Showing papers in "Journal de physiologie in 1991"

Fusimotor reflexes influencing secondary muscle spindle afferents from flexor and extensor muscles in the hind limb of the cat.

Abstract: The purpose of this study was to investigate secondary muscle spindle afferents from the triceps-plantaris (GS) and posterior biceps and semitendinosus (PBSt) muscles with respect to their fusimotor reflex control from different types of peripheral nerves and receptors. The activity of single secondary muscle spindle afferents was recorded from dissected and cut dorsal root filaments in alpha-chloralose anaesthetized cats. Both single spindle afferents and sets of simultaneously recorded units (2-3) were investigated. The modulation and mean rate of firing of the afferent response to sinusoidal stretching of the GS and PBSts muscle were determined. Control measurements were performed in the absence of any reflex stimulation, while test measurements were made during reflex stimulation. The reflex stimuli consisted of manually performed movements of the contralateral hind limb, muscle stretches, ligament tractions and electrical stimulations of cutaneous afferents. Altogether 21 secondary spindle afferents were investigated and 20 different reflex stimuli were employed. The general responsiveness (i.e. number of significant reflex effects/number of control-test series) was 52.4%, but a considerable variation between different stimuli was found, with the highest (89.9%) for contralateral whole limb extension and the lowest (25.0%) for stretch of the contralateral GS muscle. The size of the response to a given stimulus varied considerably between different afferents, and, in the same afferent, different reflex stimuli produced effects of varying size. Most responses were characterized by an increase in mean rate of discharge combined with a decrease in modulation, indicative of static fusimotor drive (Cussons et al., 1977). Since the secondary muscle spindle afferents are part of a positive feedback loop, projecting back to both static and dynamic fusimotor neurones (Appelberg Et al., 1892 a, 1983 b; Appelberg et al., 1986), it is suggested that the activity in the loop may work like an amplified which, during some circumstances, enhance the effect of other reflex inputs to the system (Johansson et al., 1991 b).

Evidence for the entrainment of breathing by locomotor pattern in human.

Abstract: In human, it has been shown that interactions between locomotor and respiratory patterns may lead to locomotor-respiratory couplings termed entrainment. In order to prove that this coupling is really an entrainment, we tried to show that it obeys one of the expected rules, i.e. that it evolves and is not present for all imposed locomotor frequencies. For that purpose, seventeen healthy volunteers were asked to run on a treadmill at 14 different locomotor rates (instead of 2 or 3 in previous works) for 40 s. All the subjects did not exhibit the same coupling and different relationships could be obtained: the most commonly observed was 2:1 (2 locomotor activities for a respiratory one) but other forms could appear (4:1 and even 5:2 or 3:2). When the coupling evolution was followed in the same subject, it did not appear for all locomotor frequencies but only for locomotor periods close to harmonics of respiratory ones (absolute coordination). On both sides of these values, it progressively evolved to relative coordination and to the lack of coordination. When two forms of absolute coordination were observed in a same subject, the phase relationships followed the rules of the entrainment. Compared to data obtained in quadrupeds, these results suggest that the entrainment of breathing frequency by the locomotor activity is due to central interactions between the respiratory and locomotor pattern generators and does not depend on a chemical regulation avoided here by short locomotor sequences.

The neurotrophins and CNTF: specificity of action towards PNS and CNS neurons.

Abstract: The availability of relatively large amounts of nerve growth factor (NGF) has allowed extensive in vitro and in vivo characterization of the neuronal specificity of this neurotrophic factor. The restricted neuronal specificity of NGF (sympathetic neurons, neural crest-derived sensory neurons, basal forebrain cholinergic neurons) has long predicted the existence of other neurotrophic factors possessing different neuronal specificities. Whereas there have been many reports of "activities" distinct from NGF, full characterization of such molecules has been hampered by their extremely low abundance. The recent molecular cloning of brain-derived neurotrophic factor (BDNF) revealed that this protein is closely related to NGF and suggested that these two factors might be members of an even larger gene family. A PCR cloning strategy based on homologies between NGF and BDNF has allowed us to identify and clone a third member of the NGF family which we have termed neurotrophin-3 (NT-3). The establishment of suitable expression systems has now made available sufficient quantities of these proteins to allow us to begin to establish the neuronal specificity of each member of the neurotrophin family, and the role of each in development, maintenance and repair of the PNS and CNS. Using primary cultures of various PNS and CNS regions of the developing chick and rat, and Northern blot analysis, we describe novel neuronal specificities of BDNF, NT-3 and an unrelated neurotrophic factor-ciliary neurotrophic factor (CNTF).

