Differential effect of chronic dopaminergic treatment on dopamine D1 and D2 receptors in the monkey brain in MPTP-induced parkinsonism.

Dopamine D1 and D2 receptors located within the striatum (caudate nucleus and putamen) were studied autoradiographically, using [3H]SCH 23390 and [3H]sulpiride respectively, in (i) seven monkeys rendered parkinsonian by the systemic administration of MPTP, four of which were chronically exposed to anti-parkinsonian drugs (levodopa or apomorphine), (ii) two hemi-parkinsonian monkeys (induced by intra-carotid infusion of MPTP), one of which received chronic exposure to apomorphine, and (iii) three control monkeys which received neither MPTP nor dopaminergic drugs. Anti-parkinsonian drug exposure resulted in a reversal of symptoms and was accompanied by the development of limb dyskinesias. In parkinsonian monkeys not chronically exposed to drugs. [3H]SCH 23390 binding was slightly but not significantly elevated above control values, whilst in the same animals [3H]sulpiride binding was significantly increased above that found in the control group. Rostrally [3H]SCH 23390 binding was similar in the control and drug-exposed parkinsonian groups but more caudally there was a small consistent, although not significant, increase in [3H]SCH 23390 binding in the drug-exposed animals as compared to the parkinsonian monkeys not exposed to drugs. In contrast at all rostro-caudal levels [3H]sulpiride binding in the drug-exposed parkinsonian group was lower than the corresponding values from the non-drug exposed animals. [3H]SCH 23390 binding showed no major side-to-side difference in the hemi-parkinsonian animal which was not exposed to levodopa/apomorphine, whilst in the hemi-parkinsonian monkey which received apomorphine there was again an increase in binding on the MPTP-treated side of the brain. In both drug- and non-drug exposed hemi-parkinsonian animals there was a greater density of [3H]sulpiride binding in the parkinsonian side of the brain; the general level of binding in the drug-exposed monkey was less than that seen in the other animal. These results would support the idea that in MPTP-induced parkinsonism, dopaminergic denervation results in a greater change in the D2 receptors, but furthermore would indicate a differential effect of levodopa/apomorphine exposure on the D1 and D2 receptor populations. Drug exposure apparently encourages the reversal of the MPTP-induced increase in the D2 receptor binding, whilst the D1 receptor binding appears to proliferate in response to these drugs. These results may have important implications in relation to the development of dyskinesias, subsequent to the chronic use of some anti-parkinsonian drug treatments.

Further investigations into the pathophysiology of MPTP-induced parkinsonism in the primate: an intracerebral microdialysis study of gamma-aminobutyric acid in the lateral segment of the globus pallidus.

The technique of intracerebral microdialysis has been employed to examine the extracellular level of gamma-aminobutyric acid (GABA) within the lateral segment of the globus pallidus of two cynomolgus monkeys, before and after the induction of parkinsonism with N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). Microdialysis probes were acutely implanted through indwelling cannulae positioned at several sites above the lentiform nuclei in the conscious primates, and the basal and potassium (100 mM) evoked amino acid levels were monitored for 3 h. These procedures were repeated at fresh sites within the lateral globus pallidus following the induction of parkinsonism with MPTP. The levels of a number of amino acids, including Asn, Ala, Gln, Ser, and Tau were unchanged following MPTP treatment, whereas both the basal and K(+)-evoked release of GABA was consistently increased. This observation represents further corroboration of the evidence for increased GABAergic input to the lateral globus pallidus in MPTP-induced parkinsonism.

Reduction of [125I]Bolton Hunter CCK8 and [3H]MK-329 (devazepide) binding to CCK receptors in the substantia nigra/VTA complex and its forebrain projection areas following MPTP-induced hemi-parkinsonism in the monkey.

Cholecystokinin (CCK) receptors were visualized autoradiographically using [125I]Bolton Hunter CCK8 ([125I]BHCCK8) in the fore- and midbrain of 3 monkeys rendered hemi-parkinsonian by unilateral intra-carotid infusion of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). More specifically, CCK-A receptors were detected using [3H]MK-329 (devazepide), a peripheral-type (CCK-A) receptor antagonist. In the substantia nigra pars compacta, ipsilateral to the toxin infusion, where dopamine D2 receptors (labelled with [3H]sulpiride) were lost, there was a decrease in the binding of both [125I]BHCCK8 and [3H]MK-329. Binding of the two CCK ligands was also reduced in the ipsilateral nucleus accumbens and most medial part of the caudate nucleus, whereas 3H-sulpiride binding was increased in the lateral caudate nucleus and putamen. These results indicate that CCK-A receptors may be located on dopaminergic cells within the substantia nigra, which are lost in the parkinsonian brain, and may also be present on dopaminergic terminals within restricted regions of nigral/ventral tegmental area projection sites.

Autoradiographic studies in animal models of hemi-parkinsonism reveal dopamine D2 but not D1 receptor supersensitivity. II. Unilateral intra-carotid infusion of MPTP in the monkey (Macaca fascicularis).

The selective dopaminergic antagonist ligands [3H]SCH 23390 and [3H]sulpiride were used to reveal autoradiographically dopamine D1 and D2 receptors, respectively, in brain sections from monkeys which had received unilateral intracarotid infusions of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), causing loss of dopamine-containing neurones of the substantia nigra pars compacta. The monkeys developed hemi-parkinsonian symptoms (tremor, bradykinesia) in limbs contralateral to the side of the toxin infusion. Administration of apomorphine (0.05-0.25 mg/kg) caused contralateral rotational behaviour, and reversal of the parkinsonian symptoms. Loss of forebrain dopaminergic terminals was assessed autoradiographically using [3H]mazindol to label dopamine uptake sites. A reduction in these sites of 97% (mean brain value) in the caudate nucleus, and 91% in the putamen, as compared with binding values from untreated control monkeys, was accompanied by a significant increase in the binding of [3H]sulpiride (D2) in these structures. In contrast, in the same animals there was no similar increase in [3H]SCH 23390 binding to D1 receptors in the denervated areas. These results suggest that in the parkinsonian brain, where the dopaminergic innervation of the caudate nucleus and putamen has been lost, D2 receptors may be more susceptible than D1 receptors to changes, revealed here as an increase in [3H]sulpiride binding sites.

