In vitro and in vivo measures of evoked excitatory and inhibitory conductance dynamics in sensory cortices.

In order to better understand the synaptic nature of the integration process operated by cortical neurons during sensory processing, it is necessary to devise quantitative methods which allow one to infer the level of conductance change evoked by the sensory stimulation and, consequently, the dynamics of the balance between excitation and inhibition. Such detailed measurements are required to characterize the static versus dynamic nature of the non-linear interactions triggered at the single cell level by sensory stimulus. This paper primarily reviews experimental data from our laboratory based on direct conductance measurements during whole-cell patch clamp recordings in two experimental preparations: (1) in vitro, during electrical stimulation in the visual cortex of the rat and (2) in vivo, during visual stimulation, in the primary visual cortex of the anaesthetized cat. Both studies demonstrate that shunting inhibition is expressed as well in vivo as in vitro. Our in vivo data reveals that a high level of diversity is observed in the degree of interaction (from linear to non-linear) and in the temporal interplay (from push-pull to synchronous) between stimulus-driven excitation (E) and inhibition (I). A detailed analysis of the E/I balance during evoked spike activity further shows that the firing strength results from a simultaneous decrease of evoked inhibition and increase of excitation. Secondary, the paper overviews the various computational methods used in the literature to assess conductance dynamics, measured in current clamp as well as in voltage clamp in different neocortical areas and species, and discuss the consistency of their estimations.

Flunitrazepam variably alters morphine, buprenorphine, and methadone lethality in the rat.

Opiates and substitution products are frequently abused, alone and in association with benzodiazepines. While this combination may result in severe respiratory depression and death, the quantitative relationship remains uncertain. We performed randomized, blinded intravenous median lethal dose (MLD) studies in Sprague-Dawley rats of morphine, buprenorphine, and methadone, alone and in combination with intraperitoneal flunitrazepam pretreatment. We employed the up-and-down method, performed in quadruplicate, comparing time to death following opioid injection. Results are expressed as median of four series (extremes). The MLDs of morphine, buprenorphine, and methadone alone were 64.0 (33.6:79.5), 234.6 (168.6:284.4), and 22.5 (19.3:24.1) mg/kg, respectively, and 60.6 (35.2:88.2), 38.4 (30.6:54.0), and 13.0 (9.7:13.8) mg/kg, respectively, after pretreatment with 40 mg/kg flunitrazepam. Times to death for morphine, buprenorphine, and methadone alone were 2.5 (0.8:24), 0.02 (0.0:24), and 2.0 (0.0:24) hours, respectively, and 13.5 (0.0:144), 24.0 (0.0:120), and 0.0 (0.0:24) hours, respectively, after pretreatment with flunitrazepam 40 mg/kg, ip. Flunitrazepam significantly altered methadone (P=0.02) and buprenorphine (P=0.02) but not morphine lethality (P=0.77). Flunitrazepam significantly prolonged time to death only for buprenorphine (P<0.01). Flunitrazepam-opioid drug-drug interactions are more complex than is generally believed. Mechanistic studies of flunitrazepam-opioid lethal interactions are needed.

Lack of effect of single high doses of buprenorphine on arterial blood gases in the rat.

High dose buprenorphine, a potent semisynthetic agonist-antagonist for opiate receptors, is now used in substitution treatment of human heroin addiction. Deaths have been reported in addicts misusing buprenorphine. We determined the median lethal dose (LD(50)) and studied the effects of high doses of intravenous buprenorphine on arterial blood gases in rats. Male Sprague-Dawley rats were administered buprenorphine intravenously to determine the LD(50) using the up-and-down method. Subsequently, catheterized groups of 10 restrained rats received no drug, saline, acid-alcohol aqueous solvent (required to dissolve buprenorphine at a high concentration), or 3, 30, or 90 mg/kg of buprenorphine intravenously. Serial arterial blood gases were obtained over 3 h. The LD(50) determined in triplicate was 146.5 mg/kg (median of 3 series, range: 142.6-176.5). The mean dose received by surviving animals was 96.9 +/- 46.7 mg/kg. There was a significant effect of the acid-alcohol aqueous solvent on arterial blood gases. Excluding the solvent effect, 3, 30, and 90-mg/kg buprenorphine doses had no significant effects on arterial blood gases. The toxicity of intravenous buprenorphine in adult rats, assessed by the LD(50), is low. These data are consistent with a wide margin of safety of buprenorphine. The mechanism of death after the intravenous administration of a lethal dose of buprenorphine remains to be determined.

