor in the control of dopamine release from striatum, which adapts to long-term nicotine treatment by down-regulation of alpha6* receptor sites and function.     

Acute stress or corticosterone administration reduces responsiveness to nicotine: implictions for a mechanism of conditioned tolerance

We have shown that conditioned tolerance develops to some of the behavioral and endocrine effects of nicotine in rats. Other investigators have suggested that tolerance to multiple nicotine injections in mice may be due, in part, to elevated plasma corticosterone (CORT) levels, since repeated nicotine injections are associated with elevated CORT,chronically elevated CORT reduces nicotine responsiveness and adrenalectomy disrupts nicotine tolerance. Three experiments tested the feasibility of this hypothesis, as a mechanism for conditioned nicotine tolerance in rats, by determining whetheracute administration of CORT or manipulations that increase adrenocortical activity reduce nicotine responsiveness. In experiment 1, male rats were injected IP with CORT (1 mg/kg), vehicle (ETOH + distilled water) or no injection 10 min before nicotine (0.75 mg/kg, SC) and tested for nicotine-induced analgesia every other day for 10 days. A significant reduction in withdrawal latencies was obtained for CORT pretreated rats compared to animals given only nicotine. A similar reduction was produced by the vehicle pretreatment, which itself induced an elevation of endogenous CORT. Experiments 2 and 3 established that similar effects could be produced by doses of CORT as low as 0.125 mg/kg or by exposure to a novel environment which also elevated CORT levels. Results also suggest that a conditioned release of endogenous CORT was triggered by stimuli associated with nicotine delivery. These data are consistent with the hypothesis that a conditioned release of CORT could contribute to the development of tolerance to some of nicotine's effects. The possibility that other neuroendocrine mediators might be involved in addition to or instead of CORT, is also discussed.     

Long-term nicotine treatment differentially regulates striatal alpha6alpha4beta2* and alpha6(nonalpha4)beta2* nAChR expression and function

Nicotine treatment has long been associated with alterations in alpha4beta2(*) nicotinic acetylcholine receptor (nAChR) expression that modify dopaminergic function. However, the influence of long-term nicotine treatment on the alpha6beta2(*) nAChR, a subtype specifically localized on dopaminergic neurons, is less clear. Here we used voltammetry, as well as receptor binding studies, to identify the effects of nicotine on striatal alpha6beta2(*) nAChR function and expression. Long-term nicotine treatment via drinking water enhanced nonburst and burst endogenous dopamine release from rat striatal slices. In control animals, alpha6beta2(*) nAChR blockade with alpha-conotoxin MII (alpha-CtxMII) decreased release with nonburst stimulation but not with burst firing. These data in control animals suggest that varying stimulus frequencies differentially regulate alpha6beta2(*) nAChR-evoked dopamine release. In contrast, in nicotine-treated rats, alpha6beta2(*) nAChR blockade elicited a similar pattern of dopamine release with nonburst and burst firing. To elucidate the alpha6beta2(*) nAChR subtypes altered with long-term nicotine treatment, we used the novel alpha-CtxMII analog E11A in combination with alpha4 nAChR knockout mice. (125)I-alpha-CtxMII competition studies in striatum of knockout mice showed that nicotine treatment decreased the alpha6alpha4beta2(*) subtype but increased the alpha6(nonalpha4)beta2(*) nAChR population. These data indicate that alpha6beta2(*) nAChR-evoked dopamine release in nicotine-treated rats is mediated by the alpha6(nonalpha4)beta2(*) nAChR subtype and suggest that the alpha6alpha4beta2(*) nAChR and/or alpha4beta2(*) nAChR contribute to the differential effect of higher frequency stimulation on dopamine release under control conditions. Thus, alpha6beta2(*) nAChR subtypes may represent important targets for smoking cessation therapies and neurological disorders involving these receptors such as Parkinson's disease.     

Decreased withdrawal symptoms but normal tolerance to nicotine in mice null for the alpha7 nicotinic acetylcholine receptor subunit

