Change in the charactertistics of 3H-spiperone binding to rat striatal membranes after acute chlorpromazine administration: effects of buffer washing of membranes.

After intraperitoneal injections of ³H-spiperone into the rat, brain membrane preparations retain the majority of the radioactivity even after several buffer washes. With ³H-spiperone as ligand, dissociation constants were significantly elevated and maximum binding unchanged in rat striatal membranes after acute intraperitoneal injection of chlorpromazine (14 mg/kg). It is suggested that in studies of post-mortem brains of schizophrenics that contain neuroleptics specific ³H-spiperone binding will be lowered by competition from residual drug in membrane preparations and valid comparisons of ³H-spiperone binding to preparations from control and schizophrenic brains can only be made if maximum binding values are determined.     

In vivo binding of 3H-N-methylspiperone to dopamine and serotonin receptors

3H-N-methylspiperone (3H-NMSP) was used to label dopamine-2 and serotonin-2 in vivo in the mouse. The striatum/cerebellum binding ratio reached a maximum of 80 eight hours after intravenous administration of 3H-NMSP. The frontal cortex/cerebellum ratio was 5 one hour after injection. The binding of 3H-NMSP was saturable in the frontal cortex and cerebellum between doses of 10 and 1,000 micrograms/kg. Between 0.01 and 10 micrograms/kg the ratio total/nonspecific binding increased from 14 to 21. Inhibition of 3H-NMSP binding in the frontal cortex and striatum by ketanserin, a selective serotonin-2 antagonist, demonstrated that 20% of the total binding in the striatum was to serotonin-2 receptors and 91% of the total binding in the frontal cortex was to serotonin-2 receptors. Compared to 3H-spiperone, 3H-NMSP results in a much higher specific/nonspecific binding ratio in the striatum and frontal cortex and displays more than a two-fold higher brain uptake.     

In vivo studies of dopamine receptor ontogeny

Studies of the ontogeny of dopamine and neuroleptic receptors in the central nervous system of the rat were carried out $\text{in vivo}$ using ³H-spiperone as ligand. It was demonstrated that intraperitoneal injections can be successfully used to label these receptors in rat pups up to at least 30 days of age. The time course and characteristics of ³H-spiperone binding in the brain of 5, 15 and 30 day old rat pups were determined and found to include appropriate regional distribution, saturability and appropriate pharmacology. The developmental pattern of ³H-spiperone binding paralleled what has been seen using $\text{in vitro}$ techniques. In addition preliminary autoradiographic studies describe the neuroanatomical pattern of dopamine receptor ontogeny in the striatum.     

The effect of chronic L-DOPA administration on supersensitive pre- and postsynaptic dopaminergic receptors in rat brain

Chronic administration of haloperidol induced supersensitivity of the pre- and postsynaptic dopaminergic receptors in rat brain. The response of the presynaptic receptors was determined by an enhanced inhibitory effect of apomorphine on dopamine synthesis after gamma-butyrolactone injection. This change in the receptor function was detected both in the nigrostriatal and mesolimbic pathways. Haloperidol also increased the ³H-spiperone binding sites in striatal membranes, indicating supersensitivity of the postsynaptic receptors. Subsequent prolonged treatment with high doses of L-DOPA/carbidopa resulted in a decrease in ³H-spiperone binding sites, but had no effect on the supersensitive presynaptic receptors. It is suggested that tardive dyskinesia may be a state of both pre- and postsynaptic dopamine receptor supersensitivity and that chronic L-DOPA treatment may have a differential effect on these sites.     

Dopamine-mediated behaviour and 3H-spiperone binding to striatal membranes in rats after nine months haloperidol administration

Rats were treated with haloperidol (1.5mg/kg/day) in their drinking water for 9 months, with or without a subsequent withdrawal period of 7–10 days. Compared with controls, spontaneous locomotion and apomorphine-induced stereotypy were reduced in rats maintained on haloperidol whereas both behaviours were increased after the withdrawal period. Maximum specific ³H-spiperone binding to striatal membrane preparations was increased (about 65%) in drug-treated rats with or without a withdrawal period. The dissociation constant for ³H-spiperone binding was significantly increased only in those rats maintained on haloperidol with no withdrawal period. The increase in maximum binding of ³H-spiperone was larger than that reported after less prolonged administration of neuroleptics. The size of the change should be taken into account in assessing the increased ligand binding reported in post-mortem brains of schizophrenics.     

