K. Kuschinsky

Effects of nicotine on hydroxyl free radical formation in vitro and on MPTP-induced neurotoxicity in vivo.

Parkinson’s disease (PD) is one of the most frequent disorders of the basal ganglia. From epidemiological studies there is a controversial discussion on the question whether tobacco smoking is correlated with a decreased incidence of PD. The present study aimed to elucidate the role of nicotine and its potential neuroprotective effects in a rodent model of PD. These effects may be related to an altered hydroxyl radical formation; this possibility was studied in vitro. Nicotine and α-phenyl-N-tert-butyl nitrone (PBN) were examined in a cell-free in vitro Fenton system (Fe3+/EDTA + H2O2) for their radical scavenging properties using the salicylate trapping method. Salicylic acid (0.5 mM) was incubated in the presence and absence of nicotine or PBN and the main products of the reaction of hydroxyl radicals with salicylic acid, namely 2,3- and 2,5-dihydroxybenzoic acid, were immediately determined using HPLC in combination with electrochemical detection. Nicotine and PBN were both able to significantly reduce hydroxyl radical levels at concentrations of 1, 2.5 and 5 mM. Interestingly, at 5 mM nicotine was able to reduce hydroxyl radical levels significantly more than the radical scavenger PBN (5 mM). To investigate the in vivo effects of nicotine, male C57BL/6 mice were used in the MPTP mouse model of PD. Nicotine (0.1 or 0.4 mg/kg s.c.) was administered twice daily for a period of 14 days. On day 8 a single injection of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP, 30 mg/kg s.c.) was given as well as an enhanced protocol of nicotine treatment (0.1 or 0.4 mg/kg s.c., 30 min before MPTP and 30, 90, 210, 330, 450, 570 min after MPTP) for a total of seven injections of nicotine. High dosage nicotine treatment significantly increased the MPTP-induced loss of body weight and resulted in a significantly decreased striatal dopamine content and an increased dopamine turnover in comparison with the MPTP-treated controls at day 15. However, the lower dosage of nicotine did not significantly alleviate the MPTP-induced effects, although some parameters showed a slight tendency in this direction. These results demonstrate that in vitro nicotine has radical scavenging properties which might suggest neuroprotective effects. In vivo experiments with nicotine, however, showed that a low dosage of nicotine did not alleviate the MPTP-induced dopamine depletion, but a large dosage even enhanced it.

GABAergic mechanisms in mediating muscular rigidity, catalepsy and postural asymmetry in rats: Differences between dorsal and ventral striatum

In rats, the GABAergic agonist muscimol was injected unilaterally either into the mid ventroposterior striatum (ventral striatum) or into the mid dorsoposterior striatum (dorsal striatum), and the following parameters were estimated: (1) a tonic activity in the electromyogram (EMG) recorded from the gastrocnemius-soleus (GS) muscle, which appears to reflect a muscular rigidity; (2) catalepsy, and (3) asymmetries in posture. Injection of muscimol (25 or 50 ng) into the ventral striatum produced tonic EMG activity, catalepsy and ipsiversive posture; these signs were much less pronounced or not observed after injections into the dorsal striatum. Co-administration of bicuculline (500 ng) into the ventral striatum, or simultaneous injection of muscimol (25 ng) into the substantia nigra pars reticulata (SNR), antagonized both the tonic EMG activity and the catalepsy produced by injection of 50 ng muscimol into the ventral striatum. These results seem to support the assumption that all 3 symptoms mentioned can be produced by an inhibition of striatonigral GABAergic neurones. These symptoms are probably due to a disinhibition of nigrofugal neurones, originating in the SNR.

Studies on electroencephalogram (EEG) in rats suggest that moderate doses of cocaine or d-amphetamine activate D1 rather than D2 receptors.

