Free Exploratory Test Research Articles

Using augmented reality to assess spatial neglect: The Free Exploration Test (FET).

To capture the distortion of exploratory activity typical of patients with spatial neglect, traditional diagnostic methods and new virtual reality applications use confined workspaces that limit patients' exploration behavior to a predefined area. Our aim was to overcome these limitations and enable the recording of patients' biased activity in real, unconfined space. We developed the Free Exploration Test (FET) based on augmented reality technology. Using a live stream via the back camera on a tablet, patients search for a (non-existent) virtual target in their environment, while their exploration movements are recorded for 30 s. We tested 20 neglect patients and 20 healthy participants and compared the performance of the FET with traditional neglect tests. In contrast to controls, neglect patients exhibited a significant rightward bias in exploratory movements. The FET had a high discriminative power (area under the curve = 0.89) and correlated positively with traditional tests of spatial neglect (Letter Cancellation, Bells Test, Copying Task, Line Bisection). An optimal cut-off point of the averaged bias of exploratory activity was at 9.0° on the right; it distinguished neglect patients from controls with 85% sensitivity. FET offers time-efficient (execution time: ∼3 min), easy-to-apply, and gamified assessment of free exploratory activity. It supplements traditional neglect tests, providing unrestricted recording of exploration in the real, unconfined space surrounding the patient.

Rat's response to a novelty and increased complexity of the environment resulting from the introduction of movable vs. stationary objects in the free exploration test.

Most animals, including rats, show a preference for more complex environments. This is demonstrated particularly well when complexity increases due to the addition of new elements to the environment. The aim of the study was to investigate the reaction to novelty, understood as a change in environmental properties that involve both changes in complexity and controllability. Controllability may allow for dealing with challenges of an environment of low predictability in a way that the animal's own activity reduces the uncertainty of environmental events. In our study, the animals underwent a spontaneous exploration test in low-stress conditions. After a period of habituation to the experimental arena, additional stationary (increased complexity) and/or movable (increased complexity and controllability) tunnels were introduced, and the reaction of the rats to the novel objects was measured. The results of the study confirmed that an increase in the complexity of the environment through the addition of objects triggers a more intensive exploratory activity in rats. However, an increased spatial complexity combined with the movability of the novel objects seems to result in increased caution towards the novelty after an initial inspection of the changed objects. It suggests that the complexity of the novelty may trigger both neophilia and neophobia depending on the level of the predictability of the novel environment and that the movability of newly introduced objects is not independent of other parameters of the environment.

Decrease in the rewarding value of spatial novelty due to the contamination of the stimulus field with light – Evidence from a free exploration test involving rats

It has been shown that rearranging the spatial properties of a familiar environment consistently elicits a positive response in rats directed toward the source of novelty. Previous studies have been conducted under red light or darkness. The purpose of this study was to test the effect of rearranging the spatial properties of a familiar environment in conjunction with a change in lighting conditions. The results have shown specific effects of the light presence and its intensity on different behavioral measures. We propose that this study provides a basis for hypothesizing a two-way mechanism of the behavioral response to light regulation in rats. The first is based on ON/OFF states. This level may be related to fundamental, evolutionarily early, emergent components of behavioral antipredator adaptations. Another level of behavioral regulation involves mechanisms sensitive to light intensity. These appear to be involved in the regulation of more advanced behavioral acts, such as exploratory responses. This may suggest that light intensity analysis may require the involvement of more advanced cognitive components in the behavioral regulation system.

