The effect of frontal cortex lesion on the activity of the dopaminergic system in rat striatum

The experiment was carried out on male Wistar rats weighing 180-220 g with lesion in the cortex of the frontal lobe. The activity of the dopaminergic system was studied by means of behavioural tests such as determination of spontaneous motor activity, apomorphine-induced stereotypy, haloperidol-induced catalepsy. Increased intensity of stereotypy was observed reaching a maximum 14 days after frontal lobe damage. Moreover, a slight tendency was observed for inhibition of haloperidol-induced catalepsy without changes in the spontaneous motor activity of the animals. Biochemical investigations demonstrated reduced dopamine content in the striatum on the side of the lesion.     

Differential effect of morphine on dopaminergic neurons in frontal cortex and striatum of the rat

Inhibition of dopamine synthesis by a single injection of α-methyl-para-tyrosine (200 mg/kg, i.p.) was complete from 30 to at least 300 min after administration. When morphine (20 mg/kg) was given intraperitonealy 30 min after α-MpT treatment an enhanced decline of dopamine was observed in frontal parts of the cortex but not in the striatum. These results indicate that morphine affects dopaminergic neurons in frontal parts of the cortex in a way differently from those in the striatum of the rat. This may be caused either by a difference in the properties of dopaminergic nerve endings in both structures or by an effect of morphine on the input to the cortical system which is lacking in the striatum.     

Anxiolytic effects of theaflavins via dopaminergic activation in the frontal cortex

Epidemiological investigations have reported that the habit of drinking tea reduces the risk of developing a mental disorder, including anxiety disorder and depression. Theaflavins, black tea polyphenols, show antibacterial and anti-oxidative effects, but their effects on brain function, especially mental condition, have not been elucidated. The present study demonstrated that theaflavins increased dopamine (DA) turnover in the frontal cortex and showed an anxiolytic effect in mice. Theaflavin consumption increased the time spent by mice in the open arms of an elevated plus maze test. Theaflavin administration increased the levels of 3,4-dihydroxyphenylacetic acid (DOPAC) and the ratios of DOPAC/DA and (DOPAC+homovanillic acids)/DA indicating DA turnover, in the frontal cortex. These results suggest that the consumption of theaflavins induced anxiolytic effects via activation of the dopaminergic system in the frontal cortex, which support the findings of previous epidemiological studies. Theaflavins in black tea may be helpful to reduce anxiety in daily life. (150/150 words).     

D2 dopaminergic receptor activation enhances the spontaneous release of 3H-GABA in the prefrontal cortex of rats, in vitro. The facilitating role of D1 dopaminergic receptors

The effects of three D2 dopaminergic agonists on the spontaneous release of 3H-GABA have been studied on rat prefrontal cortical slices. LY171555 (10(-9) M), RU24926 (3 x 10(-8) M) and lisuride (10(-7) M) respectively enhanced the spontaneous release by 25, 20.5 and 23%. These effects were totally reversed by the D2 antagonist sulpiride (10(-5) M). Furthermore, subliminar concentration of RU24926 (10(-9) M) and of the D1 agonist SKF38393 (10(-6) M) induced a clear enhancement of the spontaneous release of 3H-GABA when they were superfused simultaneously. Our results suggest that in the prefrontal cortex, the spontaneous release of 3H-GABA is under an activatory D2 dopaminergic control. The activation of D1 receptors seems to have an enabling effect on this regulation.     

Data on the role of the frontal cortex in vegetative behavior

A homeostatic conditional reflex (CR) was elaborated to the effect of repeated inhalations in rats of a gas mixture containing 8 percent oxygen. The effect of the conditional response was opposite to that of the unconditional one. After ablation of the frontal cortex, the conditional reaction disappeared. The repeated administration of 40 mg/kg of histamine resulted in a tolerance to the temperature lowering effect of histamine similar to the habituation. An injection of distilled water brought about dishabituation. Tolerance was not influenced by the ablation of the frontal cortex, but the dishabituating effect of distilled water was absent.     

The interaction of the serotonin and dopaminergic systems of the brain in the mechanisms of latent inhibition in rats

Decrease of serotonin concentration in the septo-hippocampal region of Wistar male rats was obtained by introduction of 5,7-dihydroxytryptamine in the raphe median nucleus. In seven days, after 20 pre-expositions of the conditioned stimulus (presentation of the experimental chamber) conditioned reaction of passive avoidance was elaborated. In sham-operated control the pre-exposition of the conditioned stimulus caused latent inhibition, determined by several parameters: low level of conditioned reaction reproduction, its prolonged preservation at the formed level and nonsubjection to amnesia. Introduction of haloperidol in a dose of 0.5 mg/kg one hour before learning restored the state of latent inhibition disturbed by switching off of the mesolimbic serotonin system. It is supposed that in the state of pre-exposition, the decrease of attention to nonreinforced stimulus takes place because of the intensification of inhibitory influence of the serotoninergic system and reciprocal decrease of dopaminergic system activity.     