The effects of cocaine andd-amphetamine, two psychomotor stimulant drugs with pronounced addictive properties, on the electroencephalogram (EEG) of rats were studied by telemetric recordings from the skull in non-anesthetized, freely moving rats. The electrocorticogram (ECoG) was recorded. Both cocaine (10 mg/kg IP) andd-amphetamine (0.4 mg/kg IP) produced a desynchronization, characterized by a general lowering in power in all of the frequency bands. These effects of both drugs were mimicked by the selective agonist at D1 receptors SK&F 38393 (3 mg/kg SC) and were reversed by the antagonist at D1 receptors SCH 23390 (0.2 mg/kg IP) but not influenced by haloperidol (0.1 mg/kg IP) in a dose which is likely to block D2 rather than D1 receptors. These doses of cocaine ord-amphetamine did not produce stereotyped behaviour and slight, if any, increases in locomotor activity only. Large doses of cocaine (30 mg/kg IP) ord-amphetamine (4 mg/kg IP) produced stereotyped behaviour and alterations in EEG which are, based on previous own studies, characteristic for additional stimulation of D2 receptors. This was manifest in a selective increase in power of the alpha-1 band. A similar effect was also produced by the agonist both at D1 and D2 receptors, apomorphine (0.5 mg/kg SC). These results suggest that moderate, but probably rewarding doses of cocaine ord-amphetamine mainly activate D1 dopamine receptors. This activation might be relevant for the rewarding properties of these drugs.

Individual and morphological differences in the behavioural response to apomorphine in rats

The topography of stereotyped behaviour produced by apomorphine in rats was studied by using either a scoring system, based on observation in a wire cage, or by quantification of horizontal and vertical activities, and of the total distances run in an open field, using an automatic recording system. The latter design was combined with a classification of the type of stereotyped behaviour observed during recording. In addition, the reproducibility of the nature of the stereotyped behaviour and its dose-dependence in individual animals was evaluated. In rats observed in a wire cage, apomorphine at lower doses (0.25 or 0.50 mg/kg SC) produced stereotyped sniffing. Increasing the doses led to stereotyped licking and the largest dose (5.00 mg/kg SC) produced predominantly stereotyped gnawing, as was demonstrated graphically. The type of behaviour produced by 2 mg/kg apomorphine in the open field was reproduced well in individuals after a second administration 4 days later. The shift from sniffing to gnawing was observed in most, but not all of the individually classified animals after administration of the largest dose (5 mg/kg). The locomotor part of motility was highest in “sniffing animals” and lower when gnawing occurred. The non-locomotor part of motility was low in “sniffing rats” and increased when licking and gnawing occurred. In some of the animals a characteristic “climbing” behaviour was observed in addition after the larger doses, which did not interfere with sniffing, licking or gnawing.A combination of classification by observation and automatic recording seems the most appropriate way to study the topography of stereotyped behaviour produced by apomorphine.

Conditioning of nicotine effects on motility and behaviour in rats

SummaryNicotine produces behavioural signs which are, in part, characteristic of dopaminergic activation. In the present study, it was investigated, to which degree these signs can be conditioned. The drug produced dose-dependent (0.15–0.60 mg/kg s.c.) increases in locomotor activity, hyperkinesia and stereotyped sniffing. The effects produced by 0.6 mg/kg nicotine were significantly inhibited by mecamylamine (1 mg/kg i. p.), but only in part by haloperidol (0.2 mg/kg i. p.). In a subsequent series, the administration of nicotine (0.6 mg/kg s.c.) was repeatedly associated with well-defined environmental (conditioned) stimuli: a wire cage associated with an auditory and an olfactory stimulus. Another group was pseudoconditioned, a third group remained drug-naive. When the animals were given saline in presence of the conditioned stimuli 24 h after the last conditioning session, locomotor activity, hyperkinesia and stereotyped sniffing were significantly higher in conditioned than in pseudoconditioned and drug-naive rats. Similarly, when the rats were injected with nicotine (0.6 mg/kg s. c.) in presence of the conditioned stimuli 24 h after the last conditioning session, locomotor activity and stereotyped sniffing were most pronounced in the conditioned animals. These results demonstrated that behavioural effects of nicotine can be conditioned. Phenomena of this kind might contribute to the addictive behaviour to nicotine.