Endocytosis of the synaptic vesicle protein, synaptophysin, requires the COOH-terminal tail.

Abstract: Synaptic vesicles participate in a cycle of fusion with the plasma membrane and reformation by endocytosis. Endocytosis of membrane proteins by the well studied clathrin-coated vesicle pathway has been shown to involve specific sequences within the cytoplasmic tail domain. Proteins taken up by clathrin-coated vesicles are directed to early endosomes from which they may return to plasma membrane. Recent evidence suggests that the synaptic vesicle protein synaptophysin is targeted to early endosomes in transfected fibroblasts and in neuroendocrine cells. To begin to test whether sequences within the COOH-cytoplasmic domain are required for internalization we have expressed a synaptophysin molecule lacking this domain in 3T3 cells and measured its rate of internalization. While a full length synaptophysin was internalized efficiently, we could not detect internalization of the mutant construct. These data are consistent with a model in which the COOH-terminal tail is required for coated-pit localization and hence targeting of synaptophysin to early endosomes.

Fusimotor reflex profiles of individual triceps surae primary muscle spindle afferents assessed with multi-afferent recording technique.

Abstract: The experiments were performed on 21 cats anaesthetized with alpha-chloralose. The aim of the study was to investigate sets of simultaneously recorded spindle afferents (2-4 in each set) from the triceps surae muscle (GS) with respect to the pattern of fusimotor reflex effects evoked by different types of ipsi- and contralateral reflex stimulation. The afferents' responses to sinusoidal stretching of the GS muscle were determined and the fusimotor reflex effects were assessed by comparing the afferent responses (i.e. the mean rate of firing and the depth of modulation) elicited during reflex stimulation with those evoked in absence of any reflex stimulus. Natural of electrical activations of ipsi- and contralateral muscle, skin and joint receptor afferents were used as reflex stimuli. The spindle afferents were influenced by several modalities and from wide areas, with a majority responding to both ipsi- and contralateral stimuli. A particular reflex stimulus often caused different effects on different afferents, and the various reflex stimuli seldom gave similar effects on a particular afferent. Multivariate analysis revealed that the variation in response profiles among simultaneously recorded afferents were as great as between afferents recorded on different occasions. This suggests that the individualized response prifiles, observed in earlier investigations, represent a very diversified reflex control of the spindle primary afferents, and are not a reflection of changes in the setting of the spinal interneuronal network, occurring during the time interval between the recordings of different units. Also, there was no relation between the conduction velocity of the afferents and the reflex profiles of the afferents, but non-linear relations were found between effects elicited by different types of stimuli. Indications were also found that it may be possible to separate the population of GS muscle spindles into subgroups, according to the fusimotor effects exhibited by activation of various categories of ipsi- and contralateral receptor afferents. It is concluded that one possible way of making the very complex reflex system controlling the muscle spindles intelligible may be a combination of multiple simultaneous recordings of spindle afferents and multivariate analysis.

Central pattern generators: some principles learned from invertebrate model systems.

Abstract: 1. Central pattern generators (CPGs) underlie a wide variety of rhythmic behaviours such as locomotion and respiration in most multi-cellular organisms. 2. The CPG's are capable of generating a patterned output without phasic sensory input. 3. The organization of the CPG is due to both intrinsic properties of the individual neurons and their network interactions. 4. To gain an understanding of the mechanisms which underlie rhythmicity a CPG has been reconstructed in culture. This will allow investigators to test directly the mechanisms underlying the generation of rhythmic output and will allow the direct testing of the mechanisms by which various modulators affect the CPG.

Effects of corticocerebellar lesions on taste preferences, body weight gain, food and fluid intake in the rat.

Abstract: The experiments reported here attempted to examine in two groups of rats the effects on the taste preferences, food and fluid intake, energy balance and body weight gain of corticocerebellar lesions involving, primarily, the Lobulus VI (LVI) or the Lobulus Paramedianus (LP). The results showed that the lesions of LVI or LP did not affect the daily intake of total fluid and salty solution. The intake of sweet solution increased in both groups of lesioned rats, while the intake of deionized water and acid and bitter solutions decreased only in the LVI lesioned rats. Food intake decreased in the LVI-lesioned rats but not in the LP-lesioned animals. Body weight gain, efficiency of food utilization, caloric intake and body surface gain decreased in both groups. It seems therefore that the cerebellar cortex, which probably receives taste fibers, somehow influences taste preferences and water intake, and that it may be involved in the mechanisms of food intake, its utilization and body energy balance.

