Interaction of obidoxime with sarin in aqueous solution

The interaction of obidoxime (Toxogonin) with sarin was shown by different analytical methods. The UV spectrum of obidoxime at pH 7.4 yields two absorption maxima, lambda 1 = 284 nm and lambda 2 = 353 nm. The peak at lambda 2 = 353 nm is representative for the amount of zwitter-ionic obidoxime, i.e. the active form of obidoxime. By addition of sarin, lambda 1 shifts immediately to 278 nm and the intensity at lambda 2 decreases, thus indicating an interaction. TLC and 31P-NMR evidence shows that both mono-phosphonylated and diphosphonylated obidoximes are present. Decomposition of phosphonylated obidoxime in MOPS (3-[N-morpholino] propanesulfonic acid) buffered D2O at pH 7.4 occurs with t1/2 = 13.3 min at 24 degrees C. Decomposition of di-phosphonylated obidoxime is faster. It is suggested that decomposition of di-phosphonylated obidoxime occurs through the mono-phosphonylated form. Formation and decomposition of mono- and di-phosphonylated obidoxime is pH dependent. We conclude that obidoxime exerts a detoxifying effect by capturing free sarin molecules and thus increasing its polarity. Thereby the transition of sarin through the blood-brain barrier is restricted and its renal elimination facilitated.

Pharmacokinetics and pharmacodynamics of obidoxime in sarin-poisoned rats

The pharmacokinetics and pharmacodynamics of the oxime obidoxime (Toxogonin, 50 mg/kg iv) were investigated in anesthetized normal rats and in sarin-poisoned (50 micrograms/kg iv) rats. The kinetics were described by a two-compartment open model. The elimination half-life ranged from 35 min in normal rats to 86 min in sarin-poisoned rats. Obidoxime excretion occurred predominantly by the renal route, amounting to 4.6% of the administered dose in normal rats and to 0.9% in sarin-poisoned rats within the first hour of administration. The significantly diminished glomerular filtration rate confirmed the retardation of obidoxime excretion in sarin poisoning. The mean arterial blood pressure (MAP) response to obidoxime, measured in normal rats, was a transient hypotension, but to sarin an immediate hypertension. In sarin-poisoned rats the therapeutic sequence of administration of obidoxime and atropine (5 mg/kg iv) seemed to be important: the administration of atropine 10 min after and of obidoxime 20 min after sarin poisoning exerted a stabilizing effect on MAP. No serum albumin binding was found for obidoxime. Competition experiments at the isolated nicotinic receptor demonstrated the anticholinergic activity of obidoxime. The affinity of obidoxime was 1000 times smaller than that of acetylcholine. It is concluded that obidoxime, due to its prolonged residence time in the organism in sarin poisoning, exerts a "curare-like" inhibition and protection of the nicotinic acetylcholine receptor and, combined with atropine, a synergistic effect on blood pressure normalization.

Purification and isolation of choline acetyltransferase from the electric organ of Torpedo marmorata by affinity chromatography

Choline acetyltransferase (EC 2.3.1.6) catalyzes the synthesis of the neurotransmitter acetylcholine from acetylcoenzyme A and choline. It has been purified from the electric organ of Torpedo marmorata by a new double-affinity chromatography. Our rapid and specific purification procedure includes affinity chromatography on CoA-Sepharose and then a second affinity chromatography on the enzyme's inhibitor [2-[3-(2-ammonioethoxy)-benzoyl]ethyl]trimethylammonium bromide coupled to Sepharose via a six-carbon spacer arm. The final enzyme preparation has been purified 7300-fold to a specific activity of 73 mumol acetylcholine formed min-1 mg protein-1. The isolated enzyme gave a single band on disc polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The relative molecular mass was determined to be 68,300 +/- 2100.

Isolation and purification of acetylcholine receptor proteins by affinity chromatography

In order to further molecular investigations on the binding capacity of acetylcholine receptors, a method was developed for the affinity chromatography of the nicotinic acetylcholine receptor. Reversibly binding cholinergic ligand groups were used as affinity ligands, instead of the well known snake venom alpha-toxins. These ligands are small in size, chemically well defined and fixed to long spacer chains (at least 40 nm). One ligand, with a pharmacologically stabilizing effect on the receptor, was a derivative of gallamine. Another, with a depolarizing effect, resembled carbamoylcholine and a third was a derivative of decamethonium. The receptor proteins were isolated from Torpedo marmorata electric organs. Preparation included solubilization with a non-ionic detergent, alkaline treatment to extract peripheral membrane proteins and affinity purification. The receptor proteins eluted from the three affinity resins were identical in their assembly of subunits (alpha, beta, gamma and delta) but of different purity. Receptor proteins were obtained on a large scale within a short time and under mild conditions for elution with the affinity ligands of the decamethonium or the gallamine type. This was a considerable advantage compared to the use of alpha-bungarotoxin.