When left is right: The effects of paw preference training on behaviour in mice

Spontaneous limb preferences exist in numerous species. To investigate the underlying mechanisms of these preferences, different methods, such as training, have been developed to shift preferences artificially. However, studies that systematically examine the effects of shifting preferences on behaviour and physiology are largely missing. Therefore, the aim of this study was to assess the impact of shifting paw preferences via training on spontaneous home cage behaviour, as well as anxiety-like behaviour and exploratory locomotion (Elevated plus maze test, Dark light test, Open field test, Free exploration test), learning performance (Labyrinth-maze) and stress hormones (fecal corticosterone metabolites) in laboratory mice (Mus musculus f. domestica). For this, we assessed spontaneous paw preferences of C57BL/6J females (Nambilateral = 23, Nleft = 23, Nright = 25). Subsequently, half of the individuals from each category were trained once a week for four weeks in a food-reaching task to use either their left or right paw, respectively, resulting in six groups: AL, AR, LL, LR, RL, RR. After training, a battery of behavioural tests was performed and spontaneous preferences were assessed again. Our results indicate that most mice were successfully trained and the effect of training was present days after training. However, a significant difference of preferences between RL and LL mice during training suggests a rather low training success of RL mice. Additionally, preferences of L mice differed from those of A and R mice after training, indicating differential long-term effects of training in these groups. Furthermore, left paw training led to higher levels of self-grooming, possibly as a displacement behaviour, and more time spent in the light compartment of the Dark light test. However, overall, there was no systematic influence of training on behavioural measures and stress hormones. Different explanations for this lack of influence, such as the link between training and hemispheric functioning or the intensity and ecological relevance of the training, are discussed.

Can the Hole-Board Test Predict a Rat's Exploratory Behavior in a Free-Exploration Test?

Simple SummarySince the introduction of the hole–board test, its validity and applicability have been repeatedly re-examined. The hole–board protocol remains one of the standard procedures applied in psychopharmacology and behavioral studies. Some authors advocate the use of the hole–board procedure in studies on various aspects of behavior regulation, such as exploration and anxiety, habituation to a novel environment, spatial learning and memory (working and reference memory), spatial pattern learning, and food search strategies. In this study, we focused on rats’ activity in the hole–board test that we considered to be a type of exploratory activity. Based on our results and our previous studies of rats’ exploratory behavior in the free-exploration box, we suggest that the hole–board apparatus might not be the best tool for measuring exploratory behavior in laboratory rodents.This study focuses on the rat activity in a hole–board setting that we considered a type of exploratory behavior. The general hypothesis is based on the claim that a motivational mechanism is central to both the response to novelty in a highly familiarized environment and the activity in the hole–board apparatus. Our sample consisted of 80 experimentally naive Lister Hooded rats. All rats were tested in the hole–board apparatus. Twenty individuals with the highest hole-board scores and twenty subjects with the lowest hole–board scores subsequently underwent an established free-exploration test. In our study, the scores obtained in the hole–board test had little predictive value for the rats’ activity in the free-exploration test. Based on our previous experience in studying exploratory behavior in the free-exploration test and the data presented in this paper, we suggest that the hole–board test is not an appropriate tool for measuring exploratory behavior in laboratory rodents.

Neurodefensive Effect of Olea europaea L. in Alloxan-Induced Cognitive Dysfunction and Brain Tissue Oxidative Stress in Mice: Incredible Natural Nootropic

Background: In the controlling of Alzheimer disease (AD) plant with antioxidant activity has attained considerable attention. The plant Oleaeuropaea (OE) L. belong to family Oleaceae is a rich source of natural antioxidant. Therefore the intention of this study was to analyze the neuroprotective effects of ethanolic extract of OE (EEOE) fruits in alloxan-induced cognitive impairment and brain tissue oxidative stress in mice by using Hole Cross (HC) test, Open Field (OF) test, Free Exploration (FE) test, Y-Maze (YM) test and contents of thiobarbituric acid reactivesubstances(TBARS)in braintissuehomogenates of mice. Methods: EEEO fruits were administered to alloxan-induced mice for 21st days. The neuroprotective effects ofthis fruit extracts were examined by using behavioral studies such as HC test, OF test, FE test, YM test and biochemical study such as lipid peroxidation (TBARS) assay. Results: In HC test, administration of EEOE on 14th and 21st day was remarkably (P < 0.05, P < 0.01) increased the number of hole crossed from one chamber to another by mice as compared to the disease control group. Administration of EEOE significantly (P < 0.01) increased the number of square travelled by mice on 21st day with respect to that of disease control group in OF test. In FE test EEOE considerably (P < 0.05, P < 0.01) increased the number of entries to the novel area and time spent in the novel area of the mice on 7th, 14th and 21st day as compared to the disease control group. The administration of EEOE significantly (P < 0.05, P < 0.01) increased the percentage of spontaneous alternation behavior of the mice on 14th and 21st day as compared to that of disease control group in YM test. EEOE administration for successive days markedly (P < 0.05) decreased TBARS level in the brain tissue homogenates of mice with respect to disease control group. Conclusion: The existing study suggests that EEOE fruit shows momentous neurodefensive activity. Consequently, this fruit extract may have impending therapeutic value in the treatment of some neurological disorders alike AD.

