[How studies on curare contributed to the development of neurophysiological research in Brazil]. / Importance des études transnationales sur le curare dans le développement de la recherche en neurophysiologie au Brésil.

Curare is a poison obtained from different species of plants in South America, which was used in arrows by the natives. Its lethal paralyzing potential and mechanism of action began to be explored in the 19th century. In this article, we highlight the research on this poison and the fruitful exchanges between the Brazilian Emperor Dom Pedro II and the researchers João Baptista de Lacerda, Louis Couty and Alfred Vulpian who contributed to the development of experimental neurophysiology in Brazil. Vulpian found that curare does not affect the nerve itself, but acts between the nerves and the muscle, through a "ligand substance" - this Vulpian's pioneering concept is often wrongly attributed to Claude Bernard. These prestigious scientists contributed to the transnational circulation of knowledge that later yielded in the preparation of curare purified extract used for convulsive therapy and anesthesia.

Title: Importance des études transnationales sur le curare dans le développement de la recherche en neurophysiologie au Brésil. Abstract: Le curare, un poison obtenu à partir de différentes espèces de plantes en Amérique du Sud, était utilisé sur les flèches par les autochtones. Son potentiel paralysant mortel et son mécanisme d'action ont commencé à être explorés par les chercheurs au XIXe siècle. Dans cet article, nous rappelons l'historique des recherches sur ce poison et les échanges entre l'empereur brésilien Dom Pedro II et les chercheurs João Baptista de Lacerda, Louis Couty et Alfred Vulpian qui ont beaucoup contribué au développement scientifique brésilien. Vulpian a découvert que le curare n'affecte pas le nerf lui-même, mais agit entre celui-ci et le muscle, par l'intermédiaire d'une « substance de liaison ¼ ­ ce concept développé par Vulpian est souvent attribué à tort à Claude Bernard. Les travaux pionniers de ces savants prestigieux ont ultérieurement abouti à la préparation d'extrait purifié de curare, d'intérêt thérapeutique majeur pour le traitement de convulsions et pour l'anesthésie.

Mechanism of Rhinella icterica (Spix, 1824) toad poisoning using in vitro neurobiological preparations.

The biological activity of Rhinella icterica toxic secretion (RITS) was evaluated on chick neuromuscular junctions, rat heart́s tissue and mice hippocampal slices. At chick biventer cervicis preparation, RITS (5, 10 and 20µg/mL) produced a concentration-independent irreversible neuromuscular blockade, which was preceded by a transitory increase of muscle twitch tension with the lowest concentration, in 120min recordings. In this set of experiments, RITS incubation partially prevented the curare neuromuscular blockade. The assessment of chick biventer cervicis muscle acetylcholinesterase (AChE) in the presence of RITS showed a significant inhibition of the enzyme, similarly to neostigmine. The incubation of muscles with digoxin or ouabain mimicked the poison activity by increasing the amplitude of the twitches followed by a progressive depression of the muscle strength. In addition, RITS demonstrated a digitalic-like activity, by inhibiting significantly the cardiac Na+, K+-ATPase. When the central nervous system was accessed, RITS induced an increase in the cell viability, in the lowest concentration. In addition, the poison protected slices subject to oxygen/glucose deprivation. Altogether, these data indicate that the poisonous extract of R. icterica is able to interfere with peripheral and central neurotransmission, probably due to a direct interaction with AChE, calcium channels and Na+, K+-ATPase. A further investigation upon the poison toxic components will unveil the components involved in such a pharmacological activity and the potential biotechnological application of this poison.

Motor control by precisely timed spike patterns.