Interaction of quaternary ammonium compounds with acetylcholinesterase: characterization of the active site

The relation of the structure of 31 quaternary ammonium compounds (28 inhibitors; 3 substrate analogues) with their effects on the activity of acetylcholinesterase (EC 3.1.1.7; AChE) was studied. The compounds were structurally related to the natural substrate acetylcholine (ACh). All bear a trimethylammonium moiety as cationic head. The inhibitors include a variety of functional groups instead of an electrophilic ester group, making these substances suitable to probe the esteratic subsite. The inhibition constants and Km values were determined in kinetic experiments under steady state conditions (pH-stat method). Most of the substances acted as reversible, competitive inhibitors with KI in the range of 10(-6)-10(-3) M. The substrate analogues had Km values between (1.2-2.2) X 10(-4) M. The data allow the following main conclusions: (1) The quaternary trimethylammonium group of ACh is of high importance for substrate binding to AChE. It mediates association at the anionic site. (2) A poorer contribution to binding (two orders of magnitude lower) is attributable to the apolar methylene chain in ACh. It can be related to a hydrophobic interaction of the hydrocarbon chain at a region neighbouring the anionic site. (3) The ester group (both C = O and O) does not contribute to substrate binding. It is only responsible for reactivity.

Distribution of the 4-aminopyridine derivative 3-methoxy-4-aminopyridine in mice

The tissue distribution of [14C]3-Methoxy-4-aminopyridine was studied after intravenous administration in mice using whole body and microautoradiography. Dense accumulation was found in cholinergically innervated, secretory organs. High radioactivity was detected in the adrenal medulla suggesting that the observed excitement and hyperglycemia are due to the stimulation of catecholamine secretion. [14C]3-Methoxy-4-aminopyridine quickly passes the blood brain barrier and predominantly accumulates in the hippocampus, the thalamic nuclei and the cortex.

Muscarinic receptors on cultured cells of rat hippocampus: cholinergic regulation and presence of subtypes

Muscarinic acetylcholine receptors in intact, cultured explants of rat hippocampus were investigated in binding experiments with tritiated quinuclidinyl benzilate ([3H]QNB) as ligand. Dissociation constants (Kd) were determined to 320-575 pM and maximal binding capacity (Bmax) to 67-87 fmol/explant. The KdS obtained in kinetic experiments were very similar. Hippocampal explants cultured alone contained more muscarinic receptors than hippocampal explants reinnervated by cholinergic fibers from co-cultured septal explants. Pretreatment of hippocampal explants with carbachol resulted in a down-regulation of receptor number which was counteracted by the simultaneous addition of atropine. Atropine added alone had no effect on receptor number in hippocampal explants cultured alone whereas it occasionally caused an up-regulation in co-cultured hippocampus. Displacement experiments with scopolamine and oxotremorine as competitors, showed that hippocampal explants cultured alone contain multiple types of muscarinic receptors. With atropine, pirenzepine and AF-DX 116, only one class of receptors could be detected.

Recovery from opioid receptor alkylation: social conflict analgesia and brain [3H]etorphine binding in beta-chlornaltrexamine-treated mice

The effects of beta-chlornaltrexamine (CNA, 5 mg/kg s.c.) on social conflict analgesia and brain opioid binding were investigated in mice at different times after the administration of the alkylating antagonist. The specific binding of [3H]etorphine to high-affinity binding sites and the stress-induced analgesia of attacked mice (50 bites) were prevented for 6 h after CNA administration. Stress-mediated inhibition of pain fully recovered within 3 days after CNA treatment. Brain opioid binding was still reduced to 45% at this time and reached control values 9 days after treatment.

Opioids and behavior: genetic aspects

Three animal models, based on genetic differences in endogenous opioid peptides and opioid receptors, are described. Obese mice and rats, whose pituitary opioid content is elevated, may be used to investigate eating disorders. Recombinant inbred strains of mice, which differ in brain opioid receptors and analgesic responsiveness, can be used for study of opioid- and nonopioid-mediated mechanisms of pain inhibition. Individual reactivity to opioids can be examined in C57BL/6 and DBA/2 inbred strains of mice. A model that combines a variety of opioid effects is offered and suggests the existence of a genetically determined dissociation of opioid effects on locomotor activity and pain inhibition. In addition, stimulatory locomotor responses in the C57BL/6 reaction type are linked to a high risk of drug addiction and facilitatory effects on adaptive processes, while high analgesic potency in the DBA/2 reaction type is accompanied by a low proneness to drug abuse and amnesic properties of opioids.

Social conflict-induced changes in nociception and beta-endorphin-like immunoreactivity in pituitary and discrete brain areas of C57BL/6 and DBA/2 mice

The present study characterizes the time course of social conflict analgesia and its reversibility by opioid antagonist drugs in the C57BL/6 and DBA/2 inbred strains of mice and examines the relationship between alterations in brain and pituitary levels of beta-endorphin-like immunoreactivity (beta-ELIR) and the antinociception elicited by social stress. Data revealed statistically significant strain differences in regard to beta-ELIR in control animals. The pituitary content of beta-ELIR was higher in DBA/2, while the values in the periaqueductal grey (PAG) and in the amygdala were higher in C57BL/6 mice. No interstrain differences were found in the hypothalamus. Exposure to 50 attack bites resulted in a 6-fold higher analgesia in DBA/2 mice and in a strain-independent fall of beta-ELIR in pituitary (approximately 27%) and PAG (23%). PAG but not pituitary beta-ELIR levels in C57BL/6 mice correlated positively with the increase in tail-flick latency after attack. Mere confrontation with a non-aggressive opponent failed to induce analgesia and was associated in C57BL/6 mice with a significant reduction in the beta-ELIR content of both the pituitary and the PAG. The data are discussed in terms of genotype-dependent sensitivity of the beta-endorphin system to stress and its relation to analgesia.