Withdrawal symptoms are a major deterrent when people try to quit smoking. The alpha7 subunit of the neuronal nicotinic acetylcholine receptor (nAChR) is highly expressed in the brain, and has been suspected to play a major role in nicotine addiction. We studied the influence of alpha7-containing nAChRs on nicotine withdrawal and tolerance, in wild type mice and mice null for the alpha7 nAChR subunit (alpha7 -/-). For withdrawal experiments, animals were implanted with osmotic minipumps delivering nicotine for 13 days. A single intraperitoneal injection of the nAChR antagonists mecamylamine (MEC) or methyllycaconitine (MLA) was used to precipitate withdrawal. In wild type mice, both MEC- and MLA-precipitated somatic signs of withdrawal such as increased grooming, scratching and shaking. In alpha7 -/- mice, the somatic effects of MEC-precipitated nicotine withdrawal were significantly reduced. Interestingly, the presumed alpha7-specific antagonist MLA also precipitated withdrawal. Tolerance, which was measured as a decrease in nicotine-induced hypolocomotion after subchronic nicotine treatment, was normal in alpha7 -/- mice. Finally, because anxiety and withdrawal symptoms are highly correlated in humans, we studied anxiety-like behaviors in alpha7 -/- mice using a battery of anxiety-related tests. The behavior of alpha7 -/- mice was indistinguishable from that of control mice. Our results point to the alpha7 subunit as one of the players in nicotine withdrawal, but not in nicotine tolerance or basal anxiety-like behavior.     

The duration of nicotine withdrawal-associated deficits in contextual fear conditioning parallels changes in hippocampal high affinity nicotinic acetylcholine receptor upregulation

A predominant symptom of nicotine withdrawal is cognitive deficits, yet understanding of the neural basis for these deficits is limited. Withdrawal from chronic nicotine disrupts contextual learning in mice and this deficit is mediated by direct effects of nicotine in the hippocampus. Chronic nicotine treatment upregulates nicotinic acetylcholine receptors (nAChR); however, it is unknown whether upregulation is related to the observed withdrawal-induced cognitive deficits. If a relationship between altered learning and nAChR levels exists, changes in nAChR levels after cessation of nicotine treatment should match the duration of learning deficits. To test this hypothesis, mice were chronically administered 6.3mg/kg/day (freebase) nicotine for 12 days and trained in contextual fear conditioning on day 11 or between 1 to 16 days after withdrawal of treatment. Changes in [(125)I]-epibatidine binding at cytisine-sensitive and cytisine-resistant nAChRs and chronic nicotine-related changes in α4, α7, and β2 nAChR subunit mRNA expression were assessed. Chronic nicotine had no behavioral effect but withdrawal produced deficits in contextual fear conditioning that lasted 4 days. Nicotine withdrawal did not disrupt cued fear conditioning. Chronic nicotine upregulated hippocampal cytisine-sensitive nAChR binding; upregulation continued after cessation of nicotine administration and the duration of upregulation during withdrawal paralleled the duration of behavioral changes. Changes in binding in cortex and cerebellum did not match behavioral changes. No changes in α4, α7, and β2 subunit mRNA expression were seen with chronic nicotine. Thus, nicotine withdrawal-related deficits in contextual learning are time-limited changes that are associated with temporal changes in upregulation of high-affinity nAChR binding.     

The role of corticosterone in food deprivation-induced reinstatement of cocaine seeking in the rat

Rational and objectives. Acute 1-day food deprivation stress reinstates heroin seeking in rats, but the generality of this effect to other drugs, and its underlying mechanisms, are largely unknown. Here we studied whether food deprivation would reinstate cocaine seeking and whether the stress hormone, corticosterone, is involved in this effect. Methods. Rats were trained to press a lever for cocaine for 10–12 days (0.5–1.0 mg/kg per infusion, IV, 4 h/day) and were then divided into four groups that underwent different manipulations of plasma corticosterone levels: (1) bilateral adrenalectomy (ADX) surgery, (2) ADX surgery+50-mg corticosterone pellets (ADX+P), (3) ADX surgery+50-mg corticosterone pellets+4-h access (0800–1200 hours) to corticosterone (50 μg/ml) dissolved in a drinking solution (ADX+P/W), or (4) sham surgery. Next, rats were given 7–12 days of extinction training (during which lever presses were not reinforced with cocaine), and after reaching an extinction criterion they were tested for reinstatement of cocaine seeking following exposure to 21 h of food deprivation. Results. Food deprivation was found to reinstate cocaine seeking in sham-operated rats, but not in rats in which circulating corticosterone was removed (ADX group). In addition, the effect of food deprivation on reinstatement of cocaine seeking was significantly attenuated in rats maintained on basal diurnal levels of corticosterone (ADX+P group). However, food deprivation reinstated cocaine seeking in rats with limited daily access to additional corticosterone in the drinking water (ADX+P/W group). In this group, corticosterone levels were twice as high as the ADX+P group but were significantly lower than those of sham rats. Conclusions. The present data, together with previous work on footshock-induced reinstatement of drug seeking, suggest that corticosterone plays a permissive role in stress-induced reinstatement of cocaine seeking, yet its effects are not associated with the stressor-induced increases in plasma corticosterone levels.     

