Benzodiazepine receptor and neurotransmitter studies in the brain of suicides

The characteristics of benzodiazepine binding sites (affinity, number heterogeneity) were studied on frozen sections of hippocampus of 7 suicides and 5 controls subjects, using biochemical and autoradiographic techniques. 3H flunitrazepam was used as ligand, clonazepam and CL 218,872 as displacing agents. Some neurotransmitters or their derivatives (GABA, catecholamines, hydroxy-indols) were evaluated quantitatively in parallel in the hippocampal tissue by liquid chromatography. We observed mainly an increase in the Ki of CL 218,872 subtype I binding sites in suicides, (7.48±1.7 to 17.24±1.7 nM, P < 0.01), (m±SEM) and an increase in % of type I binding sites (30±4.2 to 42±2.5, P=0.01). Among neurotransmitters, only norepinephrine differed significantly between controls and suicides (11.34±1.9 to 24.34 ng/gtissue, P=0.02).     

Heterogeneity of Benzodiazepine Receptors in the Central Nervous System Demonstrated with Kenazepine, an Alkylating Benzodiazepine

Binding studies using the alkylating benzodiazepine kenazepine strongly suggest the existence of several populations of benzodiazepine receptors in the CNS. Kenazepine reacts noncompetitively and irreversibly with some receptors and competitively (reversibly) with others. Cerebellum contains the largest proportion (approx. 80%) of the noncompetitive type, while hippocampus and cortex contain a preponderance of competitive-type receptors (approx. 80 and 50%, respectively). The Hill coefficients for kenazepine are approx. 0.7 in cortex and cerebellum, and near unity in dorsal hippocampus. Different populations of benzodiazepine receptors may mediate different physiologic and pharmacologic effects in vivo.     

Ontogenesis of the insulin receptor in the rabbit brain

We delineated the ontogeny of the brain insulin binding, insulin receptor number and affinity using plasma membranes isolated from the rabbit. Specific 125I-insulin binding and receptor number expressed per milligram of protein increased from the 20 day gestation fetus to the 1-day-old newborn, declining thereafter to attain adult values by day 6 of postnatal life. Specific 125I-insulin binding and the receptor number in the adult brain was less than the fetal and neonatal (1 day) brain receptors. Although a similar trend was observed specifically during fetal development, the changes in receptor number expressed per microgram DNA were not significant in the neonatal period. The adult brain insulin receptor number was higher than the 20- to 27-day fetus and similar to that of the 30-day fetus and the 1- to 5-day newborns. The total receptor number correlated linearly with the brain plasma membrane protein increment velocity. The affinity of the receptors increased during early fetal development (20-27 days) and remained constant thereafter in the postnatal period. We conclude that the ontogenic changes of the brain insulin receptors are similar to the ontogenic changes of brain plasma membrane protein. The developmental changes are more pronounced when the receptor number is expressed per milligram protein versus microgram DNA.     

Benzodiazepine receptor heterogeneity: possible molecular basis and functional significance

The pharmacological actions of the benzodiazepines (BZs) are thought to be mediated through specific receptor sites in the mammalian central nervous system. Characterization of these receptor sites in the brain has yielded evidence for heterogeneity of BZ receptor sites. Current theories on the molecular basis of the apparent BZ receptor heterogeneity and the possible functional significance of BZ receptor subtypes are presented. Studies of BZ receptor heterogeneity have provided insights into the molecular events that may be responsible for BZ modulation of gamma-aminobutyric-ergic function.     

Progesterone receptor mRNA expression and distribution in the female rabbit brain

Progesterone regulates diverse functions in the rabbit brain through the interaction with its nuclear receptor (PR). Although PR protein has been detected in some regions of the rabbit forebrain, PR mRNA expression and distribution in the rabbit brain are unknown. Hence, we investigated these issues by in situ hybridization. New Zealand adult female rabbits were ovariectomized and treated with vehicle or estradiol (5 μg/(kg day)) for 3 days. The results show an extended distribution of PR mRNA expression in the rabbit brain. The highest expression was detected in preoptic area and hypothalamic anterior nuclei such as paraventricular, periventricular and arcuate nuclei. A high expression was also detected in thalamic and telencephalic areas, including hippocampus and cerebral cortex. Estradiol treatment induced an increase in PR mRNA expression in many brain areas, particularly in the hippocampus and the hypothalamic and preoptic area regions. The wide distribution of PR mRNA in the rabbit brain suggests that progesterone through PR activation is involved in several functions apart from reproductive behavior in rabbits, and that PR expression is up-regulated by estradiol in the rabbit brain.     