Incidental memory in dogs (Canis familiaris): adaptive behavioral solution at an unexpected memory test

Memory processing in nonhuman animals has been typically tested in situations where the animals are repeatedly trained to retrieve their memory trace, such as delayed matching to sample, serial probe recognition, etc. In contrast, how they utilize incidentally formed memory traces is not well investigated except in rodents. We examined whether domestic dogs could solve an unexpected test based on a single past experience. In Experiment 1, leashed dogs were led to 4 open, baited containers and allowed to eat from 2 of them (Exposure phase). After a walk outside for more than 10min, during which time the containers were replaced with new identical ones, the dogs were unexpectedly returned to the site and unleashed for free exploration (test phase). Eleven out of 12 dogs first visited one of the containers from which they had not eaten. In Experiment 2, two containers had food in them, one had a nonedible object, and the last one was empty. Dogs visited all 4 containers and were allowed to eat one of the food rewards in the Exposure phase. In the test phase, unleashed dogs first visited the previously baited container from which they had not eaten significantly more often than chance. These results demonstrate that in an unexpected, test dogs may retrieve "what" and "where" information about seen (now invisible) items from incidental memory formed during a single past experience.

Effects of rat odour and shelter on maternal behaviour in C57BL/6 dams and on fear and stress responses in their adult offspring

Recent studies in rats and mice suggest that developmental plasticity of HPA-stress and fear responses could be mediated by environment-dependent variations in maternal behaviour. The present study was designed to examine this question further by varying the adversity of the maternal environment to study its effects on nest-attendance and maternal care and on the HPA and fear responses in the adult offspring. C57BL/6 dams and their litter were housed in a cage system composed of a nest cage (NC) and a foraging cage (FC) connected by a tunnel. Using a 2 × 2 factorial design, we varied the maternal foraging environment (FC) by the presence or absence of rat odour (feces) and shelters (MouseHouse and tube) from postnatal days 1–14 and assessed the adult offspring's corticosterone response to isolation/novelty stress and their behaviour in three tests of fearfulness (elevated-O-maze, open-field, free exploration). While the presence of shelters in the FC reduced time spent in the NC (nest site attendance), the presence of rat odour in the FC increased active maternal care without altering nest site attendance. Alterations of the offspring's HPA and fear responses were rather subtle. The presence of shelters in the dam's foraging environment decreased fearfulness in the offspring in the free exploration test. In addition, males reared by dams exposed to rat odour were less fearful in the open-field test, and both males and females reared by dams without shelters and rat odour in the FC showed a greater corticosterone response to isolation/novelty stress. Multiple regression analysis indicated a negative relationship between maternal licking/grooming and fearfulness in males and a positive relationship between nest site attendance and fearfulness in females. Taken together, these results indicate that mouse dams adjust specific aspects of maternal behaviour in response to the specific properties of their environment, and that active maternal care and nest site attendance are two aspects of maternal behaviour that may affect the offspring's stress and fear systems independent of each other and in a sex-specific way.