Long-term analgesic reaction in attacked mice

Four experiments were designed to characterize long-term analgesic (LTA) reaction in attacked mice. In Experiment 1 we showed that analgesic reaction in DBA mice, induced by the stress of being attacked (30 or 50 bites), is reinstated upon reexposure to seven bites 24 hr later. The magnitude of the LTA response depended on the level of analgesia on Day 1 and was smaller than the original response. In Experiment 2 we showed that LTA was prevented by naloxone or beta-chlornaltrexamine given before exposure (50 bites) on Day 1. Results of Experiment 3 revealed that naloxone or beta-chlornaltrexamine injected before reexposure to seven bites on Day 2 antagonized LTA measured 10 min, but not 1 min, after reexposure. In Experiment 4 we showed that morphine substituted for being attacked on Day 1 failed to produce LTA. We concluded that pain inhibitory mechanisms remain in a state of increased readiness for at least 24 hr after attack stress and that activation of opioid systems is necessary but not sufficient to produce LTA, a response that is only partly sensitive to opioid antagonists.

Presynaptic effects of the pardaxins, polypeptides isolated from the gland secretion of the flatfish Pardachirus marmoratus

The effects of the two toxic proteins Pardaxin I and II isolated from the gland secretion of the flatfish Pardachirus marmoratus on frog neuromuscular transmission have been investigated and compared to those of the gland secretion. Pardaxin I and II showed pre- but not postsynaptic neurotoxic effects. They increased the frequency of the spontaneous release of transmitter quanta in a dose-dependent and temperature-influenced way up to more than 100 times control values. At the same time the quantal content of the evoked end-plate potentials was greatly elevated. Pardaxin I was about 5 times more effective than Pardaxin II, and both were roughly in the same range of efficacy as the original gland secretion (w/v). The glycosteroids isolated from the same gland secretion were relatively ineffective in promoting neurotransmitter release; however, at high doses they had postsynaptic effects, as shown by a diminution of the amplitude of the evoked end-plate potentials. They did not reinforce the effect of the Pardaxins. At higher doses both the Pardaxins and the gland secretion induced depolarization of postsynaptic membranes, muscle cell contractions which could not be blocked by (+)-tubocurarine or by tetrodotoxin, and eventually also physical disruption of muscle cells. No effects on nerve conductance were observed. Pore-forming activity of the Pardaxins has already been demonstrated. It is suggested that their presynaptic effects are a result of a possible affinity to the nerve terminals, of their hydrophobicity and mainly of this pore-forming activity. These toxins might be valuable tools in neuroscience research.

Distribution and kinetics of 14C-vecuronium in rats and mice

The distribution and kinetics of 14C-vecuronium were studied in rats and mice. 14C-Vecuronium accumulated rapidly in the liver. Both unchanged and metabolized vecuronium were excreted with the bile into the intestines and stomach. Reabsorption in the gut was probably responsible for an enterohepatic increase in radioactivity in the liver after one hour. Excretion through the kidneys increased continuously from low values after the initial peak. Binding in compartments with acid mucopolysaccharides such as cartilage, connective tissue etc., was less important. Blood-brain barrier and placenta were permeable only to a small degree.

Subtypes of muscarinic receptors in cultured explants of the hippocampus of the rat

Using the tritiated, muscarinic antagonist quinuclidinyl benzilate ([3H]QNB) as a ligand, muscarinic receptors have been identified and characterized in intact, cultured explants of the hippocampus of the rat. Competition studies with scopolamine and oxotremorine indicated a certain heterogeneity in the population of muscarinic receptors, whereas atropine and pirenzepine competed with [3H]QNB in a manner consistent with only one binding site for these substances. Thus, the observed heterogenity does not fit in with the M1/M2 receptor concept. Extended studies, with the aim of determining to what extent these putative subtypes of receptors are functional, would be of interest.

Choline and acetylcholine metabolism in slice cultures of the newborn rat septum

The incorporation of [3H]choline into acetylcholine and other choline-containing compounds was investigated in slice cultures of the septal area of newborn rats. At choline concentrations in the range of the high affinity transport mechanism (0.1-1 microM) most of the labeled choline was incorporated into phosphorylcholine, followed by lipids, acetylcholine and the free choline pool. Hemicholinium-3 (1-10 microM) lead to a marked decrease of acetylcholine synthesis, whereas choline accumulation or phosphorylcholine synthesis were not decreased. Both basal and K+-induced release of acetylcholine were Ca2+ dependent. The efflux of choline was not stimulated by high K+. When choline was absent from the incubation medium, the slices were able to liberate significant amounts of the [3H]choline previously incorporated into phospholipids, and were also able to synthesize some acetylcholine. In choline-free medium, acetylcholine synthesis was greatly enhanced by depolarization. During the period in culture, there was a decrease of the incorporation rate of [3H]choline into phosphorylcholine and an increase of the incorporation rate into acetylcholine. The tissue structure was well preserved after several weeks in culture. After staining for acetylcholinesterase, the cholinergic neurons in the cultures showed a similar morphology to that seen in situ. The main conclusions of the present study are: cholinergic neurons in slice cultures develop and behave in a manner which is very similar to their in situ counterparts; the main divergence from previous studies of choline metabolism in tissue culture is the substantial incorporation rate of choline into acetylcholine at choline concentrations in the range of the high affinity uptake mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)

Selective kainic acid lesions in cultured explants of rat hippocampus

The influence of the excitotoxin kainic acid (KA) on cultivated explants of rat hippocampus was investigated. Addition of 3 microM KA to the culture medium over 24-48 h induced a destruction of the pyramidal cells in the CA3 region, whereas the CA1 pyramidal cells and the granule cells were left undamaged. Higher concentrations (10-100 microM) of KA destroyed also the latter cell groups. The selectivity of the KA lesion at 3 microM was further indicated by the fact that the acetylcholinesterase-positive neurons in the hippocampus were not destroyed through KA administration and that the stereoisomer dihydrokainic acid was ineffective in inducing lesions. Application of tetrodotoxin did not protect the CA3 pyramidal cells from KA lesion, whereas gamma-glutamylaminomethylsulphonic acid (GAMS) only offered a very small, statistically not significant, protection. Baclofen protected the cultures slightly from KA lesions but not when added together with GAMS. Possible mechanisms responsible for the KA lesions in these cultures are discussed.