Effects of cytisine on hydroxyl radicals in vitro and MPTP-induced dopamine depletion in vivo

The potential new iron-chelator cytisine and the radical scavenger N-tert-butyl-alpha-(2-sulfophenyl) nitrone (S-PBN) were incubated in a Fenton system and hydroxyl radical formation was measured with the salicylate trapping assay. Both cytisine and S-PBN reduced hydroxyl radical formation in a concentration-dependent manner. For in vivo studies, C57BL/6 mice were injected repeatedly with cytisine (0.5 mg/kg or 2.0 mg/kg s.c.) or saline seven days before and after a single 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) injection (30 mg/kg s.c.). Seven days after MPTP treatment alone dopamine levels were significantly reduced to 12% of the control values (p < 0.001), whereas MPTP + cytisine treatment (2 mg/kg) led to more than twofold higher dopamine levels (p < 0.01) compared with MPTP alone. We have shown for the first time that cytisine attenuates hydroxyl radical formation in vitro and reduces MPTP-induced dopamine depletion. Thus, cytisine may be useful for the treatment of Parkinsons Disease where the chelation of iron ions could prevent neuronal cell death.

Conditioning of pre- and post-synaptic behavioural responses to the dopamine receptor agonist apomorphine in rats

We investigated whether pharmacological effects of the dopamine agonist apomorphine can be conditioned by establishing an association of apomorphine administration with exteroceptive cues. Apomorphine was repeatedly administered and subsequently, the rat was put into a test cage and exposed to an acoustic and an olfactory stimulus (“conditioned rats”). Control animals (“pseudoconditioned” rats) were treated with the same pharmacological schedule of apomorphine not temporally associated with the stimuli. On the test day, both groups were injected with saline and exposed to the stimuli described.The stereotyped behaviour produced by large doses of apomorphine (0.5 or 2.0 mg/kg SC), namely sniffing, licking and gnawing, could be conditioned in a pronounced way. During the conditioning period, a change in the stereotypies was observed with regard to the time-course (earlier occurrence) and to the character of the stereotypies (from sniffing to licking and gnawing), when 0.5 mg/kg apomorphine was used, but not with the dose of 2.0 mg/kg. The conditioned responses showed a relatively uniform distribution during the observation period with some increase towards the end of the observation period. Some signs produced by a low dose of apomorphine (0.07 mg/kg SC), namely hypomotility and ptosis, but not yawning, could also be conditioned, although in a less pronounced way. An intermediate dose of apomorphine (0.18 mg/kg SC) produced both signs observed after large doses and those observed after a small dose, occurring alternatingly. Both types of signs could be conditioned using this dosage. Conditioning did not alter striatal or mesolimbic dopamine turnover.These results suggest that only behavioural signs due to an activation of postsynaptic dopamine receptors, but also some symptoms produced by an activation of dopamine autoreceptors can be conditioned.

Locomotor activity of rats after injection of various opiods into the nucleus accumbens and the septum mediale

SummaryThe possible role of the nucleus accumbens (ACB) and, in some experiments, the septum mediale (SM) in mediating alterations in locomotor activity, produced by various opioids, was evaluated in the rat, the drug being injected either into the left central part of the ACB or into the left SM. Morphine, predominantly acting at the mu-type receptors, given in larger doses (13 or 40 nmol into the ACB) produced depression of locomotor activity and catalepsy, whereas 2.5 nmol were ineffective. Co-administration of naloxone into the ACB suppressed the effects of morphine.d-ala2,d-leu5-enkephalin (DADL), a preferential delta-type receptor agonist, produced a biphasic effect on locomotor activity, namely an inhibition of it and a catalepsy, followed by a locomotor activation. This effect was observed after 4 or 13 nmol; 1 nmol produced a delayed locomotor activation without any previous inhibition, whereas 0.4 or 0.1 nmol were ineffective. Equimolar doses of naloxone, when coadministered with DADL, only partially antagonized these effects of DADL. In contrast, co-administration of a small dose of DADL and an excess dose of naloxone into the ACB produced an immediate increase in locomotor activity. Injections of a predominant kappa type receptor agonist, MR 2033-Cl, were ineffective.Injection of DADL, either alone or combined with naloxone into the SM (1 nmol) produced an immediate stimulation of locomotor activity.The results suggest that locomotor depression and catalepsy may be mediated by opioid receptors of the mutype in the ACB, whereas locomotor stimulation is due to an action on delta type receptors, an effect which may be masked by simultaneous stimulation of mu-type receptors under certain conditions. Kappa-type receptors apparently are not involved in any of these effects. In addition, a diffusion of DADL to the adjacent SM may contribute to locomotor stimulation.