Autoradiographic studies in animal models of hemi-parkinsonism reveal dopamine D2 but not D1 receptor supersensitivity. I. 6-OHDA lesions of ascending mesencephalic dopaminergic pathways in the rat.

The selective dopaminergic antagonist ligands [3H]SCH 23390 and [3H]sulpiride were used to reveal autoradiographically dopamine D1 and D2 receptors, respectively, in brain sections from rats which had received unilateral 6-hydroxydopamine (6-OHDA) injections destroying ascending nigrostriatal neurones. The binding of both ligands to striatal sections was first shown to be saturable, reversible and of high affinity and specificity [( 3H]SCH 23390: Bmax 2.16 pmol/mg protein, Kd 1.4 nM; [3H]sulpiride; Bmax 0.67 pmol/mg protein, Kd 10.7 nM). After unilateral stereotaxic 6-OHDA injections, rats rotated contralaterally when challenged with apomorphine (0.5 mg/kg), or specific D1 or D2 agonists, SKF 38393 (1.0-5.0 mg/kg) and LY 171555 (0.05-0.5 mg/kg), respectively. Loss of forebrain dopaminergic terminals was assessed autoradiographically using [3H]mazindol to label dopamine uptake sites. A loss of approximately 90-95% of uptake sites was reproducibly accompanied by an enhanced density of binding ipsilaterally for the D2 ligand, [3H]sulpiride, in all areas of the striatum, but most markedly in the lateral areas. An increase in the D2 binding site density was also seen in the ipsilateral nucleus accumbens and the olfactory tubercle. In contrast, in the same animals, the striatal D1 receptors were far less affected by dopaminergic denervation, with no consistent changes seen in the binding of [3H]SCH 23390. These results suggest that dopamine D2 receptors are more susceptible than D1 receptors to changes after dopaminergic denervation, which is expressed as an increase in the density of binding sites revealed here with [3H]sulpiride.

Injection of excitatory amino acid antagonists into the medial pallidal segment of a 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) treated primate reverses motor symptoms of parkinsonism.

Intracerebral injections of the broad spectrum excitatory amino acid antagonist kynurenic acid (50 ug) alleviated the symptoms of akinesia, tremor and rigidity in a severely parkinsonian monkey. Unilateral injection of kynurenic acid within the medial pallidal segment produced rotational behaviour away from the side of the injection, and the limbs on the contralateral side showed relief of the MPTP-induced parkinsonian symptoms. The subsequent bilateral injection of the excitatory amino acid antagonist allowed the monkey to move freely, unhindered by tremor or rigidity. In addition unilateral injections of the NMDA antagonist MK-801 (5, 25 and 50 ug) within the medial pallidum also produced dose-related rotational behaviour, with alleviation of parkinsonian symptoms in the contralateral limbs. Systemic administration of MK-801 (1 ng/kg - 1 ug/kg i.m.) was without effect.

Sex dependence of clearance rates of aldosterone and its metabolites from plasma of intact rats.

Following I.V. injection of 3H-aldosterone, the rates of clearance of plasma 3H-radioactivity was demonstrated to be sex-dependent in intact rats. Even though the percentages of CH2Cl2-extractable plasma radioactivity are greater in female than in male rats, the quantities of CH2Cl2-extractable label are similar until 60 min post-injection. However, the quantities of non-extractable, polar metabolites of aldosterone (NEPD) are markedly greater in the plasma of males and rapidly reach peak levels 10 min post-injection of aldosterone. In females, these polar metabolites (NEPD) are rapidly cleared from the blood. After bile-duct cannulation, the rate of excretion of aldosterone radiometabolites was demonstrated to be rapid and sex-dependent. Within 1 hr., female rats excreted via the bile 82% of the injected dose of 3H-aldosterone, compared to 49% in male rats. In both sexes, greater than 95% of the total radioactivity excreted in the bile are non-extractable polar metabolites of aldosterone (NEPD). The sex hormones appear to influence not only the nature of metabolism of aldosterone in the liver, but also the rates of clearance of aldosterone and its metabolites from the plasma into the bile.

The metabolism and binding properties of 3H-aldosterone in plasma and its sex dependence in adrenalectomized rats.

The rates of clearance of plasma 3-H radioactivitivity following intravenous injection of 3-H aldosterone was demonstrated to be sex-dependent in adrenalectomized rats. The perchantage plasma radioactivity which is CH-2CL-2extractable is greater in female than in male rats from 5 min to 90 min postinjection; however the quantities of CH2-CL2-extractable label are not significantly different until 60 min postinjection. The quantities of nonextractable, water-soluble metabolites of adosterone (NEPD), which are markedly greater in the plasma of males, reach peak levels 30 min after injections of aldosterone, during the latent period of the hormone.N females, these polar metabolites (NEPD)are rapidly cleared from the blood. The quantities of 3-H-radioactivity associated with the plasma binding proteins are similar in both males and females. The unbound levels of aldosterone and its metabolities are significantly greater in the plasma of males. These findings indicate that the sex hormones may influence not only the metabolism of aldosterone in rats, but also the plasma levels of unmetabolized aldosterone and its metabolites.