Behavioural effects of genetically engineered cells releasing dopa and dopamine after intracerebral grafting in a rat model of Parkinson's disease.

Abstract: The relative importance of synaptic versus paracrine dopamine transmission for the occurrence of functional effects following intrastriatal grafting is not fully established. In the present study we grafted cell lines, expressing the form I of human tyrosine hydroxylase after infection with a recombinant retrovirus and selection in tyrosine-free-medium, to the denervated striatum in order to analyse the extent to which extracellular dopamine levels can be restored and the effect of a diffuse release of dopamine on motor impairement in a rat model of Parkinson's disease. In petri dish, the modified fibroblast cells (NIH.3T3) release DOPA constitutively whereas the modified endocrine cells (RIN) store and release dopamine in a regulated way. Interestingly, in denervated striatum, grafts of modified fibroblast cells produce DOPA which was efficiently converted into dopamine by the host striatal tissue. In the grafted striatum, both fibroblast and endocrine cells restore subnormal levels of diffuse release of dopamine which is notably unaffected and stimulated, respectively, by high concentration of potassium, in connection with the in vitro properties of the grafted cells. The intrastriatal grafts of modified cells partially reversed the apomorphine-induced but not the amphetamine-induced motor asymmetry. We discuss the implications of these results in the context of Parkinson disease.

Segmentation of sensory and sympathetic ganglia: interactions between neural crest and somite cells.

Abstract: The segmental pattern of peripheral ganglia in higher vertebrates is generated by interactions between neural crest and somite cells. Each mesodermal somite is subdivided into at least two distinct domains represented by its rostral and caudal halves. Most migratory pathways taken by neural crest cells in trunk regions of the axis, as well as the outgrowth of motoneuron fibers are restricted to the rostral domain of each somite. Experimental modification of the somites, achieved by constructing a mesoderm composed of multiple rostral half-somites, results in the formation of continuous and unsegmented nerves, dorsal root ganglia (DRG) and sympathetic ganglia (SG). In contrast, both neurites and crest cells are absent from a mesoderm composed of multiple-caudal half somites. However, the mechanisms responsible for gangliogenesis within the rostral half of the somite, appear to be different for DRG and SG. Vertebral development from the somites is also segmental. In implants of either multiple rostral or caudal somite-halves, the grafted mesoderm dissociates normally into sclerotome and dermomyotome. However, the morphogenetic capabilities of each somitic half differ. The lateral vertebral arch is continuous in the presence of caudal half-somite grafts and is virtually absent in rostral half-somite implants. Therefore, the rostrocaudal subdivision of the sclerotome determines the segmental pattern of neural development and is also important for the proper metameric development of the vertebrae.

In vitro and in vivo regulation of the expression of the tyrosine hydroxylase gene.

Abstract: Preganglionic nerve stimulation has been shown to induce delayed or long term changes in the neuron. Different models were used to study the trans-synaptic regulation of the tyrosine hydroxylase (TH): the rat adrenal medulla (AM) and the superior cervical ganglia (SCG). Northern blot analysis, western blot and enzymatic assays demonstrated that the TH mRNA paralleled both an increase in the protein amount and its enzymatic activity. Results of in vitro transcription on nuclei isolated from AM or from SCG after treatment with reserpine suggest that this increase in TH expression is due to an effect on the transcriptional activity of the TH gene. Other gene, cfos, is also induced by reserpine indicating that the TH transcription in these neurons may be mediated by "third messengers". Several putative regulatory elements, in particular an octamer sequence AP1 has been localized in the promoter of TH gene. Gel shift assays with nuclear extracts from untreated and phorbol ester treated cells strongly suggest that a protein complex binds to this AP1 like sequence. Comparative analysis of gel shift assays with AM nuclear extracts exhibit a similar pattern suggesting that this AP1 site could be involved in the trans-synaptic regulation of TH.

Cerebellar synaptogenesis: mutant mice--neuronal grafting.