Effects of respiratory acidosis and alkalosis on the distribution of cyanide into the rat brain.

The aim of this study was to determine whether respiratory acidosis favors the cerebral distribution of cyanide, and conversely, if respiratory alkalosis limits its distribution. The pharmacokinetics of a nontoxic dose of cyanide were first studied in a group of 7 rats in order to determine the distribution phase. The pharmacokinetics were found to best fit a 3-compartment model with very rapid distribution (whole blood T(1/2)alpha = 21.6 +/- 3.3 s). Then the effects of the modulation of arterial pH on the distribution of a nontoxic dose of intravenously administered cyanide into the brains of rats were studied by means of the determination of the permeability-area product (PA). The modulation of arterial blood pH was performed by variation of arterial carbon dioxide tension (PaCO2) in 3 groups of 8 anesthetized mechanically ventilated rats. The mean arterial pH measured 20 min after the start of mechanical ventilation in the acidotic, physiologic, and alkalotic groups were 7.07 +/- 0.03, 7.41 +/- 0.01, and 7.58 +/- 0.01, respectively. The mean PAs in the acidotic, physiologic, and alkalotic groups, determined 30 s after the intravenous administration of cyanide, were 0.015 +/- 0.002, 0.011 +/- 0.001, and 0.008 +/- 0.001 s(-1), respectively (one-way ANOVA; p < 0.0087). At alkalotic pH the mean permeability-area product was 43% of that measured at acidotic pH. This effect of pH on the rapidity of cyanide distribution does not appear to be limited to specific areas of the brain. We conclude that modulation of arterial pH by altering PaCO2 may induce significant effects on the brain uptake of cyanide.

Role of the catheter in the treatment of cardiac arrhythmias.

During the last decade, there has been a remarkable shift away from drug therapy toward catheter-based treatment of many tachyarrhythmias. Catheter ablation using radiofrequency energy has been shown to provide a cure for many supraventricular and ventricular tachycardias with excellent safety and has now become the first line of treatment. A review of biophysics and biology of radiofrequency energy, the technique of catheter ablation, and its application in the treatment of specific tachycardias encountered in clinical practice is presented.

The visual cortical association field: a Gestalt concept or a psychophysiological entity?

The receptive field of a visual neurone is classically defined as the region of space (or retina) where a visual stimulus evokes a change in its firing activity. Intracellular recordings in cat area 17 show that the visually evoked synaptic integration field extends over a much larger area than that established on the basis of spike activity. Synaptic depolarizing (dominant excitation) responses decrease in strength for stimuli that are flashed at increasing distances away from the centre of the discharge field, while their onset latency increases. A detailed spatio-temporal analysis of these electrophysiological data shows that subthreshold synaptic responses observed in the 'silent' surround of cortical receptive fields result from the intracortical spread of activation waves carried by slowly conducting horizontal axons within primary visual cortex. They also predict that a perceptual facilitation may occur when feedforward activation produced by the motion signal in the retina travels in phase in the primary visual cortex with the visually induced spread of horizontal activation. A psychophysical correlate has been obtained in humans, showing that apparent motion produced by a sequence of co-linear Gabor patches, known to preferentially activate V1 orientation selective cells, are perceived by human observers as much faster than non co-linear sequences of the same physical speed.

Effect of social isolation on the metabolism of morphine and its passage through the blood-brain barrier and on consumption of sucrose solutions.

RATIONALE: We have previously shown that place preference conditioning to morphine was observed in social mice at the dose of 8 mg/kg, whereas 4 weeks of isolation impairs the place preference conditioning to morphine (8-100 mg/kg). OBJECTIVE: The present study, aimed at explaining this phenomenon, tested three hypotheses: firstly, a reduced sensitivity to reinforcers induced by isolation; secondly, a difference in morphine disposition in isolated and social mice; thirdly, an altered blood-brain barrier transport of morphine in isolated mice. METHODS: In the sucrose experiments, mice had the choice (for 24 h) between a bottle containing tap water and a bottle containing a sucrose solution. Three sucrose concentrations were used: 0.5, 1 and 2% (weight/weight). In the morphine disposition experiments, the plasma levels of morphine and of morphine-3-glucuronide (M3G) were measured for 240 min. The brain concentrations of morphine was measured at 15 and 30 min. The passage of morphine through the blood-brain barrier was measured using a method modified from that of Takasato (1984). RESULTS: The preference for the sucrose solutions was significantly greater in isolated than in social mice for the concentration of 2%. Isolation reduced the plasma levels of morphine and of M3G, but did not alter the brain concentration of morphine. The passage of morphine through the blood-brain barrier was altered by isolation in neither of the eight structures examined. CONCLUSIONS: We conclude that the behavioural effect of isolation observed in the conditioned place preference to morphine may depend on changes both in morphine disposition and in the sensitivity to reinforcers in isolated mice.

