Effects of benzodiazepine receptor inverse agonists and nicotine on behavioral vigilance in senescent rats.

Previous experiments demonstrated that, compared with 6-month-old rats, the performance of 20-month-old rats in a behavioral vigilance task was characterized by an impairment in their ability to detect visual signals, whereas their ability to discriminate between longer signals and nonsignal events was unaffected. The benzodiazepine receptor (BZR) agonist chlordiazepoxide potently and selectively interacted with the effects of age on the relative number of hits. However, negative modulators of GABAergic transmission (Zk 93 426, beta-CCtB, RU 33965) failed to attenuate the effects of age on behavioral vigilance. the present experiment tested the hypothesis that the performance of senescent animals (28 months) is further impaired and thus would allow the demonstration of beneficial effects of BZR inverse agonists or nicotine. However, administration of ZK 93 426 (0.39, 1.56, 6.25 mg/kg), Ru 33965 (0.1, 0.5 mg/kg), or nicotine (0.09, 0.287, 0.689 mg/kg) did not beneficially affect the performance of senescent animals; rather, detrimental effects were found. Considering the beneficial behavioral effects of these compounds in animals with experimentally induced impairments in cholinergic function, the present finding point to limitations of normal aging as a variable in animal experiments on BZR inverse agonist or nicotine-induced attenuation of cognitive impairments that result from cholinergic hypofunction.

Dissociation between the attentional effects of infusions of a benzodiazepine receptor agonist and an inverse agonist into the basal forebrain.

The effects of infusions of the benzodiazepine receptor (BZR) full agonist chlordiazepoxide (CDP) or the full inverse agonist beta-CCM into the basal forebrain on behavioral vigilance were tested. Vigilance was measured by using a previously characterized task that requires the animals to discriminate between visual signals of variable length and non-signal events. Measures of performance included hits, misses, correct rejections, false alarms, side bias, and errors of omission. Following the infusion of saline (0.5 microliters/hemisphere), the relative number of hits varied with signal length. In response to shorter signals, the number of hits decreased over time, indicating a vigilance decrement. Infusions of CDP (20, 40 micrograms/hemisphere) initially decreased the relative number of hits in response to shorter signals and, later in the course of the test sessions, to longer signals as well. CDP did not affect the relative number of correct rejections. In contrast, infusions of the inverse agonist beta-CCM (1.5, 3.0 micrograms/hemisphere) did not affect the relative number of hits but decreased the relative number of correct rejections (i.e., increased the number of false alarms). These data suggest that the basal forebrain mediates the attentional effects of BZR ligands. As systemic or intrabasalis administration of BZR agonists and inverse agonists was previously demonstrated to decrease and augment, respectively, activated cortical acetylcholine (ACh) efflux, their effects on behavioral vigilance are hypothesized to be mediated via their effects on cortical ACh.

Effects of nicotinic acetylcholine receptor ligands on behavioral vigilance in rats.

The effects of nicotinic receptor ligands on performance in a task measuring sustained attention, or vigilance, were tested. This task required the animals to discriminate between signal and non-signal events. The sequence of signal (central panel light illumination for 500, 50 or 25 ms) and non-signal presentations was randomized over three blocks of 54 trials each (27 signal trials, 9 per length, and 27 non-signal trials). A left lever press following a signal was counted as a hit, and a right lever press following a non-signal event was counted as a correct rejection. Hits and correct rejections were rewarded, whereas misses and false alarms (defined as incorrect right and left lever presses, respectively) were not. Baseline performance was characterized by a signal length dependent ability of the animals to discriminate between signal and non-signal events. Administration of nicotine (0.19, 0.62, 1.9 mumol) or of two novel nicotinic receptor agonists, ABT-418 and A-82695, did not produce main effects on vigilance performance. Lobeline (1.9, 6.2, 19 mumol), a nicotinic receptor ligand with mixed agonist/antagonist activities, impaired the animals' ability to discriminate between signal and non-signal events. The antagonist mecamylamine (5, 15, 50 mumol) potently impaired performance while increasing the number of errors of omission. The lack of effect of nicotine largely corresponds with the findings from previous studies on the acute effects of nicotine in intact subjects and non-smoking humans. While the detrimental effects of lobeline may have been related to the antagonist effects of this compound, the reasons for the differences between the effects of nicotine and lobeline still remain unsettled. These data support the hypothesis that nicotine receptor mechanisms are maximally activated in intact animals performing this task, and suggest that effects of acute nicotinic agonist treatment would not produce further cognitive benefit for these animals.