[14C]chloroacetylcholine as an advantageous affinity label of the acetylcholine receptor

The alkylating agent [14C]chloroacetylcholine perchlorate [( 14C] ClACh) was synthesized and used for affinity labelling of the nicotinic acetylcholine receptor from Torpedo marmorata. Solubilized and affinity-purified receptor proteins were reduced and alkylated according to the bromoacetylcholine-method. Covalent binding of [14C] ClACh to the cholinergic receptor proved to be specific and saturable, and occurred exclusively to the alpha-subunit. Halogen substitution of acetylcholine by chlorine and insertion of a 14C-isotope instead of the widely used 3H resulted in favourable properties of the affinity label.

Long-term analgesic reaction in attacked mice

Four experiments were designed to characterize long-term analgesic (LTA) reaction in attacked mice. In Experiment 1 we showed that analgesic reaction in DBA mice, induced by the stress of being attacked (30 or 50 bites), is reinstated upon reexposure to seven bites 24 hr later. The magnitude of the LTA response depended on the level of analgesia on Day 1 and was smaller than the original response. In Experiment 2 we showed that LTA was prevented by naloxone or beta-chlornaltrexamine given before exposure (50 bites) on Day 1. Results of Experiment 3 revealed that naloxone or beta-chlornaltrexamine injected before reexposure to seven bites on Day 2 antagonized LTA measured 10 min, but not 1 min, after reexposure. In Experiment 4 we showed that morphine substituted for being attacked on Day 1 failed to produce LTA. We concluded that pain inhibitory mechanisms remain in a state of increased readiness for at least 24 hr after attack stress and that activation of opioid systems is necessary but not sufficient to produce LTA, a response that is only partly sensitive to opioid antagonists.

Effects of repeated as compared to single aggressive confrontation on nociception and defense behavior in C57BL/6 and DBA/2 mice

Behavioral reactions (submissive postures, escape, immobility, activity, locomotion) in C57BL/6 and DBA/2 test mice were recorded during single (50 bites) or three repeated (3 X 50 bites, separated by 24 hr) aggressive confrontations, as well as during a nonaggressive confrontation 24 hr after the last aggressive confrontation with opponents of the opposite strain. Nociception (hot plate response latency) was measured 1 min after aggressive or nonaggressive confrontations. During repeated aggressive confrontation, DBA mice reacted with a stable pattern of escape and analgesia, whereas C57 mice failed to develop an analgesic response and changed their behavioral defense strategy during repeated aggressive confrontations (decrease of escape, increase of defensive upright). The conditioned display of submission and of escape behavior during nonaggressive confrontation did not change as a function of earlier repeated aggressive confrontations in DBA mice, while C57 mice showed a significant increase of defensive upright postures and immobility. Conditioned analgesia was not observed after nonaggressive confrontations. The results point toward a dissociation between attack-elicited behavior and antinociception and suggest that encounter-induced analgesia may influence the processing of aversive experience.

Preexposure to a nonaggressive opponent prevents low-intensity, social conflict analgesia in mice

In a first experiment, exposure of DBA/2 mice to a small number of attack bites by a C57BL/6 mouse resulted in low-intensity analgesia as assessed by the tail-flick test. The analgesia dissipated within 10 min and was insensitive to naloxone (10 mg/kg, sc) but was antagonized by the irreversible opioid antagonist beta-chlornaltrexamine (5 mg/kg, sc). In a second experiment, preexposure to a nonaggressive C57BL/6 opponent prevented low-intensity analgesia induced by a small number of attack bites 24 hr later. The preexposure effect was abolished by naloxone (10 mg/kg, sc) given before the nonaggressive confrontation. This suggests that the release of endogenous opioids during preexposure interferes with the subsequent activation of endogenous opioid-mediated pain control mechanisms.

The organization of intrinsic hippocampal connections in explants of rat hippocampus studied by topical application of HRP crystals

Hippocampal slices were taken from 7-day-old rats and maintained in vitro for 1-3 weeks. The organization of intrahippocampal connections in these explants was studied by placing onto the tissue small crystals of horseradish peroxidase (HRP) soaked with the detergent Nonidet. Antero- and retrograde transport of HRP was visualized by diaminobenzidine. The principal arrangement of intrinsic hippocampal connections closely resembles the in situ situation of the adult rat. The use of HRP crystals provides a fast and convenient tool for the study of connections in brain explants.