Chlorogenic acid, a polyphenol from Prunus domestica (Mirabelle), with coupled anxiolytic and antioxidant effects

Oxidative stress is linked to neurodegenerative diseases, cancer, cardiovascular diseases and to some behaviors, such as anxiety and depression. In particular, recent research observed a close relationship between oxidative stress and anxiety. We investigated the anxiolytic effect of chlorogenic acid, a dietary antioxidant present in fruits, in mouse models of anxiety including the light/dark test, the elevated plus maze and the free exploratory test. Moreover, the antioxidative effect of chlorogenic acid on peripheral blood granulocytes was investigated. Chlorogenic acid (20 mg/kg) induced a decrease in anxiety-related behaviors suggesting an anxiolytic-like effect of this polyphenol. The anti-anxiety effect was blocked by flumazenil suggesting that anxiety is reduced by activation of the benzodiazepine receptor. In vitro, chlorogenic acid protected granulocytes from oxidative stress. Chlorogenic acid is one of the most abundant polyphenols in fruits. We demonstrated in vivo and in vitro for the first time, that chlorogenic acid has anxiolytic effects coupled with antioxidant activity. Thus, fruits such as plums (Mirabelle), apples and cherries may provide health-promoting advantages to consumers.

Simultaneous assessment of autonomic function and anxiety-related behavior in BALB/c and C57BL/6 mice

In humans, anxiety is accompanied by changes in autonomic nervous system function, including increased heart rate, body temperature, and blood pressure, and decreased heart rate variability. In rodents, anxiety is inferred by examining anxiety-related behavioral responses such as avoidance and freezing, and more infrequently by assessing autonomic responses to anxiogenic stimuli. However, few studies have simultaneously measured behavioral and autonomic responses to aversive stimuli in rodents and it remains unclear whether autonomic measures are reliable correlates of anxiety-related behavior in these animal models. Here we recorded for the first time heart rate and body temperature in freely moving BALB/c and C57BL/6 mice during exposure to an unfamiliar environment. Our data show that upon exposure to a novel open field, BALB/c mice showed increased anxiety-related behavior, reduced heart rate and higher heart rate variability (HRV) when compared with C57BL/6 mice. Regression analysis revealed a significant correlation between both heart rate and long-term HRV measures and locomotor activity and time spent in the center of the open field, but no correlation between body temperature and any behavioral variables. In the free exploration test, in which animals were allowed direct access to a novel environment from a familiar environment without experimenter handling, significant correlations were found only between heart rate and total locomotor activity, but not time spent in the unfamiliar chamber despite increased anxiety-related behavior in BALB/c mice. These findings demonstrate that increased anxiety-related behavior in BALB/c mice is not associated with specific changes in heart rate, HRV, or body temperature.

Different social bonds produce differential effects on behaviour and physiology in Mongolian gerbils

Mongolian gerbils are socially monogamous, group-living rodents, with a social organization based on a stable reproductive pair. In the present study, the effects of social bonds in gerbil female social behaviour as a function of partner presence were investigated. Female aggression was tested against same-sexed intruders as a function of pairing with a male: before pairing females displayed very low aggression, while aggression was dramatically increased after pairing. Female preference towards the partner as opposed to an unfamiliar male was assessed in a social preference paradigm. Females showed a strong partner preference, exhibiting aggression selectively towards the unfamiliar male and affiliation exclusively towards the partner. To test for the specificity of the pair bond, the effects of a different social attachment were also examined. Sisters housed in pairs were tested against female intruders. Housing with a sister did not induce the increase of aggression seen in females paired with a male. Furthermore gerbils were subjected to a social bond disruption paradigm, followed by a free exploration test. The separation of male/female pairs decreased marking rate and ventral gland size in males, whereas no alterations were detected in females. In contrast, following the breaking of female/female pairs, behavioural and physiological effects suggestive of reproductive activation were detected in females. Overall the present results suggest the existence of a pair bonding mechanism in females which was previously claimed to be sexually dimorphic, i.e. exclusive to male gerbils, but they also confirm that the disruption of the female/male bond affects only the behavior and physiology of the male.

