Mechanisms governing the accumulation of estrogen receptor alpha in MCF-7 breast cancer cells treated with hydroxytamoxifen and related antiestrogens

This study aimed at a better understanding of estrogen receptor alpha (ER) up regulation induced by partial estrogen antagonists. Effect of treatment with hydroxytamoxifen (OH-Tam) on ER level in MCF-7 cells was investigated by an approach combining ER measurement (enzyme immunoassay) and morphological demonstration (immunofluorescence). Furthermore, the influence of drug exposure on the rates of ER synthesis and degradation was assessed by determining [35S]methionine incorporated into the receptor in different experimental conditions (measurement of synthesis or pulse-chase experiments). ER up regulation was already induced by a 1-h pulse treatment with OH-Tam, thus a continuous exposure was not required. This process appeared reversible (i.e. ER accumulation due to OH-Tam rapidly vanished upon subsequent exposure to 17beta-estradiol (E2) or the pure antiestrogen RU 58668). While OH-Tam did not affect the rate of [35S]methionine incorporation into ER, it clearly caused an impairment of ER degradation (pulse-chase experiments) indicating that up regulation results from a stabilization of the receptor associated with the maintenance of its synthesis. Various tamoxifen derivatives, as well as a few related partial antiestrogens, were compared on the basis of binding ability and propensity to induce ER up regulation. A close relationship was found between both properties. Structure-activity analysis revealed that the capacity of these compounds to induce ER up regulation is associated with characteristics of their aminoalkyle side-chain, similar to those required for antiestrogenicity.     

Demonstration of steroid hormone receptors and steroid action in primary cultures of rat glial cells

Primary cultures of rat glial cells were established from newborn rat forebrains. A mixed population of oligodendrocytes and astrocytes was obtained, as confirmed by indirect immunofluorescence staining with specific markers for each cell type. Receptors were measured 3 weeks after primary culture in glial cells cultured in the presence or not of 50 nM estradiol and we have identified progesterone, glucocorticoid, estrogen, and androgen receptors (PR, GR, ER and AR), but only PR was inducible by the estrogen treatment. This estrogen-induction of PR was more dramatic in glial cells derived from female offsprings than from males, as measured by binding studies and by immunohistochemical techniques with the KC 146 anti-PR monoclonal antibody. The antiestrogen tamoxifen inhibited the estrogen induction, but had no effect by itself on PR concentration. Specific binding sites for PR, GR, ER and AR were measured by whole cell assays after labeling cells with, respectively, [³H]R5020, [³H]dexamethasone, [³H]OH-tamoxifen or [³H]R1881. PR and GR were also analyzed by ultracentrifugation and after exposure of cells to agonists, both receptors were recovered from cytosol as a 9S form, and from the nuclear high-salt, tungstate ions-containing fraction as a 4–6S form. In contrast, when the antiprogestin- and antiglucocorticosteroid RU486 was used as a ligand, a non-activated 8.5S receptor complex was found for both receptors in this nuclear fraction. The 8.5S complex of the GR was further analyzed in the presense of specific antibodies and, in addition to GR, the presence of the heat shock protein hsp90 and of a 59 kDa protein was found.

During primary culture, the effects of progesterone (P) and estradiol (E₂) were tested on glial cell multiplication, morphology and differentiation. Cell growth was inhibited by P and stimulated by E₂. Both hormones induced dramatic morphologic changes in oligodendrocytes and astrocytes and increased synthesis of the myelin basic protein in oligodendrocytes and of the glial fibrillary acidic protein in astrocytes.     

hsp70 is not required for high affinity binding of purified calf uterine estrogen receptor to estrogen response element DNA in Vitro

Bovine estrogen receptor (ER) was purified to near homogeneity by estrogen response element (ERE) affinity chromatography, and its ERE binding ability was measured in vitro. Highly purified ER bound EREs with reduced affinity compared to partially purified ER. Partially purified ER contained hsp70, but highly purified ER did not. We examined whether addition of purified recombinant human hsp70 or purified bovine hsp70 would restore the higher ERE binding affinity, stoichiometry, and ligand retention detected with partially purified receptor and how hsp70 affected the rate of ER-ERE association and dissociation. ER-ERE binding was not affected by antibodies to either constitutive or induced forms of hsp70, regardless of ER purity. Addition of purified hsp70, with or without ATP and Mg²⁺, did not affect the association or dissociation rates of highly purified liganded ER binding to ERE. hsp70 Did not alter the total amount of ER-ERE complex formed. Similarly, hsp70 did not affect the rate of [³H]estradiol (E₂) or [³H]4-hydroxytamoxifen (4-OHT) ligand dissociation from ER in the presence or absence of EREs. These data contrast with a report showing that maximal ERE binding by highly purified recombinant human ER required hsp70. We conclude that ER, purified from a physiological source, i.e., calf uterus, does not require hsp70 for maximal ER-ERE binding in vitro. Additionally, once ER is activated and bound by ligand, the receptor assumes its proper tertiary structure, and hsp70 does not impact ER ligand binding domain conformation.     