A fundamental problem in neuroscience is understanding how sequences of action potentials ("spikes") encode information about sensory signals and motor outputs. Although traditional theories assume that this information is conveyed by the total number of spikes fired within a specified time interval (spike rate), recent studies have shown that additional information is carried by the millisecond-scale timing patterns of action potentials (spike timing). However, it is unknown whether or how subtle differences in spike timing drive differences in perception or behavior, leaving it unclear whether the information in spike timing actually plays a role in brain function. By examining the activity of individual motor units (the muscle fibers innervated by a single motor neuron) and manipulating patterns of activation of these neurons, we provide both correlative and causal evidence that the nervous system uses millisecond-scale variations in the timing of spikes within multispike patterns to control a vertebrate behavior-namely, respiration in the Bengalese finch, a songbird. These findings suggest that a fundamental assumption of current theories of motor coding requires revision.

Developmental nicotine exposure alters cholinergic control of respiratory frequency in neonatal rats.

Prenatal nicotine exposure with continued exposure through breast milk over the first week of life (developmental nicotine exposure, DNE) alters the development of brainstem circuits that control breathing. Here, we test the hypothesis that DNE alters the respiratory motor response to endogenous and exogenous acetylcholine (ACh) in neonatal rats. We used the brainstem-spinal cord preparation in the split-bath configuration, and applied drugs to the brainstem compartment while measuring the burst frequency and amplitude of the fourth cervical ventral nerve roots (C4VR), which contain the axons of phrenic motoneurons. We applied ACh alone; the nicotinic acetylcholine receptor (nAChR) antagonist curare, either alone or in the presence of ACh; and the muscarinic acetylcholine receptor (mAChR) antagonist atropine, either alone or in the presence of ACh. The main findings include: (1) atropine reduced frequency similarly in controls and DNE animals, while curare caused modest slowing in controls but no consistent change in DNE animals; (2) DNE greatly attenuated the increase in C4VR frequency mediated by exogenous ACh; (3) stimulation of nAChRs with ACh in the presence of atropine increased frequency markedly in controls, but not DNE animals; (4) stimulation of mAChRs with ACh in the presence of curare caused a modest increase in frequency, with no treatment group differences. DNE blunts the response of the respiratory central pattern generator to exogenous ACh, consistent with reduced availability of functionally competent nAChRs; DNE did not alter the muscarinic control of respiratory motor output. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 76: 1138-1149, 2016.

Re-Emergent Inhibition of Cochlear Inner Hair Cells in a Mouse Model of Hearing Loss.

Hearing loss among the elderly correlates with diminished social, mental, and physical health. Age-related cochlear cell death does occur, but growing anatomical evidence suggests that synaptic rearrangements on sensory hair cells also contribute to auditory functional decline. Here we present voltage-clamp recordings from inner hair cells of the C57BL/6J mouse model of age-related hearing loss, which reveal that cholinergic synaptic inputs re-emerge during aging. These efferents are functionally inhibitory, using the same ionic mechanisms as do efferent contacts present transiently before the developmental onset of hearing. The strength of efferent inhibition of inner hair cells increases with hearing threshold elevation. These data indicate that the aged cochlea regains features of the developing cochlea and that efferent inhibition of the primary receptors of the auditory system re-emerges with hearing impairment. SIGNIFICANCE STATEMENT: Synaptic changes in the auditory periphery are increasingly recognized as important factors in hearing loss. To date, anatomical work has described the loss of afferent contacts from cochlear hair cells. However, relatively little is known about the efferent innervation of the cochlea during hearing loss. We performed intracellular recordings from mouse inner hair cells across the lifespan and show that efferent innervation of inner hair cells arises in parallel with the loss of afferent contacts and elevated hearing threshold during aging. These efferent neurons inhibit inner hair cells, raising the possibility that they play a role in the progression of age-related hearing loss.

Evidence of Nicotine-Induced, Curare-Insensitive, Behavior in Planarians.

Planarians are rapidly developing into very useful research subjects in pharmacology and neuroscience research. Here we report that curare, a cholinergic nicotinic receptor antagonist, alleviates the nicotine-induced planarian seizure-like movements (pSLM) by up to 50 % at equimolar concentrations of nicotine and curare (1 mM), while curare alone does not induce significant pSLMs. The simplest interpretation of our data is that there are nicotine induced behaviors insensitive to curare in our experimental organism. To the best of our knowledge, this is the first report on curare-insensitive, nicotine-induced effects in any organism.