An active role of inferior frontal cortex in conscious experience

1. Download : Download high-res image (245KB)
2. Download : Download full-size image

     

Layer-specific innervation of the dopamine-deficient frontal cortex in weaver mutant mice by grafted mesencephalic dopaminergic neurones

Summary The dopamine innervation of the frontal cortex originates in the A9 and A10 mesencephalic dopamine cell groups. In weaver mutant mice, there is a 77% frontocortical dopamine deficiency associated with losses of dopamine neurones in areas A9 and A10. The dopamine-depleted cortical areas of weaver mutant mice are receptive to reinnervation by afferent fibres originating in dopamine-containing mesencephalic grafts from normal donor embryos. In the anteromedial frontal lobe, reinnervation by tyrosine hydroxylase immunoreactive fibres is largely confined to the basal cortical layers whereas in the anterior cingulate cortex, tyrosine hydroxylase immunoreactive fibres also occupy superficial layers, including the molecular layer. Normally, the dopaminergic innervation of the anteromedial frontal lobe is distributed among the basal cortical layers (IV–VI), and the dopaminergic innervation of the cingulate cortex occupies both basal and superficial cortical layers. The pattern of innervation following transplantation indicates that, in repopulating dopamine-deficient cortical areas of recipient weaver mutants, graft-derived dopamine fibres show a preference for those layers which are normally invested by dopamine afferents.     

The role of prefrontal dopamine D1 receptors in the neural mechanisms of associative learning

Dopamine is thought to play a major role in learning. However, while dopamine D1 receptors (D1Rs) in the prefrontal cortex (PFC) have been shown to modulate working memory-related neural activity, their role in the cellular basis of learning is unknown. We recorded activity from multiple electrodes while injecting the D1R antagonist SCH23390 in the lateral PFC as monkeys learned visuomotor associations. Blocking D1Rs impaired learning of novel associations and decreased cognitive flexibility but spared performance of already familiar associations. This suggests a greater role for prefrontal D1Rs in learning new, rather than performing familiar, associations. There was a corresponding greater decrease in neural selectivity and increase in alpha and beta oscillations in local field potentials for novel than for familiar associations. Our results suggest that weak stimulation of D1Rs observed in aging and psychiatric disorders may impair learning and PFC function by reducing neural selectivity and exacerbating neural oscillations associated with inattention and cognitive deficits.     

D-2 dopamine receptors in the frontal cortex of rat and human

D-2 dopamine receptors and serotonin receptors in the frontal cortex of rat and human were labelled with 3H-spiroperidol. The D-2 receptors were then distinguished in 4 ways. Dissociation of spiroperidol was biphasic, indicating two populations of sites. Cinanserin in competition with 3H-spiroperidol exhibited high (75%) and low (25%) affinity sites. Dopamine and LY 141865 in competition with 1.25 nM 3H-spiroperidol exhibited high (20-25%) and low (80-75%) affinity sites in the absence of cinanserin, while in the presence of 300 nM cinanserin only the high affinity sites remained. Lesioning of the dopaminergic meso-cortical pathway increased the number of cinanserin-resistant sites by 26%. Thus 3H-spiroperidol binding in the presence of cinanserin can be used to selectively label D-2 receptors in the frontal cortex.     

The role of D1 and D2 dopamine receptors of the rat nucleus accumbens in immunostimulation

The analysis of the immune response changes in Wistar rats has shown that bilateral electrolytic lesions of the nucleus accumbens characterized by a high density of D1 an D2 dopamine (DA) receptors resulted in a decrease of the immune response to SRBC. Administration of selective agonists of D1 and D2 DA receptors to sham-operated animal: 20 mg/kg of SKF 38393 or 1.0 mg/kg of quinpirol, respectively, produced significant enhancement of plaque- and rosette-formation. However, the immune response level in the damaged rats did not increase following quinpirol administration, but was maintained at control values, rather. At the same time, activation of D1 DA receptors in rats with destructed nucleus accumbens did not affect the immune response level as compared to that of sham-operated animals receiving SKF 38393. The data obtained give evidence of involvement of D2 DA receptors of the nucleus accumbens in immunomodulation, although D2 DA receptors of other brain structures may also contribute to this process. D1 DA receptors of this localization seem not to play any important role in the immune response control.     