Effect of long-term L-dopa administration on the dopaminergic and cholinergic (muscarinic) receptors of striatum in 6-hydroxydopamine lesioned rats

L-Dihydroxyphenylalanine (L-Dopa) (200 mg/kg/day) was administered for 30 days to the rats whose nigrostriatal dopamine pathway was lesioned unilaterally with 6-hydroxydopamine and the receptor binding of ³H-spiperone and ³H-quinuclidinyl benzilate (³HQNB) was measured in the dopaminergic and muscarinic cholinergic receptors of the striatum. ³H-spiperone binding increased by 73% and ³HQNB binding decreased by 14% in the lesioned side when compared to the control side of L-Dopa-non-treated rats. ³H-spiperone binding was measured in the lesioned sides of L-Dopa-treated and L-Dopa-non-treated rats and was found to have decreased by 21% in the former. In the control side of the L-Dopa-treated lesioned rats, however, ³H-spiperone binding increased by 27% when compared to the opposite striatum of the same rats. ³HQNB binding in the lesioned side of L-Dopa-treated rats was not significantly different from that of the control side statistically. These results suggest that changes in functional equilibrium between the dopaminergic and cholinergic mechanisms influence the muscarinic cholinergic receptors and that supersensitivity of dopamine receptors after lesion of the nigrostriatal pathway also remains after long-term L-Dopa treatment.     

Expression of luciferase in selected organs following delivery of naked and formulated DNA to rainbow trout (Oncorhynchus mykiss) by different routes of administration

In the present work, the expression of luciferase in selected organs following administration of DNA delivered as naked, liposome-formulated or chitosan-formulated by different routes of administration (intramuscular, intraperitoneal and intravenous injection, immersion and anal intubation) was studied in rainbow trout (Oncorhynchus mykiss). The different formulations and routes of administration both influenced in which organs luciferase was expressed and the magnitude of expression. The highest expression levels of luciferase in the head kidney and liver were found after an intraperitoneal injection of lipoplex 2. In the spleen, the highest levels were detected after injection of naked DNA (intraperitonal or intramuscular) and lipoplex 2 (intraperitoneal). Following intravenous injection, naked DNA gave higher expression levels in the organs than the formulated plasmids and immersion and anal intubation were not effective routes of delivery as no expression of luciferase could be detected in any of the organs tested. Additionally, PCR using a primer specific for a 600 bp region of the luciferase gene pcDNA3-luc was used to assess the distribution of the plasmid itself after intramuscular and intraperitoneal injection. Positive amplification was obtained in spleen, head kidney, liver and muscle at the injection site following injection of formulated plasmids, while only muscle tissue from the injection site was positive when naked DNA was used.     

Is clozapine selective for the dopamine D4 receptor?

Binding of ³H-spiperone and ³H-raclopride to membranes of cells stably-transfected with a human dopamine D₂ receptor clone was investigated, as was that of ³H-spiperone to those stably-transfected with a human D₄ receptor clone. ³H-spiperone and ³H-raclopride labeled the same number of sites in the D₂ receptor preparation. The inhibition of binding by clozapine, spiperone, (−) eticlopride, haloperidol and the novel substituted benzamide 1192U90 was also investigated. Clozapine and 1192U90 showed greater inhibition of ³H-raclopride binding than ³H-spiperone binding to the D₂ receptor. Comparison with inhibition of ³H-spiperone binding to the D₄ receptor revealed that clozapine and 1192U90 displayed apparent selectivity (as assessed by K_i ratios) for the D₄ receptor when compared with binding of ³H-spiperone, but not ³H-raclopride, to the D₂ receptor.     