Fold recognition study of alpha3-galactosyltransferase and molecular modeling of the nucleotide sugar-binding domain.

The structure and fold of the enzyme responsible for the biosynthesis of the xenotransplantation antigen, namely pig alpha3 galactosyltransferase, has been studied by means of computational methods. Secondary structure predictions indicated that alpha3-galactosyltransferase and related protein family members, including blood group A and B transferases and Forssman synthase, are likely to consist of alternating alpha-helices and beta-strands. Fold recognition studies predicted that alpha3-galactosyltransferase shares the same fold as the T4 phage DNA-modifying enzyme beta-glucosyltransferase. This latter enzyme displays a strong structural resemblance with the core of glycogen phosphorylase b. By using the three-dimensional structure of beta-glucosyltransferase and of several glycogen phosphorylases, the nucleotide binding domain of pig alpha3-galactosyltransferase was built by knowledge-based methods. Both the UDP-galactose ligand and a divalent cation were included in the model during the refinement procedure. The final three-dimensional model is in agreement with our present knowledge of the biochemistry and mechanism of alpha3-galactosyltransferases.

Visual input evokes transient and strong shunting inhibition in visual cortical neurons.

The function and nature of inhibition of neurons in the visual cortex have been the focus of both experimental and theoretical investigations. There are two ways in which inhibition can suppress synaptic excitation. In hyperpolarizing inhibition, negative and positive currents sum linearly to produce a net change in membrane potential. In contrast, shunting inhibition acts nonlinearly by causing an increase in membrane conductance; this divides the amplitude of the excitatory response. Visually evoked changes in membrane conductance have been reported to be nonsignificant or weak, supporting the hyperpolarization mode of inhibition. Here we present a new approach to studying inhibition that is based on in vivo whole-cell voltage clamping. This technique allows the continuous measurement of conductance dynamics during visual activation. We show, in neurons of cat primary visual cortex, that the response to optimally orientated flashed bars can increase the somatic input conductance to more than three times that of the resting state. The short latency of the visually evoked peak of conductance, and its apparent reversal potential suggest a dominant contribution from gamma-aminobutyric acid ((GABA)A) receptor-mediated synapses. We propose that nonlinear shunting inhibition may act during the initial stage of visual cortical processing, setting the balance between opponent 'On' and 'Off' responses in different locations of the visual receptive field.

Epidemiology and prophylaxis of endemic goitre in the Bwa village of Sirao (Mali).

A study was conducted in Mali, in some villages exposed to iodine deficiency disorders (IDD). To treat and, above all, prevent endemic goitre, Lipiodol UF was dispensed in two ways: by intra-muscular injection (475 mg I) or by oral administration (48 mg I to 240 mg I). In two cases, hormone levels regained normal values and thyroid hypertrophies regressed significantly. Nevertheless, the impact of the treatment on the size of the goitres seems to be in favour of injections; which is probably due to the fact that in the village which received Lipiodol UF per os, many goitres were nodular.

Effect of isolation on pain threshold and on different effects of morphine.

1. The effect of three periods of isolation (8, 15 and 30 days) were studied in mice on the pain threshold and the sensitivity to morphine. 2. The pain threshold was unchanged after 8 and 15 days of isolation but increased after 30 days of isolation. 3. The analgesic effect of morphine was unchanged after 8 and 15 days of isolation but increased after 30 days of isolation. 4. The tolerance to morphine analgesia was unchanged after 8 and 15 days of isolation but increased after 30 days of isolation (morphine-induced analgesia was reduced). 5. The physical dependence on morphine induced by precipitated withdrawal was unchanged after 8 and 15 days of isolation but decreased after 30 days of isolation. 6. It is suggested that isolation may modify the metabolism the metabolism/absorption of morphine in a different way according as the treatment is unique or chronic.

Isolation impairs place preference conditioning to morphine but not aversive learning in mice.