Abstract: Neurological mutations affecting the cerebellum of the mouse have offered the possibility to study some of the cellular mechanisms involved in the establishment of synaptic connections (see in Sotelo, 1990). Indeed, these mutations provoke through well-defined lesions, the disruption of the normal processes of synapse formation and, by examination of the perturbations in the adult cerebellar connectivity, it is possible to unravel some of the numerous and intricate cellular interactions taking place during synaptogenesis. Furthermore, some of these mutants primarily affect Purkinje cells, the pivotal elements of the cerebellar cortex and its only output, inducing their degeneration. These Purkinje cell-deficient cerebella offer an optimal material to try--by grafting experiments--to replace the missing neurons, and to analyze synaptogenic processes between neuronal partners of different biological ages: the host adult neurons and the embryonary grafted Purkinje cells (Sotelo et al., 1990). The aim of this paper is to summarize some of the work carried out in my laboratory concerning the two above-mentioned topics.

Dihydropyridine effects on skeletal muscle fatigue.

Abstract: 1. The purpose of this investigation was to determine if alterations in extracellular calcium (Ca2+) influx by the dihydropyridine derivatives Bay K 8644 and nifedipine affected skeletal muscle fatigue. 2. Tetanic contractions (80 Hz, 100 msec) of frog sartorius muscles were evoked every sec for 3 min. Muscles were fatigued in normal Ringer's solution (NR), in NR containing 1 microM nifedipine of 10 microM Bay K 8644 or in low Ca2+ Ringer's. 3. In each case, the experimental conditions increased the rate and magnitude of fatigue. Rate constants of fatigue obtained during Bay K 8644, nifedipine and low Ca2+ conditions (-.0122 +/- .0016, -.0397 +/- 0022 and 0.0169 +/- .0064 sec-1, respectively) were significantly greater than NR (-.0104 +/- .0006 sec-1, p less than .05). In addition, tetanic forces developed at the end of the stimulation period under the experimental conditions (3.90 +/- 0.81, 1.21 +/- 1.40 and 2.04 +/- 1.10% of initial) were significantly less than NR (7.18 +/- 1.27%, p less than .05). 4. Caffeine contracture forces (10 mM) evoked immediately after stimulation were not significantly different between conditions. 5. These results suggest that alterations in sarcolemmal Ca2+ exchange has some influence on the fatigue process.

Expression of T-type calcium current precedes neurite extension in neuroblastoma cells.

Abstract: 1. N1E-115 mouse neuroblastoma cells morphologically differentiate by extending neurites in a period of seven days after addition of 2% DMSO to the culture medium. We used the whole-cell patch clamp technique to measure calcium currents in these cells under conditions where voltage clamp of the whole membrane was assured. 2. Current densities of both T and L type calcium currents were identical in cells included to differentiate with dibutyryl cyclic AMP and cells induced to differentiate with dimethylsulphoxide (DMSO). Cells differentiated with DMSO were used for all subsequent experiments. 3. All morphologically differentiated cells showed a T type calcium current. In contrast, a minority of morphologically undifferentiated cells did not show a T current. 4. Once expressed, both T and L currents did not change either in current density or in behaviour over a period of five days. 5. These data demonstrate that expression of a T current always precedes neurite extension, and suggest a role for calcium currents in triggering morphological differentiation.

Facilitating action of medial prefrontal cortex upon the noxious thermally-evoked responses in thalamic centralis lateralis nucleus.

Abstract: This paper shows a medial prefrontal cortex (CxAP9) facilitating influence upon the unit activity of the centralis lateralis (Cl) nucleus of the thalamus, in rats anesthetized with urethane. Cortical influences were studied using both cortical cooling and cortical spreading depression (CSD) procedures. Both spontaneous and noxious thermally evoked activities were considered. When CSD was propagated and affected the CxAP9, as well as during the cooling of this area, both spontaneous activity and the responses evoked in Cl cells by noxious stimulation were blocked. This effect was interpreted as a cortical disfacilitation upon Cl cells. During the cortical silent period we tested the excitability of a few Cl cells, provoking their activation by passing electrical current across the same Cl recording electrode. No changes were observed in their excitable response threshold during CSD or cortical cooling. Our results are in agreement with the proposition of a tonic cortical facilitatory action upon the spontaneous and noxious-evoked responses recorded in the Cl cells.