Neurotensin interacts with dopaminergic neurons in rat brain

Neurotensin (NT) injected intracerebroventricularly in rat increases dopamine (DA) turnover in the corpus striatum and nucleus accumbens. Significant increases in 3,4-dihydroxyphenylacetic acid (DOPAC) levels occurred within 15 minutes after injection with peak levels at 60 minutes. The effect on NT on DOPAC and homovanillic acid (HVA) accumulation was dose-dependent at 3–100 μg. NT, like haloperidol, stimulated 3,4-dihydroxyphenylalanine (DOPA) accumulation in striatal neurons, in the presence of DOPA decarboxylase inhibitor, after injection of gamma-butyrolactone (GBL). NT had a similar stimulatory effect on DOPA levels in the accumbens while haloperidol (0.25 mg·kg^?1) had no significant effect in this brain region. NT did not block the inhibitory effect of apomorphine on DOPA accumulation in both the striatum and accumbens, while haloperidol inhibited apomorphine effect in both regions. NT also failed to displace ³H-spiperone from DA receptors and the presence of NT in the binding assay did not alter the ability of DA to displace ³H-spiperone in either brain region. These experiments demonstrate that NT increases DA turnover in both the nigrostriatal and mesolimbic pathways.     

Manipulations of synaptic serotonin: discrepancy of effects on serotonin S1 and S2 sites

The effect of repeated treatment (28 day) with D-fenfluramine, a serotonin (5HT) releaser, L-tryptophan, a 5HT precursor, or fluoxetine, a 5HT uptake inhibitor, on 3H-5HT and 3H-spiperone binding in the rat cerebral cortex was investigated. Treatment with fenfluramine and fluoxetine caused a significant decrease in the number of 3H-5HT binding sites (Bmax). Fenfluramine also decreased binding of 3H-spiperone in the cortex, but fluoxetine treatment increased this binding. Treatment with L-tryptophan produced no change in the binding of either 3H-5HT or of 3H-spiperone significantly. The data show that manipulation of synaptic 5HT concentration does not always result in parallel changes in S1 and S2 receptors. This suggests that the 5HT S1 and S2 receptors may be subject to different regulatory mechanisms.     

Estrogenic regulation of uterine cyclic amp metabolism

Ovariectomized and ovariectomized, estrogen-treated (48 h) rats were injected intravenously with increasing doses of epinephrine. Uteri were frozen in situ 30 s later. Estrogen pre-treatment significantly increased the sensitivity of both cyclic AMP and phosphorylase to epinephrine. The cyclic AMP response to intravenous injection of the pure β-agonist, isoproterenol, was enhanced by estrogen pre-treatment (48 h) and the cyclic AMP response of isolated uteri treated with epinephrine in vitro was also enhanced by in vivo estrogen pre-treatment (48 h). Other groups of ovariectomized rats were treated with estrogen and cyclic AMP levels were estimated at various times after estrogen treatment. 6 h after intraperitoneal injection and 48 h after subcutaneous injection, estrogen caused 20 and 30% increases in cyclic AMP. Estrogen had no effect on cyclic AMP 30 s after intravenous injection or 15 min after intraperitoneal injection. The was also no change in uterine catecholamine sensitivity 30 s after intravenous estrogen injection.The uterine site(s) at which estrogen acts to alter uterine cyclic AMP metabolism could be uterine β-adrenergic receptors, adenyl cyclase, and/or phosphodiesterase.     

Cation specificity of 3H-sulpiride binding involves alteration in the number of striatal binding sites

Specific ³H-sulpiride binding to rat striatal membranes shows an absolute requirement for the presence of sodium ions in the incubation buffer. Potassium, rubidium and caesium ions were unable to initiate specific ³H-sulpiride binding in a sodium free buffer, and lithium ionscould only partially replace sodium ions. Specific ³H-spiperone binding was unaffected by variation of the cation content of the incubation buffer. The alteration in ³H-sulpiride binding caused by sodium and lithium ions was due predominantly to an increase in the number of available binding sites, rather than to altered receptor affinity. Sodium ions may be essential for the accessability of ³H-sulpiride to a single site labelled also by ³H-spiperone. However, the Ki value for sulpiride displacement of ³H-spiperone in the presence of sodium ions was 20 times greater than the K_D value for ³H-sulpiride binding. So, ³H-sulpiride may interact with a highly sodium dependent binding site distinct from that labelled by ³H-spiperone.     