Morphine (8-100 mg/kg IP) induces place preference conditioning in mice. The effect of two different periods of isolation (15 and 30 days) was examined. Mice isolated for 15 days but not 30 days exhibited place preference conditioning to morphine (8 mg/kg). After 30 days of isolation morphine could not induce place preference conditioning with the following doses (8, 16, 64, 100 mg/kg). Social regrouping of male mice previously isolated for 30 days with naive female mice for 15 or 30 days resulted in a reappearance of the conditioned place preference to morphine (16 mg/kg). The specificity of this associative deficit was examined by testing learning in isolated compared to non-isolated mice in two distinct settings: escape learning in the Morris water maze and passive avoidance acquisition and retention. On the Morris water maze isolated mice did not differ from non-isolated mice regarding place learning, the probe trial or extinction. Isolated mice were unimpaired in passive avoidance acquisition and retention. It was concluded that the deficits in place preference conditioning were not the result of a global learning impairment in isolated mice.

Effect of isolation on morphine-induced running and changes in body temperature.

1. The influence of isolation of three durations 8, 15 and 30 days has been examined in mice on the effects of morphine on rectal temperature and on locomotor activity. Isolated mice were compared to non isolated mice with the same age. 2. Morphine (20 mg/kg ip) induced in mice an early hypothermia followed by a late hyperthermia. The hypothermic effect was significantly reduced following isolation, but the duration of isolation (8, 15, 30 days) had no influence. Isolation did not modify the hyperthermic effect of morphine. 3. Morphine (40 mg/kg ip) induced in mice an increase in locomotor activity called "running". The running activity was significantly increased following isolation. The duration of isolation (8, 15, 30 days) did not seem to influence this effect. 4. These results show that isolation does not modify in the same way every effects of morphine, they suggest that isolation alters the mechanism involved in the running activity and in the hypothermic effect. The nature of these mechanisms is discussed.

Influence of a dietary alpha-linolenic acid deficiency on learning in the Morris water maze and on the effects of morphine.

Female OF1 mice were fed on a diet deficient in alpha-linolenic acid or on a control diet 3 weeks before mating and throughout pregnancy and lactation. Pups fed on the same diet as their mothers were used for experiments. The effects of dietary alpha-linolenic acid deficiency were studied in a model of learning, the Morris water maze, and on the following effects of morphine: increase in locomotor activity, modifications of rectal temperature and analgesia. In the place and in the cue versions of the Morris water maze, learning occurred at the same speed in the two diet groups; however, in the place version of the test, the level of the performance was significantly lower in the deficient mice. The probe trial and the extinction procedure did not show any difference between the two diet groups. The morphine-induced increase in locomotor activity occurred significantly earlier and was greater in the deficient diet group. Morphine induced an early hypothermia followed by a late hyperthermia; the hypothermia was significantly greater and the hyperthermia significantly smaller in the deficient mice. The pain thresholds and the morphine-induced analgesia were unmodified by the dietary deficiency. The plasma levels of morphine were similar in the two diet groups.

Effect of dietary alpha-linolenic acid deficiency on habituation.

Three weeks before mating, two groups of SWISS OF1 mice were fed a diet that was similar but contained either peanut oil poor in alpha-linolenic acid [18:3(n-3)] (n-3 deficient = deficient mice = (n-3)-) or peanut + rapeseed oil rich in alpha-linolenic acid (n-3 nondeficient = controls = (n-3)+). Pups, fed the same diet as their dams, aged 45 to 62 days were used for brain lipid analysis and for behavioral experiments, aimed at determining whether there is a relation between the dietary intake of alpha-linolenate and a simple form of learning: habituation. The behavior of mice was compared using four models: exploration recorded in a photocell actimeter, activity in an open-field, duration of immobility in the forced swimming test and number of escape attempts from a small closed space. Habituation was measured by testing the mice in the same situation after some time had elapsed since the first test. Exploration in the photocell actimeter was significantly reduced between day 1 and 4 in nondeficient mice, but, not in deficient mice. The number of square crossings in the open-field was significantly reduced on the second test neither in the control nor in the deficient mice. In the forced swimming test, the habituation (increase in duration of immobility) was significantly greater (255%) in nondeficient than in deficient mice (163%). In the escape attempt experiment, the habituation showed a trend to be greater in controls than in deficient mice (p = 0.061) and was significantly greater in females than in males (p = 0.028). These results suggest that a simple form of learning, habituation, occurs more slowly in mice fed a diet deficient in alpha-linolenic acid.