Muscarinic receptors in slice cultures of rat brain

Muscarinic acetylcholine receptors in organotypic slice cultures of hippocampus of the rat, have been examined using the tritiated muscarinic antagonist quinuclidinylbenzilate [( 3H]QNB) as a as a marker. Maximum specific binding of [3H]QNB in mature explants of hippocampus amounted to 316 fmol/mg protein and a dissociation constant (KD) of 185 pM was determined. Scatchard analysis suggested binding to one single binding site. In younger cultures smaller KDs were registered. This decrease in ligand affinity in maturer cultures possibly reflects a decrease in the turnover of acetylcholine. Muscarinic antagonists inhibited the total binding of [3H]QNB significantly, whereas muscarinic agonist, nicotinic antagonists and cholinesterase inhibitors had no influence whatsoever on the total binding of [3H]QNB. The content of muscarinic acetylcholine receptors varied between cultures with explants from different brain areas: hippocampus greater than striatum greater than septum greater than spinal cord greater than cerebellum. These in vitro results are generally in good agreement with results obtained in situ by other investigators and suggest that the binding of [3H]QNB observed in these cultures is indeed correlated to specific muscarinic receptor sites.

Postaggression footshock inhibits aggressive behavior in dominant but not in isolated mice

Aggressive behavior of dominant and isolated mice was assessed in intermale encounters with nonaggressive intruder mice. After an attack period of 90 s, the aggressor was exposed to a footshock punishment and retested the next day. The shock treatment, independent of the intensity and duration, failed to inhibit spontaneous aggression in isolated DBA/2 mice, while it significantly suppressed spontaneous aggression in dominant C57BL/6 mice. The different effects of post-trial shock punishment were not due to a different shock sensitivity and did not depend on the type of opponent used. Strain differences have been ruled out by the use of dominant and isolated ICR mice. Again, shock punishment was ineffective in isolates, while it reduced aggression in dominant animals. The findings were discussed with reference to the impaired learning performance reported for isolated animals, and suggest a difference between the aggression of isolated and that of dominant mice.

Ultrahistochemical localization of adenylate cyclase activity in the electric organ of Torpedo marmorata

The lead pyrophosphate precipitation technique was used to visualize adenylate cyclase activity with the electron microscope in unfixed electric organ and synaptosomes of Torpedo marmorata, with special attention to presynaptic membranes. Specificity of the deposition of reaction product was ensured by using 5'-adenylyl imidodiphosphate as substrate and 5'-guanylyl imidodiphosphate and sodium fluoride as activators. Under suitable conditions a reaction product was deposited on the Schwann cell, on presynaptic vesicles, on the inner side of membranes of cisternae and on glycogen granules of the presynaptic region of the endplate. In some cases, a precipitate was also found on postsynaptic membranes of the synaptic cleft and on mitochondria. In isolated synaptosomes localization of the reaction product was identical with that of minced tissue. However, most strikingly, on presynaptic membranes no precipitate was ever found, neither in pieces of electric organ nor in isolated synaptosomes. Furthermore, the extended membrane system of the postsynaptic region of the electroplax remained always free of lead pyrophosphate precipitate.

Development of cholinergic projections in organotypic cultures of rat septum, hippocampus and cerebellum

ChAT and AChE activity in the hippocampus originate primarily in axons from cholinergic neurons located in the medial septum. The development of cholinergic projections in organotypic explant cultures of rat septum, hippocampus, cerebellum and habenula was studied using AChE histochemistry and biochemical ChAT and AChE determinations. Hippocampal and cerebellar explants cultured without a septum contain negligible amounts of ChAT after 6 days of culture. When the hippocampus was cultured for several days in the presence of a septal explant, a massive increase in ChAT was observed in the hippocampal explant. When co-cultures were stained for AChE, AChE-positive projections were seen to grow out from the septum to invade the hippocampal explant. To a certain extent this ingrowth of septal cholinergic fibers into the hippocampus is target-specific, since cerebellar explants cultured with septum showed neither an ingrowth of AChE-containing septal fibers, nor an increase in ChAT activity. Also, habenular AChE-positive fibers fail to grow into a co-cultivated hippocampal explant. Further, in septal explants co-cultivated with hippocampal explants an increase in ChAT activity was seen as compared to septal explants cultivated alone. The possible factors responsible for the observed specificity and the increase in ChAT activity under co-culture conditions are discussed.

Defeat, learned submissiveness, and analgesia in mice: effect of genotype

Defeat-induced unconditioned and conditioned behaviors of C57BL/6 and DBA/2 mice were assessed in a social-learning paradigm. Upon bites, mice of the DBA strain reacted with significantly more escape reactions, while C57 mice showed more immobility, crouch, and defensive sideways and upright postures. Clear genotype-dependent patterns were also evident from the conditioned responses recorded 24 h after defeat. DBA mice displayed more escape and defensive sideways and upright postures upon contact with a nonaggressive partner mouse; in contrast, C57 mice reacted with more immobility and crouch. With an increasing number of bites the sum of learned responses increased in C57 mice while it decreased in mice of the DBA strain. This decrement was paralleled by an increase in the analgesic response measured on the hot plate in defeated DBA mice. The possible role of endogenous opioids in the genotype-dependent interaction of defeat-induced learned submissiveness and analgesia is discussed.