Effect of organophosphates on dopamine and muscarinic receptor binding in rat brain

The effect of Soman, Sarin and Vx, known potent cholinesterase inhibitors, on the binding of several neurotransmitter receptors in various regions of brain was studied. Vx, exhibited considerable inhibition of binding of 3H-N-methylscopolamine (3H-NMS) to muscarinic receptors and of 3H-spiperone to dopamine D2 receptors in the striatum. 3H-NMS binding was 50% inhibited at 10(-6)M and 90% at 10(-3)M Vx. Inhibition of 3H-spiperone binding by Vx in striatum had an ID50 of 10(-5)M. KD of the treatment was affected more than Bmax. Binding inhibition of both 3H-NMS and 3H-spiperone in post-mortem brain of rats pre-treated with Vx confirmed the specificity of the organophosphates effect, since other organophosphates and ligands failed to show any activity.     

Differential effects of chronic clorgyline and amfonelic acid on desensitization of striatal dopamine receptors

Chronic treatment of rats with the MAOI clorgyline significantly reduced the density (Bmax) of cortical beta-adrenergic receptors but did not alter either the Bmax or dissociation constant (Kd) of 3H-spiperone binding to striatal DA receptors. Clorgyline co-treatment also did not significantly affect either behavioral supersensitivity to apomorphine or the increase in 3H-spiperone binding induced by chronic haloperidol. In contrast, repeated treatment with the DA uptake inhibitor amfonelic acid elicited behavioral subsensitivity and reduced striatal 3H-spiperone binding. Furthermore, amfonelic acid co-treatment prevented haloperidol-induced behavioral and receptor binding changes. The possible relevance of these findings in relation to drug choice in clinical trials of receptor sensitivity modification are discussed.     

A SERUM FACTOR INDUCING MONOCYTOSIS DURING AN ACUTE INFLAMMATORY REACTION CAUSED BY NEWBORN CALF SERUM

An intraperitoneal injection of newborn calf serum (NBCS) into CRF Swiss mice causes an inflammatory reaction characterized by an increase in the number of macrophages in the peritoneal cavity and a concomitant monocytosis. The serum of such mice contains a monocytosis-inducing factor, as demonstrated by the intravenous injection of serum collected 18 (CalS 18) and 24 hr (CalS24) after the intraperitoneal injection of NBCS. Serum from normal untreated mice, from mice given an intraperitoneal injection of sterile pyrogen-free saline, which does not cause an inflammatory reaction, or from mice 72 hr after an intraperitoneal injection of NBCS, when the inflammatory reaction has subsided, does not cause a monocytosis in test mice. Intravenous injection of CalS 18 causes not only a monocytosis but also an increase in the number of promonocytes and bone marrow monocytes, suggesting an increased production of monocytes. The effect of CalS 18, CalS24 and CalS 18 filtrate is specific for the mononuclear phagocytes, since only non-significant increases in the numbers of lymphocytes and granulocytes were observed. The active factor in CalS 18 was shown to be different from the monocytosis-inducing factor present in NBCS. The monocytosis-inducing factor in CalS 18 passes through an ultrafiltration membrane with an exclusion limit of 50,000 Daltons, so that the molecular weight must be below this value.     

Stimulation by cerulein--an analog of the octapeptide cholecystokinin--of 3H-spiroperidol binding after the long-term administration of neuroleptics

It has been established in experiments on white male rats that prolonged administration (twice a day for 14 days) of haloperidol (0.25 mg/kg) and pyreneperone (0.25 mg/kg) resulted in the reduced interaction between 3H-spiroperidol and low affinity binding sites for apomorphine in subcortical structures, whereas 3H-spiroperidol binding with high affinity binding sites for apomorphine increased both in the frontal cortex and subcortical structures of the forebrain. After prolonged administration of neuroleptics the displacing effect of cerulein, an analog of cholecystokinin octapeptide, was replaced by the stimulant action on 3H-spiroperidol binding. It is assumed that increased interaction between 3H-spiroperidol and high affinity binding sites for apomorphine on dopamine2- and serotonin2-receptors underlies the antipsychotic action of neuroleptics after their prolonged administration. Cholecystokinin octapeptide is a necessary factor for realization of this action of neuroleptics.     