Determination of turnover of androstenedione to estrone via aromatase in estrogen receptor positive and negative human breast cancer cell lines [Poster 48]

In one estrogen receptor (ER) negative (MDA-MB-231) and two ER positive human breast cancer cell lines (T-47-D,SK-BR-3) we measured aromatase activity by [³H]water assay and estrone (E1) production by thin-layer chromatography. Compared with ether extraction and charcoal method, lyophilization proved to be the most sensitive technique to measure the quantity of [³H]water. The extremely low contamination of the water soluble phase by [1ß-³H]androstenedione (0.02%), as well as the lack of errors due to conjugated steroids, offers the possibility to measure changes of cellular aromatase activity even at very low levels. In contrast to SK-BR-3 and MDA-MB-231 cells, we found no aromatase activity in T-47-D cells. There was no coincidence between ER status and aromatase activity. Proliferation of tumor cells was parallel with a continuous increase of aromatase activity and E1 production during mitogenic growth phase reaching highest levels at the transition from log to plateau-phase.     

The metabolic fate of [H]estradiol in relation to dietary intake of boron in ovariectomized rats

It has been reported that boron (B) deprivation reversibly lowers plasma estradiol levels in postmenopausal women. In order to establish whether this reflects disturbances in the estrogen catabolic pathway and in particular in catechol estrogen metabolism, the influence of dietary B on the catabolism of [³H]estradiol-17β has been studied in ovariectomized rats. Rats were given diets containing <0.1 or 40 mg B.kg⁻¹, ovariectomized and then infused with [³H]estradiol-17β using osmotic pumps. Analysis of urine samples for conjugated, catechol and non-catechol estrogens did not reveal any effects of B on the recovery or the metabolic fate of tritium from the infused estradiol. These results do not therefore support the proposal that B influences estrogen catabolism by interacting with catechol estrogens.     

Mechanism of action of levonorgestrel: in vitro metabolism and specific interactions with steroid receptors in target organs.

Levonorgestrel (LNG) is a synthetic steroid that displays potent progestional and androgenic effects but it lacks estrogen-like activity. To examine the mode of action of this progestin, we studied its metabolism in vitro in target organs and the specific interactions of LNG and its metabolites with putative steroid receptors. The results demonstrated that [³H]LNG was efficiently converted to A-ring reduced derivatives when incubated with rat hypothalamus and pituitary. Under optimal incubation conditions, [³H]5-dihydro LNG (5-LNG) and [³H]3-5-tetrahydro LNG (3,5-LNG) were identified as the major metabolic conversion products, while [³H]3ß, 5-LNG formation occured to a lesser extent. A-ring reduction of LNG was NADPH-dependent. Assessment of the relative binding affinities of LNG and its derivatives to progesterone (PR), androgen (AR) and estrogen (ER) receptors by displacement analysis revealed that unchanged LNG binds with high affinity to PR and AR but not to ER. 5-LNG exhibited a diminished though significant interactions with PR and an enhanced binding affinity for AR as compared with LNG, indicating that 5-reduction of LNG increases its affinity for AR. The most striking finding was that further reduction of the 5-LNG molecule at C-3 abolished its binding activity to PR, AR, and even to ER. The overall data provides a plausible explanation for the lack of estrogen agonistic action of LNG and for its potent progestational and androgenic effects.     