Effects of subchronic nicotine administration on central dopaminergic mechanisms in the rat

Nicotine was administered acutely and subchronically (14 days) to determine whether various synaptic mechanisms are selectively altered in the nigrostriatal and mesolimbic dopaminergic systems in the rat. When added to tissue preparations in vitro, nicotine had no effects on tyrosine hydroxylase, synaptosomal uptake of [³H]dopamine or binding of [³H]spiperone to D₂ receptors in either system. However, acute treatment in vivo stimulated tyrosine hydroxylase activity in the nucleus accumbens. This effect was prevented by pretreatment with a nicotinic antagonist, suggesting that it was mediated by nicotinic receptors. Since subchronic exposure to nicotine had no effect on tyrosine hydroxylase, it appears that tolerance develops to this action. In vivo treatment with nicotine did not alter dopamine uptake or receptor binding. The results suggest that, in doses which result in moderate plasma levels, nicotine has selective stimulant actions on nerve terminals of the mesolimbic system.     

GLT-1 down-regulation induced by clozapine in rat frontal cortex is associated with synaptophysin up-regulation

In rat frontal cortex, extracellular levels of glutamate are raised by the anti-psychotic drug clozapine. We have recently shown that a significant reduction in the levels of the glutamate transporter GLT-1 may be one of the mechanisms responsible for this elevation. Here we studied whether GLT-1 down-regulation induced by chronic clozapine treatment is associated with changes in the expression of synaptophysin, synaptosome-associated protein of 25 kDa (SNAP-25) and vesicular glutamate transporter 1 (VGLUT1), three major presynaptic proteins involved in neurotransmitter release. Quantitative high-resolution confocal microscopy studies in vivo showed that GLT-1 down-regulation is closely associated with a significant increase in synaptophysin, but not SNAP-25 and VGLUT1, expression. This was confirmed in vitro studies, and in western blotting studies of synaptophysin, SNAP-25 and VGLUT1. In addition, our results show that, following clozapine treatment, synaptophysin expression increases in the very cortical regions in which GLT-1 expression is down-regulated. These findings suggest that part of the effects of clozapine may be exerted via an action on the presynaptic machinery involved in neurotransmitter release.     

Haloperidol-mediated phosphoinositide hydrolysis via direct activation of alpha1-adrenoceptors in frontal cerebral rat cortex.

In addition to its effect on D2 dopamine receptor blockades, haloperidol is able to interact with multiple neurotransmitters (NTs). Its action on phosphoinositide (PI) turnover was studied on cerebral cortex preparations. It induces an increase in inositol phosphate (IP) accumulation, which was only blunted by the alpha1-adrenoceptor blocker prazosin. Haloperidol maximal effect (Emax) was less than the effect of the full agonist norepinephrine (NE), and dose-response curves for both NE in the presence of submaximal doses of haloperidol and haloperidol in the presence of Emax doses of NE showed that haloperidol behaves as a partial agonist of cerebral alpha1-adrenoceptors. Its effect on PI hydrolysis is mediated through phospholipase C activation, as 2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate (NCDC) and 1-[6-([(17beta)-3-methoxyestra- 1,3,5(10)-trien-17-yl]amino)hexyl]-1H-pyrrole-2,5-dione) (U-73122) were able to abrogate both haloperidol and NE actions. Further, the typical neuroleptic exerts a direct activation of alpha1-adrenoceptors as its actions were not modified by cocaine and persisted in spite of chemical rat cerebral denervation with 6-hydroxydopamine (6-OHDA). The possibility that this agonistic action on alpha1-adrenoceptors would be involved in haloperidol side effects is also discussed.     

Effects of neuropeptide Y on alpha 1-and beta-adrenoceptor-stimulated second messenger systems in rat frontal cortex

Neuropeptide Y (NPY) (1 microM) significantly reduced the basal cAMP concentration in slices of rat frontal cortex. However, NPY (10(-9)-10(-6)M) did not alter the isoproterenol-stimulated (10(-9)-10(-5) M) accumulation of cAMP in the frontal cortical slices, showing that Y2 NPY receptors do not modulate the beta-adrenoceptor-stimulated adenylase cyclase activity. NPY (10(-8)-2.5 x 10(-5) M) was also demonstrated to stimulate inositol phosphate accumulation in rat frontal cortex slices in a dose-dependent manner. However, NPY (1 microM) did not potentiate the ability of phenylephrine (5 X 10(-8)-10(-4) M), an alpha 1-adrenoceptor agonist, to stimulate inositol phosphate hydrolysis. The combined effects of phenylephrine and NPY (1 microM) on inositol phosphate hydrolysis were additive, suggesting that the alpha 1-adrenoceptor and NPY Y1 receptor sites are located on different postsynaptic sites in rat frontal cortex. This study demonstrates the existence of both Y2 and Y1 NPY receptors in the rat frontal cortex based on second messenger systems, but there does not appear to be an interaction of NPY with either alpha 1- or beta-adrenoceptors.     