Conductance and block of hair-cell mechanotransducer channels in transmembrane channel-like protein mutants.

Transmembrane channel-like (TMC) proteins TMC1 and TMC2 are crucial to the function of the mechanotransducer (MT) channel of inner ear hair cells, but their precise function has been controversial. To provide more insight, we characterized single MT channels in cochlear hair cells from wild-type mice and mice with mutations in Tmc1, Tmc2, or both. Channels were recorded in whole-cell mode after tip link destruction with BAPTA or after attenuating the MT current with GsMTx-4, a peptide toxin we found to block the channels with high affinity. In both cases, the MT channels in outer hair cells (OHCs) of wild-type mice displayed a tonotopic gradient in conductance, with channels from the cochlear base having a conductance (110 pS) nearly twice that of those at the apex (62 pS). This gradient was absent, with channels at both cochlear locations having similar small conductances, with two different Tmc1 mutations. The conductance of MT channels in inner hair cells was invariant with cochlear location but, as in OHCs, was reduced in either Tmc1 mutant. The gradient of OHC conductance also disappeared in Tmc1/Tmc2 double mutants, in which a mechanically sensitive current could be activated by anomalous negative displacements of the hair bundle. This "reversed stimulus-polarity" current was seen with two different Tmc1/Tmc2 double mutants, and with Tmc1/Tmc2/Tmc3 triple mutants, and had a pharmacological sensitivity comparable to that of native MT currents for most antagonists, except dihydrostreptomycin, for which the affinity was less, and for curare, which exhibited incomplete block. The existence in the Tmc1/Tmc2 double mutants of MT channels with most properties resembling those of wild-type channels indicates that proteins other than TMCs must be part of the channel pore. We suggest that an external vestibule of the MT channel may partly account for the channel's large unitary conductance, high Ca(2+) permeability, and pharmacological profile, and that this vestibule is disrupted in Tmc mutants.

Curares y timbós, venenos del Amazonas / Curares and timbós, poisons used in the Amazon

Introducción. Los indígenas que habitaban los ríos Orinoco y Amazonas emplearon durante siglos diversos venenos de origen vegetal. Se revisan los aspectos históricos y etnográficos del uso de curares y timbós en la región amazónica. Desarrollo. El curare se prepara hirviendo las raíces, corteza y tallos de diversas plantas de las familias Loganiaceae (Strychnos) y Menispermaceae (Chondrodendron, Curarea y Abuta). Los curares de la Amazonía oriental proceden de diferentes especies de Strychnos que contienen alcaloides cuaternarios, que actúan como bloqueadores de la unión neuromuscular. Se emplean para cazar animales salvajes y la muerte se produce por parálisis de los músculos esqueléticos. Los primeros músculos que se paralizan son los oculares, cuello y nuca, y después los miembros; el diafragma es el músculo que más tarda en paralizarse. Las primeras crónicas que relataron su uso proceden de Fernández de Oviedo, Cristoval de Acuña, Antonio de Ulloa y José Gumilla. La Condamine, Humboldt, Waterton y Schomburgk, entre otros, llevaron a cabo diversos estudios etnobotánicos sobre el curare. Los venenos ictiotóxicos de origen vegetal, llamados timbós o barbascos, se caracterizan por una gran solubilidad, rápida difusión y elevada actividad. Al menos 70 especies vegetales se emplean para intoxicar los peces en los afluentes del Amazonas y facilitar su pesca. Sapindáceas, papilionáceas, euforbiáceas y teofrastáceas contienen sustancias ictiotóxicas, como rotenona o saponinas. Conclusión. Los relatos etnohistóricos y etnográficos muestran un gran conocimiento de las propiedades tóxicas de los curares y timbós por parte de las culturas amazónicas (AU)