Selective changes of neurotransmitter receptors in middle-aged gerbil brain

Age-related alterations in major neurotransmitter receptors and voltage dependent calcium channels were analyzed by receptor autoradiography in the gerbil brain. [³H]Quinuclidinyl benzilate (QNB). [³H]cyclohexyladenosine (CHA), [³H]muscimol, [³H]MK-801, [³H]SCH 23390, [³H]naloxone, and [³H]PN200-110 were used to label muscarinic acetylcholine receptors, adenosine A₁ receptors, γ-aminobutyric acid_A (GABA_A) receptors, (NMDA) receptors, dopamine D₁ receptors, opioid receptors, and voltage dependent calcium channels, respectively. In middle-aged gerbils (16 months old), the hippocampus exhibited a significant elevation in [³H]QNB, [³H]MK-801, [³H]SCH 23390, [³H]naloxone, and [³H]PN200-110 binding, whereas [³H]CHA and [³H]muscimol binding showed a significant reduction in this area, compared with that of young animals (1 month). On the other hand, the cerebellum showed a significant alteration in [³H]QNB, [³H]CHA, and [³H]naloxone binding and the striatum also exhibited a significant alteration in [³H]SCH 23390 and [³H]CHA binding in middle-aged gerbils. The neocortex showed a significant elevation only in [³H]CHA binding in middle-aged animals. The nucleus accumbens and thalamus also showed a significant alteration only in [³H]muscimol binding. However, the hypothalamus and substantia nigra exhibited no significant alteration in these bindings in middle-aged gerbils. These results demonstrate the age-related alterations of various neurotransmitter receptors and voltage dependent calcium channels in most brain regions. Furthermore, they suggest that the hippocampus is most susceptible to aging processes and is altered at an early stage of senescence.     

S1P-receptors in PC12 and transfected HEK293 cells: molecular targets of hypotensive imidazoline I(1) receptor ligands

The present study aimed at elucidating the molecular identity of the proposed “I₁-imidazoline receptors”, i.e. non-adrenoceptor recognition sites via which the centrally acting imidazolines clonidine and moxonidine mediate a major part of their effects. In radioligand binding experiments with [³H]clonidine and [³H]lysophosphatidic acid on intact, ₂-adrenoceptor-deficient PC12 cells, moxonidine, clonidine, lysophosphatidic acid and sphingosine-1-phosphate (S1P) competed for the specific binding sites of both radioligands with similar affinities. RNA interference with the rat S1P₁-, S1P₂- or S1P₃-receptor abolished specific [³H]lysophosphatidic acid binding. [³H]Clonidine binding was markedly decreased by siRNA targeting S1P₁- and S1P₃-receptors but not by siRNA against S1P₂-receptors. Finally, in HEK293 cells transiently expressing human S1P₃-receptors, sphingosine-1-phosphate, clonidine and moxonidine induced increases in intracellular calcium concentration, moxonidine being more potent than clonidine; this is in agreement with the known properties of the “I₁-imidazoline receptors”.

The present results indicate that the “I₁-imidazoline receptors” mediating effects of clonidine and moxonidine in PC12 and the transfected HEK293 cells belong to the S1P-receptor family; in particular, the data obtained in PC12 cells suggest that the I₁ imidazoline receptors represent a mixture of S1P₁- and S1P₃-receptors and/or hetero-dimers of both.     

Biochemical characterization and novel isolation of pure estrogen receptor hormone-binding domain

Biologically active, mouse estrogen receptor hormone-binding domain (residues 313–599) overexpressed in Escherichia coli was purified to apparent homogeneity as a single component with a molecular mass of 32.831 kDa determined by electrospray ionization mass spectrometry, and was identical to the mass predicted from the amino acid sequence. The intact domain was isolated using a novel, rapid purification scheme without recourse to any chromatographic process. Pure ERhbd maintained both high affinity estradiol binding (at optimum pH 8.0) and specificity for estrogens and anti-estrogens. The steroid-binding domain sedimented as a 4S component in the presence or absence of bound [³H]estradiol and at 2S in the presence of urea. The molecular mass of the 4S steroid unoccupied ERhbd (from dynamic light scattering) was 72 kDa, suggesting that the pure, unlabelled ERhbd formed homodimers. Steroid-labelled ERhbd electrofocussed as a single, acidic component at a pI of 5.6. Binding of ERhbd to [³H]estradiol was unaffected by Ca²⁺ and Mg²⁺ ions up to 1 mM but was significantly inhibited by Zn²⁺ ions at concentrations above 10 μM, an effect reversed by EDTA.     