Correlations between behaviours in the elevated plus-maze and sensitivity to unpredictable subchronic mild stress: evidence from inbred strains of mice

This study aimed at investigating the relationship between anxiety-like and depressive-like behaviour in mice. Therefore, we assessed the behaviour of mice from eight different strains (FVB/NA, BALB/c, C57BL/6, DBA/2, 129/Sv, C3H/He, CBA and BA) confronted first to anxiety models (the elevated plus-maze and the free exploratory test) and then to tests of depressive-like behaviours (forced swim test and unpredictable subchronic mild stress). In the forced swim test, mice from the DBA/2, the BA and the C3H/He strains displayed higher immobility than mice from the 129/Sv, the BALB/c, the C57BL/6 and the CBA strains. In the subchronic mild stress, mice from the C57BL/6 and the CBA strains displayed low sensitivity when compared with mice from all the others strains. A stepwise multiple regression analysis suggests that behaviour in the elevated plus-maze is associated with the time of immobility in the forced swim test (20%) and with the susceptibility to the unpredictable subchronic stress procedure (31%). The behaviour in the free exploratory paradigm is slightly associated with behaviours in the two tests of depression. These results suggest that anxiety may be a factor contributing, among others, to the susceptibility to depressive-like behaviours.

Cross fostering in mice: behavioral and physiological carry‐over effects in adulthood

Cross fostering is a widely used laboratory practice. However, relatively few studies have directly investigated the carry-over effects of this procedure in adult animals. The aim of the present study is to investigate the late effects of cross fostering (CF) at birth (in litters composed of no siblings) on adult mice. When adults, cross-fostered male and female mice were examined for intrasex aggression, and levels of emotionality, exploration and anxiety. In addition, body weight was monitored, several internal organs were weighed and plasma corticosterone levels were measured. When compared to controls, body weight of CF male and female mice was increased, at least after early puberty. CF males showed smaller preputial glands, while basal corticosterone level was not affected by cross fostering. In the free-exploratory test, CF males, but not females, showed a behavioral profile suggestive of lower anxiety. These effects in adulthood cannot be ascribed to differences in the maternal care received, which was not affected by cross fostering. In conclusion, cross fostering at birth induced a number of behavioral and physiological alterations in mice, particularly in males. These findings should be carefully evaluated when applying cross fostering procedure to laboratory animals.

Behavioral and neurochemical changes following predatory stress in mice

This article had several objectives. First it aimed at investigating the anxiogenic-like behaviors elicited by unavoidable cat exposure and/or cat odor across nine strains of mice (BALB/c, C57BL/6, C3H, CBA, DBA/2, NMRI, NZB, SJL, Swiss) in a modified version of the free-exploration test. The second objective was to investigate possible neurochemical changes following cat exposure in Swiss mice by measuring the turnover of dopamine (DA), noradrenaline (NA) and serotonin (5-HT) in several brain regions known to be involved in the modulation of emotional processes (hippocampus, hypothalamus and striatum). Finally, the third objective was to examine the effects of anxiolytic drug treatments on the anxiogenic responses elicited by a cat odor (i.e. a feces) in Swiss mice previously exposed to a cat using the free-exploration test. Results from the strain comparison showed that mice could be divided into three distinct groups: two non-reactive strains (NZB and SJL) which were relatively insensitive to predatory exposure and/or odor; five intermediate-reactive strains (Swiss, NMRI, CBA, C3H and BALB/c) which displayed clear anxiogenic-like responses only when exposed to both cat and, subsequently, to feces; and two high reactive strains (C57BL/6 and DBA/2) which showed anxiogenic-like reactions following cat exposure, regardless of the stimulus (clay or feces) present in the free-exploration cage. Neurochemical data revealed that, while brain levels of NA, DA, 5-HT in cat exposed Swiss mice were not significantly different from those of control animals, turnover rates of these monoamines were increased in the hippocampus (NA and 5-HT), hypothalamus and striatum (DA) after cat exposure. Results from pharmacological experiments indicated that repeated administration of the 5-HT reuptake inhibitor fluoxetine (5–20 mg/kg, twice a day, for 5 days) completely abolished avoidance of the cat feces in Swiss mice previously exposed to the predator. Neither acute nor repeated administration of the classical anxiolytic diazepam was able to reduce avoidance behavior of the anxiogenic stimulus in the free-exploration test. Taken together, these findings indicate that the exposure of mice to unavoidable predatory stimuli is associated with behavioral and neurochemical changes consistent with increased anxiety.