Repetitive impulse activity potentiates spontaneous acetylcholine secretion at developing neuromuscular synapses.

Abstract: The effects of presynaptic impulse activity on the transmitter secretion at developing neuromuscular junctions were examined in Xenopus nerve-muscle cultures. Repetitive suprathreshold stimulation of the presynaptic neuron results in marked potentiation of spontaneous synaptic activity, as shown by whole-cell voltage-clamp recording of synaptic currents in the postsynaptic muscle cell. Our results are consistent with the notion that synaptic efficacy of the developing synapse is potentiated by the presence of electrical activity. Such activity-dependent synaptic modulation enables the early neuronal activity to play a regulatory role during the maturation of synaptic connections.

Synaptic formations and modulations of synaptic transmissions between identified cerebellar neurons in culture.

Abstract: 1. Synaptic formations between a rat cerebellar granule cell and a Purkinje cell, and also between an inferior-olivary neuron and a Purkinje cell have been accomplished in culture. 2. The synaptic transmission between an inferior-olivary neuron and a Purkinje cell was far much more potent than that between a granule cell and a Purkinje cell in the culture, and the former always induced in a Purkinje cell an action potential followed by prolonged depolarization, which resembled a climbing fiber response in vivo. 3. Synaptic potentiation was induced by repetitive stimulation (2 Hz, 20 sec) of a granule cell, and the synaptic depression was induced by repetitive conjunctive stimulation of both a granule cell and an inferior-olivary neuron as in a slice preparation. 4. When repetitive stimulation of both neurons were given while the postsynaptic Purkinje cell was voltage-clamped at -80 mV, not the depression but the potentiation took place. When repetitive stimulation of a granule cell was coupled with the postsynaptic strong depolarization induced by direct outward current injection, the depression took place. These two experiments indicate that the postsynaptic depolarization during activation of a presynaptic granule cell is both necessary and sufficient to induce the depression, and that the potentiation is induced without the postsynaptic depolarization. 5. The quantal analysis on the synaptic transmission, where fluctuations of amplitudes of synaptic currents in a Purkinje cell induced by a single granule cell were measured, indicated that the synaptic potentiation involves the enhancement of transmitter release from a presynaptic granule cell and that the depression involves changes of postsynaptic receptors on a Purkinje cell.

Multiple dystrophin isoforms are associated with the postsynaptic membrane of Torpedo electric organ.

Abstract: We have shown previously that dystrophin is a component of postsynaptic membranes in Torpedo electric organ and is localized at mammalian neuromuscular synapses. In skeletal muscle, dystrophin is also detectable at the non-synaptic membrane of the myofiber, whereas in the electric organ, dystrophin is strictly localized to the postsynaptic membrane, and is not detectable in non-synaptic membranes. Multiple isoforms of dystrophin are present in skeletal muscle, and different isoforms could potentially be targetted to synaptic and non-synaptic membranes. We sought to determine whether the electric organ contains a single, or multiple isoforms of dystrophin, and we show here that the electric organ contains both a and b isoforms of dystrophin. Because dystrophin is found only at the postsynaptic membrane of the electric organ, we conclude that the two isoforms coexist in the postsynaptic membrane.

[Pulvina-lateralis posterior nucleus complex of mammals and the visual function].

Abstract: It is now well established that the lateral posterior-pulvinar (LP-P) complex of mammals is involved in visual processing. However, the actual function of these large nuclei of the thalamus remains unknown. In contrast to the nearby lateral geniculate nucleus, the LP-P complex does not receive any substantial direct projections from the retina. Its main visual inputs come from the mesencephalon and the neocortex. Most cells in the LP-P complex behave like cortical units. They are tuned to the orientation, direction, spatial and temporal frequencies of the visual stimulus. In addition, most units are binocular and sensitive to relative retinal disparity. Despite their multiple inputs, the LP-P complex cells form an homogeneous population and their overall properties do not reflect those of a given cortical or subcortical area. On the basis of its afferent and efferent connectivity, it has been proposed that the LP-P complex may serve as a relay of an extrageniculate ascendant pathway which originates from the superior colliculus, and/or provide another route for the geniculo-striate input to reach the extrastriate areas. Despite the fact that there is some electro-physiological evidence of such functions, it is now often suggested that the LP-P complex may integrate its multiple inputs and be involved in functions which go beyond those of a simple thalamic relay. Recent findings suggest that the LP-P complex might play a role in visual spatial attention.