Hashish extract impairs retention of defeat-induced submissive behavior in mice

The effects of hashish extract on adaptive behavior of male mice were studied in a paradigm which allows the investigation of learning mechanisms in a social context. Mice of the C3H strain, which were not submissive in a confrontation with a nonaggressive DBA mouse on day 1, were defeated on day 2 over 3 min by aggressive, isolated DBA mice, and showed conditioned submissive behavior upon mere contact with a nonaggressive DBA mouse on day 3. A hashish extract containing 38.6-39.4% delta 9-tetrahydrocannabinol (delta 9-THC), 11.6-12.0% cannabinol and 47.7-48.5% cannabidiol was administered orally in all experiments. Hashish extract given 90 min before defeat on day 2, in dosages corresponding to 1, 5, and 10 mg delta 9-THC/kg, impaired retention of defensive upright, defensive sideways and immobility on day 3 (experiment 1). Experiment 2 showed that the drug (5, and 10 mg delta 9-THC/kg) had no antinociceptive potency in mice and did not modify defeat-induced analgesia. Experiment 3, with drug (5 mg delta 9-THC/kg) or solvent administration on day 2 and day 3, showed that the retention deficit was neither due to state-dependent learning, nor to impaired retrieval. It is suggested that hashish extract administered before learning may interfere with memory processing.

Slice cultures confirm the presence of cholinergic neurons in the rat habenula

The opinion that the medial habenular nuclei contain cholinergic perikarya has recently been questioned, mainly on the basis of the difficulty to detect choline acetyltransferase (ChAT) immunoreactivity in cell bodies of these nuclei. We decided therefore to determine ChAT activity in long-term cultures of the embryonal rat habenula. In these cultures, all extrinsic fiber systems are expected to degenerate a few days after explanation. ChAT activity increased markedly during the first 3 weeks. Control cultures of adjacent thalamic tissue, which is devoid of intrinsic cholinergic neurons, displayed a 150-fold lower ChAT activity. Immunocytochemical staining with a monoclonal antibody revealed the presence of tightly packed, ChAT-containing cell bodies in the habenular slices. These two findings, together with the observation that habenular cultures show an extensive outgrowth of acetylcholinesterase-containing fibers, lead us to the conclusion that at least some cholinergic perikarya must be present in the habenular nuclei.

Sarin poisoning in guinea pigs compared to reactivation of acetylcholinesterase in vitro as a basis for therapy

Contrary to the large number of publications dealing with treatment of organophosphate poisoning in a variety of animal species, there is no logic reason in the preference of one species, for this purpose. Guinea pigs were reported to respond better to treatment by oximes, than mice and rats. However, in the analysis of data on the effect of obidoxim and atropine or benactyzine on sarin poisoning it is demonstrated, that guinea pigs do not respond differently from mice and rats. Subcutaneous LD50's of sarin in mice ranged from 0.06 to 0.207 mg/kg, and those of guinea pigs from 0.04 to 0.112 mg/kg. The difference in the LD50's may be related to the different susceptibility of various animal species. The importance of "in vivo" dosage, mode of application, kinetics of antagonists, in correlation to the ability to reactivate "in vitro" is discussed.

Effects of obidoxime chloride on native and sarin-poisoned frog neuromuscular junctions

The effect of the oxime reactivator obidoxime chloride (obidoxime) on single frog neuromuscular junctions has been studied in order to clarify its action on the acetylcholine receptor (AChR) and on the acetylcholine esterase (AChE), both before and after blocking its enzymatic activity with the organophosphorus compound sarin. Experiments iontophoretic application of obidoxime to end-plates demonstrated that it has a weak direct depolarizing effect. Furtheron, the drug is shown to possess a potentiating effect on the ACh-induced depolarization. After the AChE activity had been inhibited with sarin, obidoxime on the contrary decreases the depolarization induced by ACh. Both effects are fully reversible. It is concluded that obidoxime acts as an inhibitor of the AChE and as a partial antagonist of the AChR. The antagonistic effect on the receptor is usually masked by the predominating anticholinesterase effect. The effect of obidoxime on miniature end-plate potentials in long-time experiments on sarin-poisoned muscles, showed only weak signs of recovery from the action of the AChE inhibitor. Only focally higher concentration of the drug produced a more marked but short term recovery of the mepps, which is, however, supposed to be dependent on the AChR antagonism. It is still unclear how much of the varying therapeutic usefulness of obidoxime in clinical cases is due to its AChE reactivation and how much to the antagonistic effect on the AChR.

Blockade of acetylcholine synthesis in organophosphate poisoning

In spite of worldwide research efforts in the search for the treatment of organophosphate poisoning, the substances with practical antidotal capabilities remain to be discovered. This problem has generally been approached by attempting to reactivate the inhibited acetylcholinesterase. Our approach consisted of reducing the amount of the lethal agent acetylcholine by blocking its synthesizing enzyme cholineacetylase with methyl methane thiol sulfonate (MMTS). We have taken into consideration that we are dealing with acute toxicological problems. This applies for poisoning as well as for treatment, and therefore in the present stage we can only present minimal results. The time from sarin (2 mg/kg) injection to death in rats (controls) was 2:59 min. With a MMTS dosage of 133.5 mg/kg prior to sarin, it was prolonged to 20:55 min (p less than 0.01). With the same dosage of MMTS under identical conditions, the time from soman (2 mg/kg) injection to death was prolonged from 6:08 to 14:48 min (p less than 0.01). Although MMTS cannot be used as a therapeutic agent, our attempt has demonstrated a utility in treating organophosphate poisoning in mice and rats and points in a direction where further work might be fruitful.