Introduction. The natives that dwell along the banks of the Orinoco and Amazon rivers have used different poisons from plants for centuries. The study reviews the historical and ethnographic aspects of the use of curares and timbós in the Amazonian region. Development. Curare is prepared by boiling the roots, bark and stalks of different plants belonging to the Loganiaceae (Strychnos) and Menispermaceae families (Chondrodendron, Curarea and Abuta). The curares of the eastern Amazon are extracted from different species of Strychnos that contain quaternary alkaloids, which act by blocking the neuromuscular junction. They are used to hunt wild animals and death comes about due to paralysis of the skeletal muscles. The first muscles to be paralysed are those of the eyes, nose and neck, and then those in the limbs; the diaphragm is the muscle that takes the longest to become paralysed. The earliest chronicles reporting their use were written by Fernández de Oviedo, Cristoval de Acuña, Antonio de Ulloa and José Gumilla. La Condamine, Humbolt, Waterton and Schomburgk, among others, carried out a number of different ethnobotanical studies on curare. The ichthyotoxic poisons from plants, which are known as timbós or barbascos, are characterised by their high level of solubility, their fast diffusion and their high rate of activity. At least 70 plant species are used to poison the fish in the tributaries of the Amazon with the aim of make fishing easier. Sapindaceae, Papilionaceae, Euphorbiaceae and Theophrastaceae contain ichthyotoxic substances, such as rotenone or saponins. Conclusions. Ethnohistorical and ethnographic accounts show that the Amazonian cultures have a deep understanding of the toxic properties of curares and timbós (AU)

[Curares and timbós, poisons used in the Amazon]. / Curares y timbós, venenos del Amazonas.

INTRODUCTION: The natives that dwell along the banks of the Orinoco and Amazon rivers have used different poisons from plants for centuries. The study reviews the historical and ethnographic aspects of the use of curares and timbós in the Amazonian region. DEVELOPMENT: Curare is prepared by boiling the roots, bark and stalks of different plants belonging to the Loganiaceae (Strychnos) and Menispermaceae families (Chondrodendron, Curarea and Abuta). The curares of the eastern Amazon are extracted from different species of Strychnos that contain quaternary alkaloids, which act by blocking the neuromuscular junction. They are used to hunt wild animals and death comes about due to paralysis of the skeletal muscles. The first muscles to be paralysed are those of the eyes, nose and neck, and then those in the limbs; the diaphragm is the muscle that takes the longest to become paralysed. The earliest chronicles reporting their use were written by Fernandez de Oviedo, Cristoval de Acuna, Antonio de Ulloa and Jose Gumilla. La Condamine, Humbolt, Waterton and Schomburgk, among others, carried out a number of different ethnobotanical studies on curare. The ichthyotoxic poisons from plants, which are known as timbós or barbascos, are characterised by their high level of solubility, their fast diffusion and their high rate of activity. At least 70 plant species are used to poison the fish in the tributaries of the Amazon with the aim of make fishing easier. Sapindaceae, Papilionaceae, Euphorbiaceae and Theophrastaceae contain ichthyotoxic substances, such as rotenone or saponins. CONCLUSIONS: Ethnohistorical and ethnographic accounts show that the Amazonian cultures have a deep understanding of the toxic properties of curares and timbós.

Touch responsiveness in zebrafish requires voltage-gated calcium channel 2.1b.

The molecular and physiological basis of the touch-unresponsive zebrafish mutant fakir has remained elusive. Here we report that the fakir phenotype is caused by a missense mutation in the gene encoding voltage-gated calcium channel 2.1b (CACNA1Ab). Injection of RNA encoding wild-type CaV2.1 restores touch responsiveness in fakir mutants, whereas knockdown of CACNA1Ab via morpholino oligonucleotides recapitulates the fakir mutant phenotype. Fakir mutants display normal current-evoked synaptic communication at the neuromuscular junction but have attenuated touch-evoked activation of motor neurons. NMDA-evoked fictive swimming is not affected by the loss of CaV2.1b, suggesting that this channel is not required for motor pattern generation. These results, coupled with the expression of CACNA1Ab by sensory neurons, suggest that CaV2.1b channel activity is necessary for touch-evoked activation of the locomotor network in zebrafish.