Behavioral and pharmaco-toxicological study of Papaver rhoeas L. in mice

A lyophilized ethanolic aqueous extract of Papaver rhoeas petals was evaluated for its behavioral and pharmaco-toxicological effects in mice and its chemical composition was studied using thin layer chromatography (TLC). In this study, chemical analysis by TLC showed that the petals contain some anthocyanins, whereas no alkaloids were detected. The toxicological effect of alcoholic and aqueous plant extract administered intraperitoneally was determined in mice. The toxicological results obtained indicated that 2000 mg/kg is LD10 and 4000 mg/kg is LD50. Behavioral and pharmacological studies of ethanolic and aqueous extract showed that the plant extract reduced locomotory, exploratory and postural behavior of mice. This was evaluated through two specific behavioral tests; a non-familiar environment test (the Staircase test) and a familiar environment test (Free exploratory test). These behavioral and pharmacological effects are more pronounced when the solvent used for extraction is 10% ethanol and is not antagonized by benzodiazepines, opioids, dopaminergic and cholinergic compounds (flumazenil, naloxone, sulpuride and atropine). The plant extract did not induce sleep in mice after treatment with an infrahypnotic dose of pentobarbital. This finding shows that the plant extract has a sedative effect at a 400 mg/kg dosage.

Anxiolytic-like properties of melatonin receptor agonists in mice: involvement of mt1 and/or MT2 receptors in the regulation of emotional responsiveness

The anxiolytic-like properties of melatonin have been established in rodents. The present study investigated the possible involvement of melatonin receptors/binding sites in the regulation of emotional responsiveness in mice, using an mt1/MT2 receptor specific agonist (S 23478) and two specific ligands of MT3 binding sites with agonistic properties ( N-acetylserotonin (NAS) and 5-methoxycarbonylamino N-acetyltryptamine (5-MCA-NAT)). We examined the behavioural effects of these compounds in C3H/He mice confronted with two anxiety models: the free-exploratory test, in which C3H/He mice present neophobic reactions (“trait” anxiety), and the light/dark choice test, which is an unconditioned conflict test (inducing “state” anxiety). Melatonin and S 23478 decreased anxious reactions in both the free-exploratory test (5–25 mg/kg) and the light/dark choice test (melatonin: 20 mg/kg; S 23478: 10–20–40 mg/kg). NAS exerted anxiolytic-like effects only at a dose of 35 mg/kg in the free-exploratory test and at a dose of 40 mg/kg in the light/dark choice test. Finally, 5-MCA-NAT was devoid of anxiolytic-like effects in both tests. These results suggest that the anxiolytic properties of melatonin could involve the activation of mt1 and/or MT2 receptors rather than of the MT3 binding site.