Vasopressin impairs or enhances retention of learned submissive behavior in mice depending on the time of application

The effects of vasopressin on learning and memory were investigated in a paradigm using adaptive capabilities of interacting male mice. Test animals of the DBA/2 strain which were not submissive in a confrontation with a non-aggressive subordinate C57BL/6 mouse on day 1 (baseline), were defeated on day 2 (learning) by an aggressive dominant C57 mouse, and showed learned submissive behavior upon mere contact with a non-aggressive C57 mouse on day 3 (retest). Pretrial injections of lysine-vasopressin (0.01, 0.1 or 1.0 I.U., s.c.) 20 min before defeat on day 2 resulted in less submissive behavior on day 3 compared to controls, with 0.1 I.U. (equal to 370 ng) being the most effective dose. Post-trial injections of vasopressin (0.1 I.U.) immediately after defeat on day 2 significantly improved retention on day 3. Preretention injections of vasopressin (0.1 I.U.) 20 min before testing on day 3 significantly increased learned submissive behavior. The amnesic effect observed after pretrial injections of vasopressin was neither due to state dependency nor to an acquisition deficit, nor to antinociception. It is concluded that processing of the stressful experience of defeat is differently influenced by vasopressin given before or after training, resulting in an impaired or facilitated retention, respectively. Among the hypothetically discussed underlying mechanisms, one suggestion is that exogenous vasopressin interacts with an assumed discriminative stimulus function of endogenously released vasopressin. Another possibility might be that exogenous vasopressin interferes with the defeat-activated opioid peptide system.

Brain pharmacokinetics of centrally acting drugs, a quantitative autoradiographic study

The concentration kinetics of 14C labeled diazepam, chlorpromazine and iodoantipyrine were studied in several regions of rat brain shortly after intravenous (i.v.) administration by a quantitative autoradiographic method. A highly significant linear relationship was found between regional diazepam resp. chlorpromazine concentration, and regional cerebral blood flow (rCBF) 1 min after injection. Moreover, a linear relationship was found between rCBF and, on the other hand, firstly diazepam concentration decrease between 1 and 2 min, secondly increase in chlorpromazine concentration between 1 and 5 min, and finally decrease of chlorpromazine concentration between 5 and 30 min. The regional kinetics of diazepam were compared with those of iodoantipyrine, a tracer assumed to be freely diffusible through the blood-brain barrier.

Affinity chromatography of cholinergic receptor proteins

Cholinergic binding proteins were purified from torpedo electric organ. The preparation comprises: solubilization by non-ionic detergents followed by unspecific prepurification. For prepurification the double reversed technique proved to be very useful. Finally we applied affinity chromatography. For the affinity purification we used resins with chemically well defined small ligand groups from the depolarizing type (carbachol- and decamethonium-analogue), and from the stabilizing type (gallamine amide amine). The purified receptor proteins from all three resins showed different subunit compositions and different properties of alpha-bungarotoxin binding.

Choline acetyltransferase in organotypic cultures of rat septum and hippocampus

Choline acetyltransferase (CAT) activity in the hippocampus originates almost exclusively in axons from neurons located in the medial septum. In the rat, the development of CAT in the hippocampus takes place during the first 3 weeks after birth. The development of CAT was studied in organotypic cultures of fetal rat septum and early postnatal rat hippocampus. In some septal explants, enzyme activity increased up to 10-fold during the first 3-4 weeks in vitro. Acetylcholinesterase (AChE) histochemistry showed the presence of AChE-positive cells and fibers in many explants. Thus it appears that septal cholinergic neurons develop CAT and AChE activity even without making contact with their target cells. However, the development of CAT was accelerated by the presence of hippocampal tissue. No CAT activity was found in the hippocampal cultures, confirming that there are few, if any, intrinsic cholinergic cell bodies in the hippocampus.

Inhibition of morphine-induced analgesia and locomotor activity in strains of mice: a comparison of long-acting opiate antagonists

The long-acting opiate antagonistic potency of naloxazone (NXZ), beta-chlornaltrexamine (beta-CNA) and beta-funaltrexamine (beta-FNA) was compared using three inbred strains of mice, in which morphine induces either analgesia (DBA/2), locomotion (C57BL/6), or both responses (C3H/He). The antagonists were applied SC 24-120 hr before morphine (10 or 20 mg/kg, IP), followed by the tests after 30 min. The minimal dose which completely antagonized morphine-induced analgesia in DBA and locomotion in C57 mice during 24 hr were: for NXZ 50 and 100 mg/kg, for beta-CNA 0.8 and 6.2 mg/kg, for beta-FNA 1.6 and 12.5 mg/kg, respectively. beta-FNA and beta-CNA more potently blocked morphine-induced analgesia in DBA mice than the activity response in the C57 strain. In contrast, beta-FNA prevented morphine-induced locomotion at a lower dose (6.2 mg/kg) than analgesia (greater than 50 mg/kg) in C3H mice, while beta-CNA was equipotent (1.6 mg/kg). In general, beta-CNA turned out to be the most reactive compound, antagonizing morphine effects in low doses up to 120 hr. beta-FNA selectively antagonized either morphine-induced analgesia or locomotion, depending on the strain used. This suggests that a given morphine response might be caused by a genetically determined multiplicity of opiate receptor types and their mutual interactions.

Incorporation of small unilamellar liposomes loaded with horseradish peroxidase into isolated nerve endings from electric organ of Torpedo marmorata

A population of small unilamellar liposomes loaded with horseradish peroxidase, an electron dense marker, was prepared by passing the lipid-protein-detergent micelles through Sephadex G-50. By electron microscopy it was shown that these artificial lipid vesicles were incorporated into the cytoplasm of isolated pure cholinergic nerve endings from the electric organ of Torpedo marmorata. This liposome carrier system may be useful in manipulating the internal parameters involved in presynaptic processes in the electric organ.