Voltage-clamp measurement of visually-evoked conductances with whole-cell patch recordings in primary visual cortex.

Whole cell patch recordings have been realized in the primary visual cortex of the anesthetized and paralyzed cat, in order to better characterize input resistance and time constant of visual cortical cells in vivo. Measurements of conductance changes evoked by visual stimulation were derived from voltage clamp recordings achieved in continuous mode at two or more different subthreshold holding potentials. They show that the magnitude of the conductance increase can reach up to 300% of the mean conductance at rest. The observation of similar changes for the preferred and antagonist responses, when flashing ON and OFF, a test stimulus in pure ON and OFF subfields supports the hypothesis of a role for shunting inhibition in the spatial organization of simple receptive fields.

Effect of isolation on behavioural models involving serotonergic 5-HT2 and 5-HT1A receptors.

1. The effect of 7 days of isolation were observed in mice on behavioural models involving 5-HT2 and 5-HT1A receptors. 2. The sensitivity of 5-HT2 receptors as assessed through L-5-HTP or 5-MeODMT induced head-twitches was reduced. 3. The sensitivity of the 5-HT1A receptors implicated in the 8-OH-DPAT induced feeding was unchanged. 4. The sensitivity of the 5-HT1A receptors involved in the 8-OH-DPAT induced hypothermia was diminished. 5. On the whole, these results show that after 7 days of isolation, the responses to the stimulation of serotonergic receptors is unchanged or diminished according to both the receptor's subtype and the model used.

[Clinical diagnosis and standardized evaluation of borderline personality: preliminary report]. / Diagnostic clinique et évaluation standardisée de la personnalité borderline: rapport préliminaire.

A sample of 36 patients considered by French clinicians as suffering from a borderline personality disorder was evaluated using the International Personality Disorder Examination, the Diagnostic Interview for Borderline-Revised, and the Minnesota Multiphasic Personality Inventory. First, global descriptive analysis of the sample elicited the socio-demographic and standard clinical characteristics of the borderline individuals. After diagnostic evaluation, the sample appeared to be quite homogeneous with 25 of the 36 patients evaluated (69.5%) being defined as borderline by two of the three diagnostic systems: ICD 10, DSM III-R and Gunderson (15/36 = 41.5% of patients were defined as borderline by all three systems). It is the types of BL personality co-diagnoses which differentiated the BL subjects in the sample from those classically described in the international literature, since the most frequent personalities were the Dependent and Avoiding ones, not the Antisocial, Histrionic, Narcissistic or Schizotypic personalities of the DSM III-R. ICD 10 elicited the same significant prevalence of Anxious and Dependent personalities. Lastly, the patients diagnosed as borderline both by clinicians and by all diagnostic systems (forming the sample "core") were compared with the rest of the sample with regard to socio-demographic, clinical and diagnostic characteristics. A few hypotheses are proposed on the type of variables that may permit to discriminate between these two types of patients.

Brain catecholamines, serotonin and their metabolites in mice selected for low (MGL) and high (MGH) blood magnesium levels.

Brain noradrenaline, dopamine, DOPAC (3-4 dihydroxyphenylacetic acid), HVA (homovanillic acid), serotonin and 5-HIAA (5-hydroxyindolacetic acid) were determined by high performance liquid chromatography with amperimetric detection in adult male mice from three different strains : mice with genetically low (MGL) or high (MGH) blood magnesium levels, obtained by selective breeding and outbred Swiss albino mice. Noradrenaline levels were significantly higher (P < or = 0.001) in MGL than in MGH and Swiss mice : DOPAC levels were lower (P < or = 0.001) in MGL than in MGH and Swiss. Little or no differences were found for these variables between MGH and Swiss mice. MGL and MGH animals had similar brain dopamine, HVA and serotonin contents. These results suggest that the mere selection for genetic traits inducing low blood magnesium levels increases the synthesis of noradrenaline or decreases its catabolism. The above data together with the higher urinary noradrenalin excretion previously observed in the MGL line might account for the higher sensitivity and/or reactivity of MGL animals to stress. Swiss mice had significantly lower (P < or = 0.001) brain dopamine and serotonin contents than both MGL and MGH lines; indeed Swiss mice and MGL/MGH mice were issued from very different populations and had vastly different stocks of genes. Brain 5-HIAA content was also found higher (P < or = 0.01) in MGH than in MGL and Swiss mice; this latter result needs to be confirmed by further research.