Regeneration of functional synaptic connections between widely separated neurons in the adult mammalian central nervous system.

Abstract: The responses to light of retinal ganglion cells with regenerated axons can be recorded from axons teased from peripheral nerve grafts replacing the optic nerve of the adult rat or hamster. These responses resemble those of normal retinal ganglion cells but can no longer be observed several months after grafting, concomitant with ongoing loss of the population of axotomized retinal ganglion cells. Synapses formed with neurons in the superior colliculus by retinal ganglion cell axons regenerated through peripheral nerve grafts mediate both excitatory and inhibitory responses. These experiments demonstrate that when provided with an appropriate milieu for elongation, neurons indigenous to the adult mammalian central nervous system can make functional reconnections with distant targets within the nervous system.

An analysis of calcium effects on diastolic depolarization in sheep cardiac Purkinje fibers.

Abstract: The events by which [Ca]O modifies diastolic depolarization (DD) were analyzed in sheep cardiac Purkinje fibers perfused in vitro. Cs (2 mM) reduced diastolic depolarization (DD) at different [Ca]O and in 10.8 mM [Ca]O revealed an oscillatory potential (VOS) and the decay of a prolonged depolarization (Vex). In the presence of Cs, procedures that reduce Cai (a slower driving rate, lower [Ca]O or tetrodotoxin) abolished VOS and Vex and partially restored DD. In 10.8 mM [Ca]O and at all driving rates, Cs reduced DD slope, DD amplitude and VOS amplitude but had little effect on the VOS time to peak. In 10.8 mM [Ca]O, decreasing calcium overload by different means (2.6 microM TTX, 0.2 mM Cd) abolished VOS and decreased DD slope and amplitude. Substituting Na with Li induced marked aftercontractions but small VOS. In 10.8 mM [Ca]O, Li increased the amplitude of the aftercontractions and decreased that of VOS. Li also depolarized slightly the resting membrane and abolished the voltage undershoot (Emax) at the end of the action potential. In low [K]O, Li repolarized the resting membrane but the repolarization was maintained only in the presence of Ca. It is concluded that Ca overload causes both VOS and Vex which can either be masked by or can mask DD depending on the magnitude of DD and of Ca overload. VOS is apparently caused by an electrogenic Na-Ca exchange since Li-induced Ca overload increases the aftercontraction but decreases VOS.

A mammalian in vitro model to study gangliogenesis from neural crest cells.

Abstract: In spite of considerable advances towards understanding lineages derived from neural crest cells using amphibian and avian embryos, the molecular mechanisms involved in the formation of mammalian peripheral ganglia remain largely unknown, mainly because of the lack of experimental systems that will allow their in vitro manipulation. Here, we present a novel mammalian in vitro model permitting to study gangliogenesis from neural crest cells. This model allowed us to manipulate molecules involved in cell-cell interactions. Our data are in favour of the existence of a hierarchy among adhesion molecules.

Influence of ketamine and propranolol on plasma renin activity (PRA) in female rabbits and guinea pigs.

Abstract: 1. Plasma renin activity was measured in non pregnant rabbits and guinea pigs under Ketamine-induced general anesthesia after pretreatment either with Propranolol or with a Placebo. Study was performed using a radio-immunoassay for angiotensin I. 2. Twenty minutes after the beginning of the observation period, renin activity in rabbits who had received Placebo alone (11.47 +/- 2.35 ng/ml/h) or associated with Ketamine (11.36 +/- 2.54 ng/ml/h) was similar. However, enzyme activity was significantly lower (P less than 0.001) when Propranolol was associated with Ketamine (3.97 +/- 0.58 ng/ml/h) or with Placebo (4.10 +/- 0.55 ng/ml/h). 3. In the same way, renin activity was significantly higher (P less than 0.001) in guinea pigs without Propranolol than in those who had received this drug. 4. These findings indicate that stress induced by general anesthesia with Ketamine or by simple manipulation of animals (Placebo) was accompanied by an excessive increase in plasma renin activity. Propranolol maintained the level of this enzyme activity within normal limits.

Cholinergic fiber growth in co-cultures of CNS tissue.