Effects of pH and Ascorbic Acid on 3H-Spiperone and 3H-Dihydroalprenolol Binding in Rat Forebrain Homogenates

Abstract

The binding of the neuroleptic agent ³H-spiperone and the beta-blocker ³H-dihydroalprenolol (³H-DHA) was investigated in rat forebrain homogenates. The pH of the buffer medium was found to specifically affect binding to certain sites. Omission of ascorbic acid from the binding assay influenced binding in a pH-dependent way. Preincubation with a relatively low concentration of ascorbic acid markedly reduced the binding of both ligands except the nonspecific binding of ³H-spiperone. Lipid peroxidation as revealed by malonyldialdehyde formation, was increased by low and decreased by high ascorbic acid concentrations. The possible relationship between changes in number of binding sites and liposolubility is discussed.     

Comparison of the intravenous and intraperitoneal routes of administration of tritiated thymidine in studies of cell production in the gastrointestinal tract of the rat

Incorporation of 3H-Thymidine into DNA-synthesizing cells of the gastrointestinal tract of the rat was examined following administration of the isotope by intraperitoneal and intravenous routes. Estimates of whole tissue incorporation expressed as DPM/mg dry weight and of proliferating cells expressed as DPM/crypt or gland in the different segments of the gut indicated no differences in the degree of 3H-TdR uptake into DNA following intraperitoneal or intravenous routes of administration. The possibility of misdirected I.P. injections was examined following injection of 3H-TdR into the cecum or bladder. DPM/mg wet weight of gastrointestinal tissues indicated reduction in the uptake of 3H-TdR into DNA of intestinal tissues following intracecal and intrabladder administration of 3H-Tdr. The intraperitoneal route of administration of 3H-TdR appears to be equally effective in the distribution of the isotope into different segments of the gut when compared to the intravenous route and is a more convenient method in studies of cell production in the gastrointestinal tract of the rat.     

Age-related changes in dopamine receptor densities in the brain of the honey bee, Apis mellifera

Changes in the levels of binding of ³H-SCH-23390, a vertebrate D1 dopamine receptor ligand, and ³H-spiperone, a vertebrate D2 dopamine receptor ligand were investigated in the brain of the worker honey bee during metamorphic adult development and during the lifetime of the adult bee. Age-related fluctuations in binding levels were markedly different for these two ligands. ³H-SCH-23390 and ³H-spiperone binding sites were present at low levels during metamorphic adult development. After adult emergence, however, ³H-SCH-23390 binding levels, in contrast to those of ³H-spiperone, increased significantly. Within the first 48 h of adult life ³H-SCH-23390 binding reached a level not significantly different from that detected in forager bees. No significant fluctuations in the levels of ³H-spiperone binding were observed during the adult lifetime of the bee. Measurements of dopamine levels in the brains of pupal and adult bees revealed no direct correlation between fluctuations in endogenous amine levels and the amount of binding of either ³H-SCH-23390 or ³H-spiperone. These results provide evidence for subtype-specific patterns of expression of dopamine receptors in the insect brain and show that D1- and D2-like receptors are expressed not only in the adult CNS, but also in the developing brain of the bee. Accepted: 4 June 1997     

A serum facted by newborn calf serum.

An intraperitoneal injection of newborn calf serum (NBCS) into CRF Swiss mice causes an inflammatory reaction characterized by an increase in the number of macrophages in the peritoneal cavity and a concomitant monocytosis. The serum of such mice contains a monocytosis-inducing factor, as demonstrated by the intravenous injection of serum collected 18 (CalS18) and 24 hr (CalS24) after the intraperitoneal injection of NBCS. Serum from normal untreated mice, from mice given an intraperitoneal injection of sterile pyrogen-free saline, which does not cause an inflammatory reaction, or from mice 72 hr after an intraperitoneal injection of NBCS, when the inflammatory reaction has subsided, does not cause a monocytosis in test mice. Intravenous injection of CalS18 causes not only a monocytosis but also an increase in the number of promonocytes and bone marrow monocytes, suggesting an increased in the number of promonocytes and bone marrow monocytes, suggesting an increased production of monocytes. The effect of CalS18, CalS24 and CalS18 filtrate is specific for the mononuclear phagocytes, since only non-significant increases in the numbers of lymphocytes and granulocytes were observed. The active factor in CalS18 was shown to be different from the monocytosis-inducing factor present in NBCS. The monocytosis-inducing factor in CalS18 passes through an ultrafiltration membrane with an exclusion limit of 50,000 Daltons, so that the molecular weight must be below this value.