Cortical cholinergic deafferentation following the intracortical infusion of 192 IgG-saporin: a quantitative histochemical study.

The immunotoxin 192 IgG-saporin has been hypothesized to selectively lesion cholinergic neurons that bear the low-affinity p75 nerve growth factor (NGF) receptor. To evaluate the usefulness of this toxin in studies intended to determine the functions of cholinergic afferents of cortical areas, relatively small concentrations and volumes of the immunotoxin (0.01-0.05 micrograms/0.5-1.0 microliters) were infused into cortical areas of one hemisphere of rats, while the vehicle was infused into homologous areas of the contralateral hemisphere. The effects of these infusions on the density of cortical acetylcholinesterase (AChE)-positive fibers and of normal fibers (as revealed by a reduced silver stain) were quantified. The infusion of the immunotoxin did not produce local gliosis in excess of the gliosis resulting from the infusion of vehicle. When compared with the frontoparietal cortex of the intact hemisphere, the number of cortical AChE-positive fibers was reduced by 36-39% and the density of the silver-stained fibers was decreased by 20-25%. While the loss of AChE-positive fibers and silver-stained fibers correlated significantly in layers V/VI, a linear regression analysis suggested that the magnitude of the loss of AChE-positive fibers was greater than would be predicted on the basis of the residual density of normal fibers. Thus, the data suggest that infusions of 192 IgG-saporin into the cortex did not result in the loss of non-cholinergic afferents. Intracortical infusions of relatively small concentrations and volumes of 192 IgG-saporin appear to provide a useful approach for the examination of the functions of cholinergic inputs to specific cortical regions.

Interactions between the effects of basal forebrain lesions and chronic treatment with MDL 26,479 on learning and markers of cholinergic transmission.

The effects of ibotenic acid-induced basal forebrain lesions and treatment with the triazole MDL 26,479 on the acquisition of an operant visual conditional discrimination task and on [3H]hemicholinium-3 and [3H]vesamicol binding were examined. Lesioned animals required more training sessions to acquire the stimulus-response rules of this task. They also showed longer response latencies throughout the experiment. The effects of the treatment with MDL 26,479 (5 mg/kg; i.p. 60 min before each training session) interacted with the effects of the lesion, producing a decrease in the number of sessions required to perform above chance-level in lesioned but not in control animals. MDL 26,479 did not seem to produce immediate performance effects but interacted with the learning process. The lesions destroyed the cell bodies in the area of the substantia innominata, basal nucleus of Meynert, and the globus pallidus. The number of frontocortical cholinergic terminals as primarily indicated by hemicholinium-3 binding was reduced in lesioned animals; however, another measure of cholinergic terminals, vesamicol binding, was unchanged. Behavioral performance of animals correlated significantly with hemicholinium binding in the frontal cortex of the right hemisphere. The fact that the lesion delayed but did not block the acquisition of the task may have been a result of compensatory mechanisms in remaining cholinergic terminals as indicated by stable vesamicol binding. These data allow assumptions about the conditions for the demonstration of beneficial behavioral effects of MDL 26,479. They also suggest that the long-term effects of basal forebrain lesions on cortical cholinergic transmission remain unsettled.

Attenuation of muscarinic receptor blockade-induced impairment of spatial delayed alternation performance by the triazole MDL 26,479.

The interactions between the effects of MDL 26,479 (0.1, 0.39, 1.56, 6.25 mg/kg; IP) and the muscarinic antagonist scopolamine (0.03, 0.1 mg/kg; IP) on the performance of rats in a delayed alternation task (retention intervals: 2, 4, 8, 16, 32 s) were examined. Scopolamine dose-dependently reduced the relative number of correct responses and interacted with the effects of the length of retention intervals. MDL 26,479 did not affect correct responding but attenuated the behavioral impairments produced by scopolamine. Although this task did not explicitly exclude the possibility that the animals acquired mediational response strategies, and although the effects of scopolamine appeared to interfere with the execution of these strategies, to a major extent, the attenuative effects of MDL 26,479 were not related to its effects on mediational strategies. Thus, it is concluded that administration of MDL 26,479 mainly resulted in a re-establishment of the animals' ability to memorize and/or to recall the information required to exert correct responses.