Zolpidem Displays Heterogeneity in Its Binding to the Nonhuman Primate Benzodiazepine Receptor In Vivo

Abstract: The distinctive pharmacological activity of zolpidem in rats compared with classical benzodiazepines has been related to its differential affinity for benzodiazepine receptor (BZR) subtypes. By contrast, in nonhuman primates the pharmacological activity of zolpidem was found to be quite similar to that of classical BZR agonists. In an attempt to explain this discrepancy, we examined the ability of zolpidem to differentiate BZR subtypes in vivo in primate brain using positron emission tomography. The BZRs were specifically labeled with [¹¹C]flumazenil. Radiotracer displacement by zolpidem was monophasic in cerebellum and neocortex, with in vivo Hill coefficients close to 1. Conversely, displacement of [¹¹C]flumazenil was biphasic in hippocampus, amygdala, septum, insula, striatum, and pons, with Hill coefficients significantly smaller than 1, suggesting two different binding sites for zolpidem. In these cerebral regions, the half-maximal inhibitory doses for the high-affinity binding site were similar to those found in cerebellum and neocortex and ～100-fold higher for the low-affinity binding site. The low-affinity binding site accounted for <32% of the specific [¹¹C]-flumazenil binding. Such zolpidem binding characteristics contrast with those reported for rodents, where three different binding sites were found. Species differences in binding characteristics may explain why zolpidem has a distinctive pharmacological activity in rodents, whereas its pharmacological activity in primates is quite similar to that of classical BZR agonists, except for the absence of severe effects on memory functions, which may be due to the lack of substantial zolpidem affinity for a distinct BZR subtype in cerebral structures belonging to the limbic system.     

Heterogeneity Between Rat and Calf Peripheral-Type Benzodiazepine Binding Sites: Differential Sensitivity to Triton X-100

Abstract

The effect of various detergents treatment on the specific binding of [³H]PK 11195 (2nM) to peripheral-type benzodiazepine binding sites (PBS) in calf and rat kidney, adrenal gland, and cerebral cortex membranes was studied. At a concentration of 0.025%, Triton X-100 increased [³H]PK 11195 specific binding to calf kidney, adrenal gland, and cerebral cortex membranes by 20–40%. At the same concentration, Triton X-100 scarcely affected specific binding of [³H]PK 11195 to rat cerebral cortex but decreased binding to rat kidney and adranal gland membranes by 20–30%. At a concentration of 0.05% of Triton X-100, [³H]PK 11195 specific binding to calf kidney, adrenal gland, and cerebral cortex membranes was increased by 10–20%; whereas [³H]PK 11195 specific binding to rat kidney, adrenal gland, and cerebral cortex membranes was decreased by more than 40%. The increase in [³H]PK 11195 specific binding to calf kidney membranes following Triton X-100 (0.05%) treatment was apparently due to an increase in the binding affinity of PBS, since the density remained unaltered; whereas, the decrease in [³H]PK 11195 specific binding to rat kidney membranes was due to a decrease in both binding affinity and density of PBS. On the other hand, the detergents 3- [(3- cholamidopropyl)- dimethylammonio] - 1 - propane sulfonate (CHAPS), Tween 20, deoxycholic acid, and digitonin have a similar effect on [³H]PK 11195 specific binding to PBS in both calf and rat kidney membranes.     

Electric shock convulsions in the rabbit and brain cortex GABAA receptor function

The effect of electric shock convulsions (ESC) on the function of brain cortex GABA_A receptors has been studied in the rabbit. Three single electroconvulsive shocks (ECS) were given at intervals of 48 hours and the brain cortex was sampled 36 hours after the last shock. The dose-response curve was determined for GABA-stimulated³⁶Cl^– accumulation into brain cortex microsacs. The parameters of the curve (maximal accumulation rate, K_a and Hill coefficient, n) were constant when determined in two different series of experiences. Animals handled in the same way as the animals from the electric shock group but which did not receive the ECSs (sham ECS group) showed similar maximal accumulation rate and K_a. However, theaverage n coefficient was significantly higher in the electric shock group. Naive animals, taken from their cages just before the sacrifice, showed dose-response curves which varied from one experimental series to another. This last result (confirming previous observations) shows modifications and inconsistencies in the evaluation of GABA_A receptor function in stressed handling-naive animals.Clinica Neurologica dell'Universita.     