Hemodynamic response of the frontal cortex elicited by intravenous thiamine propyldisulphide administration

The intravenous olfaction (IVO) test is a unique type of clinical olfactometry and is widely used in Japan. However, it is difficult to distinguish actual olfactory disturbance from feigned disturbance because the IVO test is a psychophysical test. To resolve this problem, we investigated the possibility of an objective IVO test assisted with near infrared spectroscopy (NIRS). IVO testing was performed according to the usual protocol with thiamine propyldisulphide (alinamin) administration. The relative oxy- and deoxyhemoglobin levels of the orbitofrontal area during olfactory stimulation by IVO test were measured by NIRS. Pairs of NIRS emitters and detectors were positioned on the bilateral frontal scalp. After administration of alinamin, oxyhemoglobin levels increased, though deoxyhemoglobin levels did not change. An increase in oxyhemoglobin levels was observed bilaterally. Administration of saline did not elicit any change in the oxy- or deoxyhemoglobin levels and concentration of the administered alinamin related increasing of the oxyhemoglobin level was observed. Oxyhemoglobin remained unchanged in anosmic subjects despite administration of alinamin. The latency of oxyhemoglobin increase on each side and smelling latency showed significant correlation. Latencies of oxyhemoglobin increases between the right and left sides also showed significant correlation. Oxyhemoglobin response appears to be linked to olfactory related response. NIRS is a useful technique for the development of an objective form of IVO testing.     

Serotonin receptors in the frontal cortex of the rat. Influence of supralethal irradiation

The density of the frontal cortex serotonin-2 receptors was determined after a supralethal irradiation (20 Gy) in Wistar rat. Using spiperone as ligand, we observed an important decrease in the density of serotonin-2 receptor and an increase in the dissociation constant receptor-ligand, 3 days after exposure.     

Effects of the stimulation of D1 and D2 dopaminergic receptors on the electrically induced release of gamma-(3H)-aminobutyric acid in the prefrontal cortex of the rat

The effects of D1 and D2 dopaminergic agonists and antagonists on the electrically-evoked release of gamma-[3H] aminobutyric acid (3H-GABA) have been studied on rat prefrontal cortex slices. The major part of the electrically-evoked release of 3H-GABA appeared to be Ca++ dependent since a 62% decrease was observed when calcium was removed from the superfusion medium. Two specific D2 dopaminergic agonists, RU 24926 (10(-7) M) and lisuride (10(-6) M), respectively induced a 32% and a 50% inhibition of the electrically-evoked release of 3H-GABA. The selective D2 dopaminergic antagonists sulpiride (10(-5) M) totally abolished the effect of RU 24926 and partially abolished the effect of lisuride. The selective D1 agonist SKF 38393 (10(-5) M) did not affect 3H-GABA release. These results suggest that in the rat prefrontal cortex in vitro, the dopaminergic modulation of 3H-GABA release is mediated through D2 but not D1 receptors. The activation of D2 dopaminergic receptors induces an inhibition of the electrically-evoked release of 3H-GABA.     

Venlafaxine enhances the effect of bupropion on extracellular dopamine in rat frontal cortex

Venlafaxine is recognised as an effective treatment for depression and is known to inhibit the reuptake of serotonin (5-HT) and noradrenaline (NA). Another antidepressant, bupropion, acts to inhibit dopamine (DA) and NA reuptake and is commonly co-administered with other antidepressants to improve the efficacy of the antidepressant effect. The present study was designed to investigate the acute effect of combining the 2 drugs on extracellular levels of 5-HT, DA, and NA in rat frontal cortex using brain microdialysis, with the drugs being administered by intraperitoneal injection (i.p). Bupropion (10 mg/kg body mass, i.p.) alone had no effect on extracellular 5-HT levels, whereas venlafaxine (10 mg/kg, i.p.) alone significantly elevated extracellular 5-HT over basal values. As expected, bupropion alone elevated extracellular dopamine above basal values at 40 min post-drug administration, and this effect lasted for a further 2 h. Venlafaxine alone did not statistically elevate extracellular dopamine. The co-administration of venlafaxine with bupropion resulted in a dramatic increase in extracellular dopamine, and this effect was significantly greater than that seen with bupropion alone. In the frontal cortex, NA was elevated by bupropion alone and venlafaxine alone, relative to the control animals. The combination of bupropion and venlafaxine resulted in a marked elevation of NA.