Adrenalectomy attenuates nicotine-induced dopamine release and locomotor activity in rats

Adrenalectomy (ADX) in mice can potentiate several physiological and behavioural responses to nicotine. The present experiments sought to examine this issue in the rat by characterising the influence of ADX upon the locomotor depressant, activating and dopamine-releasing properties of nicotine. Nicotine (0.8–1.2 mg/kg SC) dose-dependently depressed locomotor activity, an effect that was potentiated by ADX, while the locomotor activating effects of a smaller dose (0.4 mg/kg) were attenuated by ADX. In both SHAM and ADX rats chronically treated with nicotine for 5 days (daily injections of 0.4 mg/kg SC), the locomotor depressant effects of nicotine did not differ from saline-treated controls. Nicotine (0.4 mg/kg SC) increased extracellular levels of dopamine in the nucleus accumbens. This response was unaffected in rats pretreated with nicotine for 5 days (daily injections of 0.4 mg/kg SC). However, both ADX groups of rats showed smaller increases in dopamine following administration of nicotine. The results suggest that depletion of circulating corticosteroids can modulate sensitivity to nicotine in rats. The suppressant effects of ADX on nicotine-induced locomotor activity may be due to its effects on dopamine release in the nucleus accumbens. Received: 13 July 1995/Final version: 28 July 1996     

Activation of glucocorticoid receptors and the effect of naloxone during hemorrhagic hypotension.

Evidence indicates that endogenous opioid peptides and glucocorticoids participate in the control of cardiovascular regulation during hemorrhagic shock. In the present study, we investigated a possible interaction between brain opioid peptides and adrenal corticosteroids regarding the control of arterial pressure during hemorrhage. The bleeding volumes required to lower arterial pressure to 80, 60 and 40 mmHg were studied in anesthetized sham-operated (SHAM) and adrenalectomized (ADX) rats. I.c.v. administration of 10 micrograms of naloxone resulted in a significant increase in the bleeding volume required to lower arterial pressure from 60 to 40 mmHg in SHAM animals, whereas no effect of naloxone was observed in ADX animals. Replacement therapy with a 100% corticosterone pellet (100 mg, s.c.), but not with a 12.5% corticosterone pellet (12.5 mg corticosterone and 87.5 mg cholesterol, s.c.), resulted in an effect of naloxone on the bleeding volume in ADX animals. The effect of replacement therapy could be inhibited by i.c.v. pretreatment with the synthetic glucocorticoid receptor antagonist, RU38486 (100 ng). These data suggest that (1) opioid mechanisms are involved in the regulation of blood pressure during hemorrhage, and (2) occupancy of glucocorticoid receptors is required for naloxone to exert its hemodynamic effect during hemorrhagic hypotension in ADX rats.     

Pharmacology of alpha-conotoxin MII-sensitive subtypes of nicotinic acetylcholine receptors isolated by breeding of null mutant mice

Subtypes of nicotinic acetylcholine receptors (nAChR) containing alpha6 subunits comprise 25 to 30% of the presynaptic nAChRs expressed in striatal dopaminergic terminals in rodents and 70% in monkeys. This class of receptors, potentially important in nicotine addiction, binds alpha-conotoxin MII (alpha-CtxMII) with high affinity and is heterogeneous, consisting of several subtypes in mice, possibly an important consideration for the design of compounds that selectively activate or antagonize the alpha6 subclass of nAChRs. Selected-null mutant mice were bred to generate isolated subtypes of alpha6beta2* nAChRs expressed in vivo for assessing pharmacology of alpha6beta2* nAChRs. Binding to striatal membranes and function in synaptosomes from (alpha4-/-)(beta3+/+) and (alpha4-/-)(beta3-/-) mice were measured and compared with wild-type (alpha4+/+)(beta3+/+) mice. Gene deletions (alpha4 and beta3) decreased binding of (125)I-alpha-CtxMII without affecting affinity for alpha-CtxMII or inhibition of alpha-CtxMII binding by epibatidine or nicotine. Deletion of the alpha4 subunit substantially increased EC(50) values for both nicotine- and cytisine-stimulated alpha-CtxMII-sensitive dopamine release from striatal synaptosomes. A further increase in EC(50) values was seen upon the additional deletion of the beta3 subunit. The data indicate that one alpha-CtxMII-sensitive nAChR subtype, prevalent on wild-type dopaminergic terminals, has the lowest EC(50) for a nicotine-mediated function so far measured in mice. In conclusion, the gene deletion strategy enabled isolation of alpha6* subtypes, and these nAChR subtypes exhibited differential activation by nicotine and cytisine.     