Effects of Melatonin on Neophobic Responses in Different Strains of Mice

Anxiolytic properties of melatonin in rodents had usually been examined in behavioral tests based on stressful situations, i.e., in animal models of “state” anxiety. However, no study reports effects of melatonin on emotionality of rodents submitted to situations devoid of stressful components as in the free-exploratory test, which gives to animals the opportunity to choose freely between familiar and unfamiliar places. This procedure has been proposed as a method for measuring an endogenous form of anxiety called “trait” anxiety. The present study first investigated the effects of melatonin on neophobic responses of male C57BL/6, C 3H/He, and BALB/c mice submitted to a free-exploratory test. Results demonstrated that melatonin had no effect in C57BL/6 mice that presented very low neophobic responses, whereas it was effective in reducing neophobia of BALB/c and C 3H/He mice that presented, respectively, strong and intermediate avoidance responses towards unfamiliarity. Indeed, mice of both latter strains treated with melatonin made fewer attempts to enter into the unfamiliar compartment, exhibited a lower latency of the first entry into the unfamiliar places, and spent more time in them. Thus, melatonin appeared to be equally effective in reducing “trait” anxiety in both BALB/c and C 3H/He mice. Moreover, flumazenil was able to counteract, in a dose-dependent manner, the anxiolytic activity of melatonin in BALB/c, suggesting involvement of central GABAergic system in the pharmacological effects of melatonin.

Rearing environmental enrichment in two inbred strains of mice: 1. Effects on emotional reactivity.

The effects of an enriched rearing environment on two types of anxiety-like behavior (designated "trait" and "state" anxiety) and on spontaneous activity were investigated in two inbred strains of mice, BALB/c (C) and C57BL/6(B6). Subjects were socially reared from birth to 56 days of age under enriched or standard rearing conditions. The enriched environment consisted of an assembly of plastic boxes in which a various number of objects (running wheels, pieces of plastic, etc.) offered the possibility of multiple activities. The subjects were subsequently tested in three situations: a spontaneous activity recorder, an elevated plus-maze test (a model of state anxiety), and a free exploration test (a model of trait anxiety). No group differences could be found in spontaneous activity. Environmental enrichment, however, decreased the level of both types of anxiety-like behavior in the C strain. In contrast, the level of trait anxiety of the B6 mice was not modified. The results were discussed in relation to possible CNS modifications, especially in the limbic system.

Effects of day-length variations on emotional responses towards unfamiliarity in Swiss mice

Pineal melatonin secretion occurs at night in all vertebrates and the duration of its secretion is negatively correlated with day length. As an anxiolytic activity of melatonin has been shown in rats and mice, this study examined possible changes of emotional reactivity in response to day length variations in Swiss mice. Three groups of mice were observed in a free-exploratory test: a group submitted to a short-day exposure (6:18 h light-dark cycle) for 2 weeks, a group submitted to a long-day exposure (18:6 h light-dark cycle) for 2 weeks and a control group which was maintained in housing 12:12 h light-dark cycle. The short-day exposed group of mice exhibited significantly fewer attempts to enter into the unfamiliar enclosure, spent significantly more time in it and presented significantly more rears than controls whereas the long-day exposed group of mice made more attempts than controls. These results suggest a decreased emotional level in short-day exposed mice and an increased level in long-day exposed mice. This could be interpreted as confirming the idea of anxiolytic-like properties of melatonin; however, the specific role of this hormone in the changes of anxiety related to day length must be assessed by further measures of potential variations of circulating melatonin.

Behavioural effects of Passiflora incarnata L. and its indole alkaloid and flavonoid derivatives and maltol in the mouse

Lyophilised hydroalcoholic and aqueous extracts of the aerial parts of Passiflora incarnata L. (Passifloraceae) (Passion-flower), as well as chemical constituents of the plant, indole alkaloids (harman, harmin, harmalin, harmol, and harmalol) maltol and flavonoids (orientin, isoorientin, vitexin and isovitexin) were assessed for behavioral effects in mice. The accordance with the traditional use of P. incarnata, psychotropic properties were confirmed by some behavioral tests in mice. The anxiolytic properties of hydroalcoholic extract were confirmed at 400 mg/kg by the increase of rears and steps climbed in the staircase test (non-familiar environmental test), and the increase in locomotion and time spent in light side in the light/dark box choice test (non-familiar environmental test). The sedative properties of aqueous extract were confirmed at 400 g/kg by decrease of rears and steps climbed in the staircase test and the decrease of rears and locomotion in the free exploratory test. Moreover, the aqueous extract induced sleep in mice after treatment with a sub-hypnotic dose of pentobarbital.