Electron microscopic localization of choline acetyl transferase activity in the electric organ of Torpedo marmorata

The light microscopic method for demonstration of choline acetyltransferase (CAT) activity based on the formation of a lead mercaptide of free SH-acetyl Coenzyme A was adapted for electron microscopy. In samples of electric organ of Torpedo marmorata CAT activity was found to be restricted to synaptic vesicles and cysternae. The precipitate formed was mostly fine grained and distributed more or less evenly throughout the vesicles. Generally, the reaction product seemed not to adhere to the inner side of the vesicle membrane. CAT activity was found only in the presynaptic region of the synapse, neither the synaptic cleft nor the postsynaptic region reacted positively. CAT activity was found also within synaptic vesicles in nerve endings prepared from electric organ. Samples of Torpedo brain reacted positively too. Complete suppression of CAT activity with inhibitors, judged on the basis of lead mercaptide deposited, was rather difficult to achieve. From a group of 10 presumed enzyme inhibitors, only 2 compounds reacted satisfactorily, namely trans-1,2-dihydro-2-imino-4-(1-naphthylvinyl)-1-pyridine-ethanol hydrobromide and 5,5-dithio-bis-(2-nitrobenzoic acid) (3,3'-6). On the whole, the results obtained show the viability of the method used and furthermore it offers also some new insight into the turnover of acetylcholine, since it may be deduced from the results that under certain circumstances acetylcholine may be synthesized in synaptic vesicles.

Quantification in macroscopic autoradiography with carbon-14--an evaluation of the method

Macroscopic autoradiograms can generally be quantified by exposing previously calibrated standard sources together with the labeled sections and measuring the silver grain density by photometric methods. Variation in section thickness is a real problem with isotopes like 14C, with beta-particles of higher energy than those of 3H. Differences in self-absorption between tissues may be neglected at low section thickness. A simple fitting procedure for non-linear relationship between radiation dose and optical density is described. The combined effect of the examined errors for the practical evaluation of autoradiograms is discussed.

Effects of multiple, chronic and early hashish exposure on mating behavior, nest-building and gestation in mice

1. The effects of hashish extract on social behavior were investigated in pairs of mice living together from mating to parturition. The drug was administered orally to both animals at a dose of 20 mg delta 9-tetrahydrocannabinol/kg three times a week, either (I) during the 3 weeks from mating to parturition, (II) during the 12 weeks from weaning to mating and parturition, or (III) only during the 3 weeks after weaning. 2. In the mating tests, an acute administration (I) caused a general sedation. Chronically treated animals (II) showed decreased sexual behavior and lower social investigations despite significantly more non-social activities. Early drug treatment (III) had no effect on mating behavior. In all three series of experiments the females had conceived by the next morning. 3. The nest-building behavior during pregnancy was suppressed after multiple (I) and chronic (II) drug administration. In early drug-treated animals (III) the transport of nesting material was only slowed down. Non-social activities were normal or increased in all three series. 4. Parturition was significantly delayed by one day after multiple (I) and chronic (II) drug administration. The birth weight was not affected, but the litter size was decreased after chronic drug treatment. Early drug administration (III) had no effects on these parameters. 5. In conclusion, whereas tolerance to the sedative effects of hashish developed very rapidly, the drug influences on social behavior were stable. Therefore, discussions on legalization of cannabis should pay attention to the drug effects on social behavior.

Behavioural effects of hashish in mice in comparison with other psychoactive drugs

1. The behavioural effects of hashish extract (10 mg delta 9-THC/kg) were compared to those of morphine (20 mg/kg), diazepam (10 mg/kg), imipramine (10/kg), amphetamine (10 mg/kg) and chlorpromazine (10 mg/kg) by testing male mice in a resident-intruder situation. 2. The drugs were given either to the resident or to the intruder male. 3. Hashish extract similar to diazepam and chlorpromazine reduced social activities in resident and intruder males. 4. Intruder males treated with hashish or diazepam were more frequently attacked and submission and light was increased. 5. Amphetamine and morphine stimulated locomotion and non-social activities but impaired social behaviour especially in residents. 6. Imipramine increased aggressive behaviour in resident and intruder males.

Gas chromatographic determination of some biogenic amines as their pentafluorobenzoyl derivatives in the picogram range and its applicability to biological materials

The catecholamines dopamine and noradrenaline were converted into the stable pentafluorobenzoyl (PFB) derivatives for their specific and quantitative gas chromatographic (GC) assay. This allowed their detection in the picogram range using an electron-capture detector. Acylation was performed with pentafluorbenzoyl chloride in the presence of pyridine and with acetonitrile as solvent. The structures of the PFB-catecholamines were confirmed by GC-mass spectrometry. A good separation was obtained on 5% OV-17 at 265 degrees C. The high adsorption activity of the PFB-catecholamines could be overcome by optimizing the reaction conditions and applying special GC precautions. Linearity of the method was demonstrated for 50- 500 ng of the catecholamines with detection at the picogram level. The application of the method to biological materials is demonstrated.

[Long term recording of motor activity: its use in research and clinical situations]

A method is described for long-term recording of motor activity with a wrist-worn solid-state activity monitor. Movement-induced signals are integrated over predetermined periods (usually 7.5 min) and stored in the memory (1024 8-bit words) of the device. At 5-day intervals the data are transferred into a minicomputer and plotted in graph form. The technique may be used for studying the rest activity cycle and motor activity during sleep under normal life conditions. Sleep disorders and pharmacological effects on sleep can be objectified from the activity plots. Various applications in clinical medicine and in research are illustrated and discussed.