Adrenalectomy reverses chronic injection-induced tolerance to nicotine

A recent study from our laboratory has demonstrated that C57BL/6 male mice that are chronically injected with nicotine develop a profound tolerance to nicotine that is not associated with changes in brain nicotinic receptors. We have proposed that alterations in the secretion of corticosterone (CCS) may regulate tolerance development in chronically injected animals. In the present study we have directly tested this hypothesis. Female DBA/2 mice were injected three times each day for 12 days with saline or 2 mg/kg nicotine. Blood samples were collected at various time points during the course of treatment and plasma CCS levels were determined. The animals were divided into two groups following the last injection on day 12. The first group of animals was tested for nicotine-induced release of corticosterone on day 13 of the experiment and then sacrificed. The brains of these animals were subsequently used to measure nicotinic receptor binding. The second group of animals was adrenalectomized (ADX) or sham-operated on day 13 of the experiment and tested for nicotine sensitivity on day 14 of the experiment. Plasma CCS levels were significantly elevated in animals that were chronically injected with nicotine (versus saline controls) by the fourth day of the experiment. Chronic nicotine-injected animals were tolerant to nicotine-induced CCS release. Animals that were chronically injected with nicotine and sham-operated were tolerant to acute nicotine challenge; however, tolerance to nicotine was not detected in ADX animals. These data support the hypothesis that the capacity to release CCS may underscore the expression of tolerance to nicotine in chronically injected animals.     

Exposure of the amygdala to elevated levels of corticosterone alters colonic motility in response to acute psychological stress

The amygdala is important for integrating the emotional, endocrine and autonomic responses to stress. Exposure of the amygdala to elevated levels of corticosterone (CORT) induces anxiety-like behavior and a hypersensitive colon in rodents; however, effects on colonic transit are unknown. Micropellets releasing CORT alone or combined with a selective glucocorticoid (GR) or mineralocorticoid (MR) receptor antagonist were implanted bilaterally at the dorsal boundary of the central amygdala in male rats. Inactive cholesterol implants served as controls. Seven days later, rats received water avoidance stress (WAS) for 1 h and the fecal pellet output was measured. Colorectal transit was also evaluated following the stressor by recording the time for expulsion of a glass bead placed into the colorectum. Plasma CORT levels were evaluated before WAS, after 60 min of WAS and 90 min post-WAS. Exposure of the amygdala to elevated CORT did not alter daily fecal pellet production or the number of fecal pellets released in response to WAS. However, following WAS, rats with CORT implants on the amygdala showed a delay in colorectal transit compared to cholesterol-implanted controls. Plasma CORT measurements showed that basal and WAS-induced increases in plasma CORT were similar in all groups but a prolonged increase in plasma CORT was observed 90 after cessation of WAS in rats with CORT implants. The post-WAS changes in colonic motility and plasma CORT were prevented by antagonism of GR or MR in the amygdala, suggesting their importance in driving stress-associated changes in colonic motility.     

Moderate differences in circulating corticosterone alter receptor-mediated regulation of 5-hydroxytryptamine neuronal activity

Circulating glucocorticoid levels vary with stress and psychiatric illness and play a potentially important role in regulating transmitter systems that regulate mood. To determine whether chronic variation in corticosterone levels within the normal diurnal range altered the control of 5-hydroxytryptamine (5-HT) neuronal activity, male rats were adrenalectomized and implanted with either a 2% or 70% corticosterone/cholesterol pellet (100 mg). Two weeks later, the regulation of 5-HT neuronal activity in the dorsal raphe nucleus was studied by in vitro electrophysiology. At this time, serum corticosterone levels approximated the low-point (2%) and mid-point (70%) of the diurnal range. The excitatory response of 5-HT neurones to the alpha1-adrenoceptor agonist phenylephrine (1-11 microM) was significantly greater in the 2% group compared to the 70% group. By contrast, the inhibitory response to 5-HT (10-50 microM) was significantly lower in the 2% group compared to the 70% group. Thus, chronic variation in circulating corticosterone over a narrow part of the normal diurnal range causes a shift in the balance of positive and negative regulation of 5-HT neurones, with increased alpha 1-adrenoceptor-mediated excitation and reduced 5-HT-mediated autoinhibition at lower corticosterone levels. This shift would have a major impact on control of 5-HT neuronal activity.