Evidence of an estrogen receptor form devoid of estrogen binding ability in MCF-7 cells

In MCF-7 breast cancer cells, hydroxytamoxifen (OH-Tam) up-regulates the estrogen receptor (ER) in a form unable to bind [(3)H]estradiol (E(2)). We show here that this property is not restricted to this antiestrogen. [(3)H]E(2) binding assays (whole cell assays, DCC assays on cell extracts) and enzyme immunoassays (Abbott) performed in parallel, establish the permanent presence of such unusual ERs in the absence of any exposure of the cells to a ligand. E(2) and the pure antiestrogen RU 58 668, which down-regulate ER, also decrease [(3)H]E(2) binding. In control cells, these ERs represent about the half of the whole receptor population; they also display a tendency to stabilize within the cell nucleus. Loss of E(2) binding ability appears irreversible, since we failed to label receptor accumulated under OH-Tam with [(3)H]E(2) or [(3)H]tamoxifen aziridine (TAZ). Cycloheximide (CHX), which blocks E(2)-induced down regulation of ER, failed to stabilize [(3)H]E(2) binding (whole cell assay) after an [(3)H]E(2) pulse (1 h), confirming that regulation of E(2) binding and peptide level are related to different regulatory mechanisms. Loss of binding ability could not be ascribed to any ER cleavage as demonstrated by Western blotting with a panel of ER antibodies raised against its various domains (67 kDa ER solely detected). We propose that loss of E(2) binding ability is related to the aging process of the receptor, i.e. it is progressively converted to a form devoted to degradation after it has accomplished its physiological role. Ligands may favor (E(2), RU 58 668) or impede (OH-Tam) this elimination process.     

[H]WAY–100635 for 5–HT1A receptor autoradiography in human brain: a comparison with [H]8–OH–DPAT and demonstration of increased binding in the frontal cortex in schizophrenia

WAY–100635 is the first selective, silent 5–HT_1A (5-hydroxytryptamine_1A, serotonin-1A) receptor antagonist. We have investigated the use of [³H]WAY–100635 as a quantitative autoradiographic ligand in post-mortem human hippocampus, raphe and four cortical regions, and compared it with the 5–HT_1A receptor agonist, [³H]8–OH–DPAT. Saturation studies showed an average Kd for [³H]WAY–100635 binding in hippocampus of 1.1 nM. The regional and laminar distributions of [³H]WAY–100635 binding and [³H]8–OH–DPAT binding were similar. The density of [³H]WAY–100635 binding sites was 60–70% more than that of [³H]8–OH–DPAT in all areas examined except the cingulate gyrus where it was 165% higher. [³H]WAY–100635 binding was robust and was not affected by the post-mortem interval, freezer storage time or brain pH (agonal state). Using [³H]WAY–100635, we confirmed an increase of 5–HT_1A receptor binding sites in the frontal cortex in schizophrenia, previously demonstrated with [³H]8–OH–DPAT. Compared to [³H]8–OH–DPAT, [³H]WAY–100635 has two advantages: it has a higher selectivity and affinity for the 5–HT_1A receptor, and it recognizes 5–HT_1A receptors whether or not they are coupled to a G-protein, whereas [³H]8–OH–DPAT primarily detects coupled receptors. Given these considerations, the [³H]WAY–100635 binding data in schizophrenia clarify two points. First, they indicate that the elevated [³H]8–OH–DPAT binding seen in the same cases is attributable to an increase of 5–HT_1A receptors rather than any other binding site. Second, the enhanced [³H]8–OH–DPAT binding in schizophrenia reflects an increased density of 5–HT_1A receptors, not an increased percentage of 5–HT_1A receptors which are G-protein-coupled. We conclude that [³H]WAY–100635 is a valuable autoradiographic ligand for the qualitative and quantitative study of 5–HT_1A receptors in the human brain.     

A differential interaction of putative μ-selective agonists with opiate binding sites in rat brain

The availability of tritium-labelled sufentanil ([³H]SUF) allowed for a further radioligand analysis of opiate binding sites in rat brain. A comparison of the binding characteristics of [³H]SUF and [³H]dihydromorphine ([³H]DHM) revealed a very similar potency in their mutual displacement by unlabelled analogues. Furthermore, a series of putative μ-opiate agonists displayed equal potencies in displacing either [³H]SUF and [³H]DHM, the only striking exception being the highly μ-selective opioid peptide morphiceptin which was 33 times less potent in inhibiting [³H]SUF as compared to [³H]DHM binding. Additional experiments revealed further pronounced differences in [³H]SUF and [³H]DHM binding characteristics: the total amount of binding sites for [³H]SUF was 4 times higher than that for [³H]DHM and the regional distribution within particular brain areas displayed considerable differences. Furthermore, the binding of [³H]SUF was differentially modulated by sodium and GTP as compared to [³H]DHM binding. These data suggest that in rat brain, [³H]SUF interacts both with μ-opiate sites recognizing [³H]DHM and another type of opiate site, which cannot be equated with any of the, as yet, described δ- or κ-binding sites, and rather, represents a subclass of μ-opiate receptor sites. These experiments, thus, support the notion of subclasses (isoreceptors) for different types of opiate receptors.     