Abstract: In co-cultures prepared from the septum and the hippocampus, cholinergic fibers originating in the septal slices grew into the neighboring hippocampal tissue and established functional cholinergic connections with pyramidal cells To get further insight into the mechanisms governing cholinergic fiber growth, we have added TTX to the growth medium (2 x 10(-7) M) to block propagated electrical activity Under these conditions, considerably fewer cholinergic cells appeared to survive A few cholinergic fibers still invaded hippocampal target tissue, but their number was markedly reduced compared with control cultures Simultaneous application of NGF together with TTX, however, not only increased enzyme levels and enhanced survival of cholinergic neurons, but also led to hippocampal ingrowth in virtually all septo-hippocampal co-cultures These data, therefore, suggest, that in the absence of spiking activity, cholinergic fibers are capable of growing into a co-cultured target tissue To test the specificity of growth of septal cholinergic fibers, we have co-cultured septal slices with slices of various brain areas which in situ lack a major cholinergic innervation, in particular the cerebellum In the vast majority of such co-cultures, cholinergic fibers remained restricted within the septal slices, without innervating cerebellar tissue This failure might in part be related to the lack of trophic factors released by the target tissue We have, therefore, grown septo-cerebellar cultures in the presence and absence of NGF Following application of 100 ng/ml NGF during the entire growth of the cultures, numerous AChE-positive fibers originating in the septal slices invaded the co-cultured cerebellar slices(ABSTRACT TRUNCATED AT 250 WORDS)

Relationship between the spike activities of the small and large intestines.

Abstract: Experiments were performed using chronically implanted electrodes on the dog smooth muscle wall of the stomach and of the small and large intestines. Electrical activity of the muscle wall was recorded before and after feeding. When reaching the terminal ileum the active part of the migrating myoelectrical complex (MMC) continuously induced bursts of spike potentials superimposed on the slow waves. This electrical activity spread to the ascending colon. We also showed the existence of a spike activity on the terminal ileum independent of the MMC (appearing during the phase 1) and propagating to the colon. A relationship between the spike activities of the small and large intestines was also present after feeding. Beside the well-known gastro-colic reflex, we observed an increase in the spike activity of the terminal ileum and ascending colon between the 4th-5th hours after feeding. This probably corresponds to the arrival of the first portions of contents, evacuated from the arrival of the first portions of contents, evacuated from the stomach, and of the last portions of small intestinal contents. In conclusion, there is a relationship between the spike activities of the small and large intestines in starving animals and after feeding, and the terminal ileum plays a substantial role in this relationship.

Control of the maturation and the survival of central noradrenergic neurons in culture.

Abstract: Central noradrenergic neurons from the locus coeruleus express unique plastic properties. The aim of this study was to identify factors that specifically regulate the development and the survival of the noradrenergic cells. Primary dissociated cultures of embryonic locus coeruleus (LC) neurons were established. Norepinephrine (NE) uptake was used as an index of maturation of the noradrenergic neurons. The noradrenergic cells were identified and quantified following immunocytochemical staining for tyrosine hydroxylase antibody. We have examined the effect of hippocampal target tissue and of cyclic-AMP (cAMP) on the development of these cells. Coculturing LC cells with a low density of hippocampal target cells, resulted in a significant increase in NE uptake. However, when the amount of hippocampal target cells was doubled an enormous decrease in NE uptake occurred. The target stimulatory effect was mediated by both neurons and glia, whereas the inhibitory effect was mediated by direct contact between target glia and LC neurons and detected only in the presence of serum. In addition to target effect, we also tested the effect of elevated intracellular cAMP level on NE uptake versus GABA uptake. GABA uptake served as a developmental index of the non noradrenergic cells. Increasing the intracellular cAMP level, by application of the membrane permeable analog dibutyryl cyclic AMP (DbcAMP), resulted in a selective stimulation of NE uptake, due to enhanced survival of noradrenergic neurons. GABA uptake and the number of non-noradrenergic cells were not changed in the presence of DbcAMP. DbcAMP could maintain the survival of LC neurons in the absence of glial cells.(ABSTRACT TRUNCATED AT 250 WORDS)

In vitro effects of tetrodotoxin and hexamethonium on electrolyte transport in rabbit ileum treated with cholera toxin.