Heterogeneity of tachykinin receptors in the rabbit lung

The tachykinins, substance P (SP) and neurokinin A (NKA), are agonists for the NK₁ and NK₂ receptors, respectively. Tachykinins have various respiratory effects, including bronchoconstriction. This study characterizes tachykinin binding sites in the rabbit lung. We hypothesize that (2-[¹²⁵I]iodohistidyl¹)Neurokinin A ([¹²⁵I]NKA) interacts with NK₁ and NK₂ binding sites in the rabbit lung. The K_d determined from saturation isotherms was 0.69 X/÷1.14 nM (geometic mean X/÷ SEM) and the B_max was 4.15±0.22 femtomole/mg protein (arithmetic mean±SEM). Competitive inhibition studies with NKA, SP and various selective tachykinin agonists showed the rank order of potency: [β-Ala⁸]-Neurokinin A 4–10=SP ≫ NKA ≫ [Sar⁹,Met(O₂)¹¹]-Substance P. [β-Ala⁸]-Neurokinin A 4–10, a selective NK₂ agonist, and SP inhibition of [¹²⁵I]NKA binding were best described using a two-site model. Competitive inhibition studies using the selective nonpeptide NK₂ antagonist (SR 48968) and the selective nonpeptide NK₁ antagonist (CP 96,345) revealed K_i's of 5.5 nM and 8.1 nM, respectively. Our data therefore suggest that [¹²⁵I]NKA binds to both the NK₁ and NK₂ receptors in the lung. Special issue dedicated to Dr. Kinya Kuriyama.     

Benzodiazepine receptor sites in the chick optic lobe: Development and pharmacological characterization

To investigate the, interaction between -aminobutyric acid (GABA) and benzodiazepine (BZD) receptor sites during development, the time-course of appearance of flunitrazepam (FNZ) binding sites and their pharmacological characterization were studied in developing chick optic lobe. At the earliest stage examined, embryonic day (Ed) 12, the receptor density was 30.9 % (0.05±0.01 pmol/mg protein) of that found in the chick optic lobes of adult chicks. The adult value was achieved on Ed 16 (0.16±0.01 pmol/mg protein). After this stage there was a sharp and transient increase in specific [³H]FNZ binding of about two-fold reaching a maximal value between hatching and the postnatal day (pnd) 2 (0.33±0.01 pmol/mg protein). Scatchard analysis at different stages of development revealed the presence of a single population of specific FNZ binding sites. The increase in [³H]FNZ binding during development was due to a large number of binding sites while their affinity remained unchanged. Competition experiments in the chick optic lobe revealed that the order of potency for displacement of specific [³H]FNZ binding paralleled the pharmacological potency of the BZDs tested. The IC₅₀ s for clonazepam, flunitrazepam, Ro 15-1788 and chlordiazepoxide were 3.02, 4.30, 0.32, and 4778.64 nM respectively. Ro 5-4864, a potent inhibitor of BZD binding to peripheral tissues, had no effect on specific [³H]FNZ binding indicating that only central BZD binding sites are present in the chick optic lobe. The peak of maximal expression of BZD receptor sites precedes in 5–6 days the peak of GABA receptor sites indicating a precocious development of BZD receptor sites. The different appearance of both peaks may represent important events during development probably related to synaptogenesis.     

Benzodiazepine binding in human brain: characterization using [3H]flunitrazepam.

[³H]Flunitrazepam was used to characterize benzodiazepine binding sites in human brain. The benzodiazepine binding sites exhibited high affinity, pharmacological specificity and saturability in their binding of [³H]flunitrazepam. The dissociation constant (K_D) of [³H]flunitrazepam binding was determined by three different methods and found to be in the range of 2–3 nM. The potency of several benzodiazepine analogs to inhibit specific [³H]-flunitrazepam binding $\text{in}$$\text{vitro}$ correlated well with their potency in several $\text{in}$$\text{vivo}$ human and animal tests. The density of [³H]-flunitrazepam binding sites was highest in the cerebrocortical and rhinencephalic areas, intermediate in the cerebellum, and lowest in the brain stem and commissural tracts.     

Heterogeneity of acid beta-galactosidase from rabbit kidney

1. Rabbit kidney acid beta-galactosidase can be resolved into three peaks (named A3, A2 and A1) by gel-filtration chromatography. Their estimated molecular weights were: more than 250,000, 150,000 and 17,000 respectively. 2. The purified acid form appeared as a single band of protein (Mr = 28,000) on electrophoresis in the presence of sodium dodecyl sulphate, suggesting that forms A3 and A2 are multimeric forms of beta-galactosidase A1. 3. Treatment with neuraminidase from Clostridium perfringens converts form A3 into a more basic form. This phenomenon occurs also when this form is stored for a week at 4 degrees C and parallels its disaggregation. 4. The data suggest that the sialic acids present in the multimeric forms are involved in the aggregation of the acidic form of beta-galactosidase.     