[H]lysergic acid diethylamide (LSD): differential agonist and antagonist binding properties at 5-HT receptor subtypes in rat brain

[³H]Lysergic acid diethylamide (LSD) in the presence of 40 nM ketanserin labeled the 5-HT_1A receptor subtype in rat hippocampal membranes. In the presence of guanosine triphosphate (GTP), the B_max and affinity of [³H]LSD binding to the 5-HT_1A binding site were significantly decreased. [³H]LSD in the presence of 40 nM WB4101 labeled the 5-HT₂ receptor subtype in homogenates of rat frontal cortex. In contrast to the effect on [³H]LSD binding to the 5-HT_1A binding site, GTP produced no significant effect on either the B_max or the K_D of [³H]LSD binding to the 5-HT₂ binding site. Competition of 5-HT for [³H]LSD binding to the 5-HT₂ binding site was best described by a computer-derived model assuming two binding sites. In the presence of GTP, the 5-HT competition curve was shifted significantly to the right with an approx. 3-fold increase in the IC₅₀. These binding characteristics are consistent with [³H]LSD acting as an antagonist at the 5-HT₂ receptor which has multiple affinity states for agonists and is coupled to a guanine nucleotide regulatory subunit. Thus, [³H]LSD has binding characteristics consistent with it acting as an agonist at the 5-HT_1A receptor subtype but as an antagonist at the 5-HT₂ receptor subtype in rat brain.     

Developmental effects of estrogenic chemicals are predicted by an in vitro assay incorporating modification of cell uptake by serum

Many estrogenic chemicals found in the environment (xenoestrogens) show a lower affinity for plasma estrogen binding proteins relative to the natural estrogens such as estradiol. These binding proteins, which include alphafetoprotein in rats and mice, sex hormone binding globulin in humans, and albumin in all species, regulate estrogen uptake into tissues. Therefore, the in vivo estrogenic potency relative to estradiol of xenoestrogens that show lower binding to these serum proteins will thus be underestimated in assays that compare the potency of xenoestrogens to estradiol and do not take serum binding into account. We have examined the effects of the binding components in serum on the uptake of a number of xenoestrogens into intact MCF-7 human breast cancer cells. Since most estrogenic chemicals are not available in radiolabeled form, their uptake is determined by competition with [³H]estradiol for binding to estrogen receptors (ER) in an 18-h assay. Serum modified access (SMA) of cell uptake of xenoestrogens is calculated as the RBA in serum-free-medium ÷ the RBA in serum, and the bioactive free fraction of xenoestrogen in serum is then also calculated. We predicted the concentration of two xenoestrogens, bisphenol A and octylphenol, required to alter development of the prostate in male mouse fetuses. Whereas octylphenol was predicted to be a more potent estrogen than bisphenol A when tested in serum-free medium, our assay predicted that bisphenol A would be over 500-times more potent than octylphenol in fetal mice. The finding that administration of bisphenol A at a physiologically relevant dose predicted from our in vitro assay to pregnant mice from gestation day 11 to 17 increased adult prostate weight in male offspring relative to controls (similar to the effect of estradiol), while the same doses of octylphenol did not alter prostate development, provided support for our hypothesis.     

No Orcadian Rhythms of Serotoninergic, Alpha-, Beta-Adrenergic and Imipramine Binding Sites in Rat Brain Regions

B_max values of the specific binding of [³H]-WB 4101, [³H]-dihydroalprenolol, [³H]-spiperone and [³H]-imipramine to various rat brain regions were determined at 4 hr intervals over 24 hr under circadian conditions. No significant circadian rhythm of binding sites number was found for any receptor investigated in cerebral cortex, hypothalamus or brain stem. Some methodological issues are discussed.     