Neuromuscular junction formation between human stem cell-derived motoneurons and human skeletal muscle in a defined system.

Functional in vitro models composed of human cells will constitute an important platform in the next generation of system biology and drug discovery. This study reports a novel human-based in vitro Neuromuscular Junction (NMJ) system developed in a defined serum-free medium and on a patternable non-biological surface. The motoneurons and skeletal muscles were derived from fetal spinal stem cells and skeletal muscle stem cells. The motoneurons and skeletal myotubes were completely differentiated in the co-culture based on morphological analysis and electrophysiology. NMJ formation was demonstrated by phase contrast microscopy, immunocytochemistry and the observation of motoneuron-induced muscle contractions utilizing time-lapse recordings and their subsequent quenching by d-Tubocurarine. Generally, functional human based systems would eliminate the issue of species variability during the drug development process and its derivation from stem cells bypasses the restrictions inherent with utilization of primary human tissue. This defined human-based NMJ system is one of the first steps in creating functional in vitro systems and will play an important role in understanding NMJ development, in developing high information content drug screens and as test beds in preclinical studies for spinal or muscular diseases/injuries such as muscular dystrophy, Amyotrophic lateral sclerosis and spinal cord repair.

Neural circuit activity in freely behaving zebrafish (Danio rerio).

Examining neuronal network activity in freely behaving animals is advantageous for probing the function of the vertebrate central nervous system. Here, we describe a simple, robust technique for monitoring the activity of neural circuits in unfettered, freely behaving zebrafish (Danio rerio). Zebrafish respond to unexpected tactile stimuli with short- or long-latency escape behaviors, which are mediated by distinct neural circuits. Using dipole electrodes immersed in the aquarium, we measured electric field potentials generated in muscle during short- and long-latency escapes. We found that activation of the underlying neural circuits produced unique field potential signatures that are easily recognized and can be repeatedly monitored. In conjunction with behavioral analysis, we used this technique to track changes in the pattern of circuit activation during the first week of development in animals whose trigeminal sensory neurons were unilaterally ablated. One day post-ablation, the frequency of short- and long-latency responses was significantly lower on the ablated side than on the intact side. Three days post-ablation, a significant fraction of escapes evoked by stimuli on the ablated side was improperly executed, with the animal turning towards rather than away from the stimulus. However, the overall response rate remained low. Seven days post-ablation, the frequency of escapes increased dramatically and the percentage of improperly executed escapes declined. Our results demonstrate that trigeminal ablation results in rapid reconfiguration of the escape circuitry, with reinnervation by new sensory neurons and adaptive changes in behavior. This technique is valuable for probing the activity, development, plasticity and regeneration of neural circuits under natural conditions.

[Claude Bernard and his successors on curare: epistemological questions at stake]. / Claude Bernard et ses suiveurs sur la question du curare : enjeux épistémologiques.

Long lasting polemics about the mechanisms of the action of curare took place at the Société de Biologie over thirty years. After a period during which poisoning protocols were developed on various animal species, where Claude Bernard, Vulpian and their colleagues were involved, German electrophysiology combined its results with new histological data about motor end-plates, elaborating a theory in which young physiologists fought against Claude Bernard's views and finally managed to convince him. According to the new theory proposed by Vulpian, curare blocked transmission between end-plate and muscle. This first draft of the neurotransmission theory helps us to understand the rise of a novel physiology in the context of the school of Claude Bernard with a better integration of disciplines and a more prominent faith in reductionism and materialism.

Electrophysiological studies in a mouse model of Schwartz-Jampel syndrome demonstrate muscle fiber hyperactivity of peripheral nerve origin.