Abstract: To determine if there was a role for the submucosal nerves in cholera toxin (CT)-induced secretion, we studied the effects of serosal addition of two neurotoxins, the nerve conduction blocking agent, tetrodotoxin (TTX), and the nicotinic ganglionic blocking agent, hexamethonium (HXM), on electrolyte secretion in control isolated rabbit ileum and in that stimulated by CT. 1). In the absence of CT, the short circuit current (Isc) decreased after TTX (10(-7) M) (P less than 0.01) and was unaltered by HXM (10(-5) M). In the presence of CT, Isc increased but was not modified by 10(-7) M TTX or 10(-5) M HXM. 2) In control tissues the mean isotopic Na+ and Cl- fluxes were not significantly altered by TTX addition. Cl- absorption alone was significantly reduced by HXM (delta JCl- = 1.95 +/- 0.81 microEq.hr-1.cm-2; P less than 0.02). After stimulation with CT, TTX significantly inhibited Na+ and Cl- secretion (delta JNa+ = 2.15 +/- 0.61 and delta JCl- = 2.15 +/- 0.76 microEq.hr-1.cm-2; P less than 0.01). Similarly, HXM significantly inhibited CT-stimulated Na+ and Cl- secretion (delta JNa+ = 1.73 +/- 0.70 and delta JCl- = 1.46 +/- 0.62 microEq.hr-1.cm-2; P less than 0.02). 3) In TTX and HXM treated tissues there was no difference in the increase in Isc caused by cAMP (2 x 10(-3) M), calcium ionophore A 23187 (4 x 10(-6) M) and glucose (10(-3) M) compared to the untreated tissues in the presence or absence of CT.(ABSTRACT TRUNCATED AT 250 WORDS)

Etude du système rénine-angiotensine et des stéroïdes chorio-placentaires, foetaux et maternels chez le cobaye.

Abstract: 1.) Total renin, active renin, prorenin, angiotensin II, estradiol and progesterone were measured in maternal, placental and fetal blood and in trophoblastic and uterine tissues of the guinea pig. Furthermore, membrane angiotensin II receptors were measured in trophoblastic tissues. 2.) Blood and tissue concentrations of total renin, active renin, angiotensin II and steroids are shown to increase with gestational age. At the full term of pregnancy (70th post-coital day), tissue concentrations of total renin in chorion (23,900 +/- 2,752 ng/g of tissue/h), maternal placenta (14,210 +/- 1,131), fetal placenta (12,475 +/- 927) and uterus (7,677 +/- 798) are 100 time higher than those observed in placental, fetal and maternal blood. Distribution of blood and tissue prorenin (inactive renin) is similar to that found for total renin. Active renin/Total renin ratio reaches 1% in uterine, placental and chorion tissues and 9.3 +/- 1.0% in maternal, placental and fetal blood. 3.) Angiotensin II levels in systemic maternal blood (690 +/- 99 pg/ml) and in uterine blood (467 +/- 84) are higher than those found in placental blood (266 +/- 39) and in different trophoblastic tissues (between 200 and 400 pg/g). Angiotensin II receptor concentrations are highest in chorion. 4.) Regarding the steroid hormones, it is noted that placental and maternal blood contain more progesterone than trophoblastic tissues. The highest concentrations of estradiol are found in chorion tissue and uterine blood. 5.) A positive correlation is observed between angiotensin II and estradiol in uterine blood (r = 0.69, P less than 0.01) and in chorion (r = 0.71, P less than 0.01). These findings indicate that angiotensin II and estradiol could, by their interactions, play an important role in the physiology of pregnancy.

Regulation of neurotransmitter synthesis: from neuron to gene.

Abstract: We are interested in the molecular mechanisms of the regulation of neurotransmitter related gene expression by neurotrophic factors and neuronal activity. Previous work has shown that conditioned medium of muscle cells induces choline acetyltransferase (CAT) activity and represses tyrosine hydroxylase, dopamine-beta-hydroxylase and aromatic L-amino acid decarboxylase (AADC) activities in cultured sympathetic neurons. Here, we show that a new muscle-derived cell line secretes two factors which induce CAT activity in spinal cord cultures; one of those is related to LIF, a CAT inducing factor for sympathetic neurons. Preliminary data are presented on the structure of the human AADC and CAT genes. Putative promoter regions have been coupled to reporter genes; transient transfection experiments will allow us to determine the promoter elements responsible for the regulation by neurotrophic factors. We also summarize the distribution of AADC-immunoreactive cells in rat and cat brain, which will be used as a reference for the study of the specificity of expression of AADC promoter in transgenic mice.