Heterogeneity of rabbit aortic endothelial cells in primary culture

Factor VIII-related antigen (F8-RAg) and angiotensin-converting enzyme (ACE) are accepted diagnostic markers of endothelial cells in culture. However, when we isolated cells from rabbit thoracic aorta (after collagenase treatment and gentle scraping of the intima) and examined them with immunoperoxidase techniques, we observed two cell types which stained specifically for either F8-RAg or ACE, but not both. Each cell type was morphologically distinguishable in primary culture. F8-RAg-positive cells were recognizable in distinct patches as more elongated, tightly apposed, and firmly adherent cells; they exhibited only faint or no staining for ACE and no accumulation of a fluorescent, acetylated low-density lipoprotein probe (DiI-Ac-LDL), another endothelial cell marker. In contrast, ACE-positive cells were more rounded, less closely apposed, and grew as strict monolayers that exhibited a characteristic cobblestone appearance at confluence; ACE-positive cells were F8-RAg negative, but demonstrated intense labeling with DiI-Ac-LDL. Subcultures of ACE-positive cells were also stained by anti-rabbit thrombomodulin.     

Heterogeneity and ontogenesis of progestin receptors in rabbit lung

In order to evaluate the possible role of progesterone in fetal lung development, the presence of specific pulmonary progestin receptors and their ontogenesis were investigated in the rabbit fetus. Scatchard analysis of binding in lung cytosol from 29-day fetuses over a wide range of [³H]-R5020 concentrations indicates the presence of at least two binding sites. One of these sites, type I, is of very high affinity (K_D = 0.12 nM) and low capacity (26fmol per mg protein). The second binding site, type II, is of lower affinity (K_D = 36 nM) and higher capacity (240 fmol per mg protein). These two binding sites can be distinguished by sucrose density gradient centrifugation, the type I component sedimenting at 7.1 S and the type II component sedimenting at 4.5 S. Similar type I and type II sites are present in adult lung cytosol except that the type II binding component in adult lung sediments at 2.8 S rather than 4.5 S. Progesterone and R5020 compete well with [³H]-R5020 for binding to both sites while dexamethasone and cortisol do not compete. Thus the type I and type II binding sites appear to represent specific progestin receptors distinct from transcortin or the glucocorticoid receptor. The concentration of the type I sites increases significantly between the 20th and 29th day of gestation, with a further increase being observed in adult animals. The type II site is not measurable until 26 days of gestation and attains adult levels by day 29. Among a large number of fetal tissues examined, the lung contained the highest concentration of type I progestin receptor sites.Although cortisol and dexamethasone, even at very high concentrations, do not compete with [³H]-R5020 for binding to lung cytosol, the binding of [³H]-dexamethasone is inhibited significantly by nonlabeled progesterone or R5020 and this inhibition appears to be due to dissociation of [³H]-dexamethasone-receptor complexes. These results indicate that, in addition to type I and type II progestin receptor sites, fetal lung cytosol contains a third binding site, type III, which appears to be different from the glucocorticoid receptor site. Occupation of the type III site by progestins interferes with the binding of glucocorticoids to glucocorticoid receptors perhaps by increasing the rate of dissociation of glucoeortieoid-receptor complexes.     

Benzodiazepine receptor loss in brains of mice after chronic alcohol consumption

Benzodiazepine receptors in crude mitochondrial fractions of whole brains of mice were decreased in density and affinity after the animals had consumed alcohol in liquid diets for 7 months and then solid laboratory food for 1 month. These mice were compared with control mice pair-fed with the same liquid diet containing isocaloric amounts of sucrose. The maximal binding (B_max) of alcohol-treated mice was found to be decreased by 12% from 1580 to 1340 fmol/mg protein and the dissociation constant (K_D) was increased from 1.4 to 2.0 nM. Acute intoxication lasting for 2 weeks had no effect. It is hypothesized that once brain damage in the form of decreased synaptic receptor numbers and affinity has been induced by chronic alcohol consumption, this change in receptors could in itself become a cause of self-perpetuating alcohol abuse. Specifically the loss of anxiolytic receptors caused by chronic alcohol consumption could enhance anxiety and the compensatory consumption of the sedative alcohol.     

Quantitation of ryanodine receptor of rabbit skeletal muscle, heart and brain

The total number of high-affinity ryanodine receptor (RyR) binding sites present in skeletal and cardiac muscle and in brain tissue of the rabbit was determined by [3H]ryanodine binding to subfractions obtained by differential centrifugation of homogenates prepared in a low-ionic strength medium, containing 0.5% Chaps. In all three tissues at least 80% of [3H]ryanodine binding was recovered in the total membrane (TM) fraction obtained by centrifuging between 650 g for 10 min and 120,000 x g for 90 min. Skeletal muscle displayed higher contents of high-affinity RyR sites (about 49 pmol/g wet wt) than heart and brain (about 12 pmol and 3.5 pmol/g wet wt, respectively). The affinity for ryanodine, as well as the affinity for Ca2+, in the absence or presence of Ca2(+)-releasing drugs (caffeine and doxorubicin) of TM from skeletal muscle, were found to be identical to those of purified terminal cisternae. As low as 1 g of tissue was sufficient to perform several experiments.