Comparison of two independent aromatic hydroxylation assays in combination with intracerebral microdialysis to determine hydroxyl free radicals.

The phenylalanine- and salicylate assay were compared to investigate the production of hydroxyl free radicals. In vitro experiment: Phenylalanine (100 micromol/l) or salicylic acid (100 micropmol/l) were incubated in a hydroxyl radical generating in vitro Fenton system with increasing concentrations (1.25--40 micromol/l) of equimolar hydrogen peroxide and ferrous ions. Both, phenylalanine and salicylic acid were able to trap hydroxyl radicals in a reliable way indicated by the linear relationship between the concentration of the Fenton reagents and either the phenylalanine derived products (ortho-, meta-, para-tyrosine) or the salicylic acid-derived products (2,3- and 2,5-dihydroxybenzoic acid (DHBA)). In vivo experiment: Wistar rats were implanted with microdialysis probes and striatal perfusion with either 5 mmol/l phenylalanine or 5 mmol/l salicylic acid was performed. Addition of the dopaminergic neurotoxin 6-hydroxydopamine (100 micromol/l, flow rate 2 microl/min, 60 min) to the perfusion fluid significantly increased the concentrations of ortho- and meta-tyrosine or 2,3-DHBA in comparison to control animals. All increases determined were rapidly reversible after changing back to pre-stimulation conditions. The results demonstrate that aromatic hydroxylation of phenylalanine or salicylic acid is a useful technique to investigate hydroxyl free radical formation in vitro and in vivo. Advantages and disadvantages of both methods are discussed.

Effects of cocaine on the EEG power spectrum of rats are significantly altered after its repeated administration: do they reflect sensitization phenomena?

It was previously shown that a moderate dose of cocaine (10 mg/kg i.p.) produces a pattern in the EEG power spectrum which indicates a preferential activation of dopamine D1-like receptors, namely a decrease of power in most of the frequency bands. In contrast, a large dose of cocaine (30 mg/kg i.p.) produces a decrease of power in most of the frequency bands as well, but a selective increase in the alpha-1 band, characteristic for an additional activation of dopamine D2-like receptors.In the present experiments, it was studied in rats, if in the course of sensitization, a shift from D1-like to additional D2-like receptor activation will occur or not. For this study, the animals were treated 10 times with cocaine (either 10 or 20 mg/kg) and, after a drug free interval of 4 days, tested with the same dose administered previously. Acute administration of 10 mg/kg of cocaine increased the Locomotor activity slightly and its effect tended to be enhanced after repeated administration. Twenty mg/kg cocaine increased the locomotor activity more than the 10 mg/kg dose and its effect was significantly enhanced after repeated treatment. In addition, it was shown that the dose of 10 mg/kg of cocaine which activates D1- but not D2-like receptors is sufficient to elicit conditioned place preference.Ten mg/kg of cocaine produced a decrease of power in most of the frequency bands and this effect was slightly more pronounced after repeated treatment. Twenty mg/kg of cocaine acutely also produced a decrease in power in most of the frequency bands, but did not decrease the power in the alpha-1 band, being just at the threshold of activating D2-like receptors as well. Repeated administration led to a significant increase in power in the alpha-1 band and a less pronounced one in the alpha-2 band. This observation demonstrates that sensitization to cocaine can be manifest in the EEG and that after a certain dosage, a shift from an activation of D1-like dopamine receptors to an additional activation of D2-like receptors becomes obvious.