Biochemical and autoradiographic investigations of the retrograde axonal transport of labeled material following [H]norepinephrine injection in the olfactory bulb

Biochemical and autoradiographic methods were used to investigate the retrograde transport of labeled material after injection of [³H]norepinephrine ([³H]NE) in the olfactory bulb (OB) of rat. Mechanical obstruction of the ventricular recess prevented intraventricular diffusion. At different time intervals following bilateral [³H]NE injections, total radioactivity was measured in the OB, locus caeruleus (LC), raphe dorsalis and periaqueductal gray. Preferential accumulation occurred in the LC, and an approximate rate of retrograde transport of 1–6 mm/h could be calculated. Previous administration of 6-hydroxydopamine in the OB reduced this accumulation by 60%. Sixteen hours after [³H]NE injection, the radioactivity in LC was equally distributed between an ethanol-soluble and -insoluble fraction. A small proportion of the soluble material was recovered as [³H]NE and/or [³H]normetanephrine. Following unilateral injections of [³H]NE, light microscopic autoradiograms demonstrated nerve cell body labeling mainly in the ipsilateral LC and of greater intensity after 16 than 4 and 8 h. These data lead to the conclusion that the movement of radioactive material was indeed representative of retrograde axonal transport rather than of other mechanisms such as diffusion. The observation of a preferential labeling of noradrenergic perikarya in LC supports the hypothesis of a process mediated by specific binding and/or uptake of [³H]NE into noradrenergic axon terminals.     

Binding of [H][D-Ala, MePhe, Gly-ol] Enkephalin, [H][D-Pen, D-Pen]Enkephalin, and [H]U-69,593 to Airway and Pulmonary Tissues of Normal and Sensitized Rats

Bhargava, H. N., V. M. Villar, J. Cortijo and E. J. Morcillo. Binding of [³H][D-Ala², MePhe⁴, Gly-ol⁵]enkephalin, [³H][D-Pen², D-Pen⁵]enkephalin, and [³H]U-69,593 to airway and pulmonary tissues of normal and sensitized rats. Peptides 18(10) 1603–1608, 1997.—The role of endogenous opioid peptides in the regulation of bronchomotor tone, as well as in the pathophysiology of asthma is uncertain. We have studied the binding of highly selective [³H]labeled ligands of μ-([D-Ala², MePhe⁴, Gly-ol⁵]enkephalin; DAMGO), δ ([D-Pen², D-Pen⁵]enkephalin; DPDPE), and κ-(U-69,593) opioid receptors to membranes of trachea, main bronchus, lung parenchyma and pulmonary artery obtained from normal (unsensitized) and actively IgE-sensitized rats acutely challenged with the specific antigen. [³H]DAMGO, [³H]DPDPE and [³H]U-69,593 bound to membranes of normal and sensitized tissues at a saturable, single high-affinity site. The rank order of receptor densities in normal tissues was δ- ≥ κ- ≥ μ-, with lung parenchyma exhibiting the greatest binding capacity for δ- and μ- receptors compared to the other regions examined. The K_d values showed small differences between ligands and regions tested. The μ- and δ-opioid receptor densities were decreased in sensitized main bronchus and lung parenchyma, respectively, compared to normal tissues. By contrast, κ-opioid receptor density was augmented in sensitized lung parenchyma but an increase in K_d values was also observed. These differential changes in the density and affinity of opioid receptor types may be related to alterations in endogenous opioid peptides during the process of sensitization.     

3-Mercaptopropionic acid administration increases the affinity of [H]Quinuclidinyl benzilate binding to membranes of the striatum and cerebellum

It is known that quinuclidinyl benzilate (QNB) binds specifically and with high affinity to the cholinergic muscarinic receptor and that behaves as a potent antagonist of this receptor.

We have analysed -[³H]QNB binding to rat CNS membranes after the administration of the convulsant 3-mercaptopropionic acid (MP) (150 mg·kg⁻¹, i.p.). The studies were done in rats killed at two stages: during and after seizures. No changes in [³H]QNB binding to hippocampus and cerebral cortex membranes were found. [³H]QNB binding increased about 40 and 80% in striatum and cerebellum membranes, respectively. The changes were observed both in seizure and postseizures states. The study was extended to the assay of [³H]QNB binding kinetic constants in the anatomical areas modified by the convulsant. The analysis of the saturation curves indicated an increase in the binding affinity but no change in the number of binding sites. Hill number values were near the unit suggesting a non-cooperative interaction between the ligand and the receptor, and the labelling of a homogeneous population of receptor sites.

The results suggest the participation of some cholinergic pathways in the development and maintenance of MP-induced seizures.