Schwartz-Jampel syndrome (SJS) is an autosomal-recessive condition characterized by muscle stiffness and chondrodysplasia. It is due to loss-of-function hypomorphic mutations in the HSPG2 gene that encodes for perlecan, a proteoglycan secreted into the basement membrane. The origin of muscle stiffness in SJS is debated. To resolve this issue, we performed an electrophysiological investigation of an SJS mouse model with a missense mutation in the HSPG2 gene. Compound muscle action potential amplitudes, distal motor latencies, repetitive nerve stimulation tests, and sensory nerve conduction velocities of SJS mice were normal. On electromyography (EMG), neuromyotonic discharges, that is, bursts of motor unit action potentials firing at high rates (120-300 HZ), were constantly observed in SJS mice in all muscles, except in the diaphragm. Neuromyotonic discharges were not influenced by general anesthesia and disappeared with curare administration. They persisted after complete motor nerve section, terminating only with Wallerian degeneration. These results demonstrate that perlecan deficiency in SJS provokes a neuromyotonic syndrome. The findings further suggest a distal axonal localization of the generator of neuromyotonic discharges. SJS should now be considered as an inherited disorder with peripheral nerve hyperexcitability.

The rescue of developing avian motoneurons from programmed cell death by a selective inhibitor of the fetal muscle-specific nicotinic acetylcholine receptor.

In an attempt to determine whether the rescue of developing motoneurons (MNS) from programmed cell death (PCD) in the chick embryo following reductions in neuromuscular function involves muscle or neuronal nicotinic acetylcholine receptors (nAChRs), we have employed a novel cone snail toxin alphaA-OIVA that acts selectively to antagonize the embryonic/fetal form of muscle nAChRs. The results demonstrate that alphaA-OIVA is nearly as effective as curare or alpha-bungarotoxin (alpha-BTX) in reducing neuromuscular function and is equally effective in increasing MN survival and intramuscular axon branching. Together with previous reports, we also provide evidence consistent with a transition between the embryonic/fetal form to the adult form of muscle nAChRs in chicken that involves the loss of the gamma subunit in the adult receptor. We conclude that selective inhibition of the embryonic/fetal form of the chicken muscle nAChR is sufficient to rescue MNs from PCD without any involvement of neuronal nAChRs.

Neurotization improves contractile forces of tissue-engineered skeletal muscle.

Engineered functional skeletal muscle would be beneficial in reconstructive surgery. Our previous work successfully generated 3-dimensional vascularized skeletal muscle in vivo. Because neural signals direct muscle maturation, we hypothesized that neurotization of these constructs would increase their contractile force. Additionally, should neuromuscular junctions (NMJs) develop, indirect stimulation (via the nerve) would be possible, allowing for directed control. Rat myoblasts were cultured, suspended in fibrin gel, and implanted within silicone chambers around the femoral vessels and transected femoral nerve of syngeneic rats for 4 weeks. Neurotized constructs generated contractile forces 5 times as high as the non-neurotized controls. Indirect stimulation via the nerve elicited contractions of neurotized constructs. Curare administration ceased contraction in these constructs, providing physiologic evidence of NMJ formation. Histology demonstrated intact muscle fibers, and immunostaining positively identified NMJs. These results indicate that neurotization of engineered skeletal muscle significantly increases force generation and causes NMJs to develop, allowing indirect muscle stimulation.

A role for acetylcholine receptors in their own aggregation on muscle cells.

Both neurotrophic factors and activity regulate synaptogenesis. At neuromuscular synapses, the neural factor agrin released from motor neuron terminals stimulates postsynaptic specialization by way of the muscle specific kinase MuSK. In addition, activity through acetylcholine receptors (AChRs) has been implicated in the stabilization of pre- and postsynaptic contacts on muscle at various stages of development. We show here that activation of AChRs with specific concentrations of nicotine is sufficient to induce AChR aggregation and that this induction requires the function of L-type calcium channels (L-CaChs). Furthermore, AChR function is required for agrin induced AChR aggregation in C2 muscle cells. The same concentrations of nicotine did not induce observable tyrosine phosphorylation on either MuSK or the AChR beta subunit, suggesting significant differences between the mechanisms of agrin and activity induced aggregation. The AChR/L-CaCh pathway provides a mechanism by which neuromuscular signal transmission can act in concert with the agrin-MuSK signaling cascade to regulate NMJ formation.