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1.
Cell ; 175(1): 57-70.e17, 2018 09 20.
Artículo en Inglés | MEDLINE | ID: mdl-30220455

RESUMEN

Neurons in Caenorhabditis elegans and other nematodes have been thought to lack classical action potentials. Unexpectedly, we observe membrane potential spikes with defining characteristics of action potentials in C. elegans AWA olfactory neurons recorded under current-clamp conditions. Ion substitution experiments, mutant analysis, pharmacology, and modeling indicate that AWA fires calcium spikes, which are initiated by EGL-19 voltage-gated CaV1 calcium channels and terminated by SHK-1 Shaker-type potassium channels. AWA action potentials result in characteristic signals in calcium imaging experiments. These calcium signals are also observed when intact animals are exposed to odors, suggesting that natural odor stimuli induce AWA spiking. The stimuli that elicit action potentials match AWA's specialized function in climbing odor gradients. Our results provide evidence that C. elegans neurons can encode information through regenerative all-or-none action potentials, expand the computational repertoire of its nervous system, and inform future modeling of its neural coding and network dynamics.


Asunto(s)
Potenciales de Acción/fisiología , Nervio Olfatorio/fisiología , Olfato/fisiología , Animales , Caenorhabditis elegans/fisiología , Proteínas de Caenorhabditis elegans/metabolismo , Calcio/metabolismo , Canales de Calcio/fisiología , Quimiotaxis/fisiología , Potenciales de la Membrana/fisiología , Odorantes , Neuronas Receptoras Olfatorias/metabolismo
2.
Nature ; 562(7725): 119-123, 2018 10.
Artículo en Inglés | MEDLINE | ID: mdl-30258230

RESUMEN

DEET (N,N-diethyl-meta-toluamide) is a synthetic chemical identified by the US Department of Agriculture in 1946 in a screen for repellents to protect soldiers from mosquito-borne diseases1,2. Since its discovery, DEET has become the world's most widely used arthropod repellent and is effective against invertebrates separated by millions of years of evolution-including biting flies3, honeybees4, ticks5, and land leeches3. In insects, DEET acts on the olfactory system5-12 and requires the olfactory receptor co-receptor Orco7,9-12, but exactly how it works remains controversial13. Here we show that the nematode Caenorhabditis elegans is sensitive to DEET and use this genetically tractable animal to study the mechanism of action of this chemical. We found that DEET is not a volatile repellent, but instead interferes selectively with chemotaxis to a variety of attractant and repellent molecules. In a forward genetic screen for DEET-resistant worms, we identified a gene that encodes a single G protein-coupled receptor, str-217, which is expressed in a single pair of chemosensory neurons that are responsive to DEET, called ADL neurons. Mis-expression of str-217 in another chemosensory neuron conferred responses to DEET. Engineered str-217 mutants, and a wild isolate of C. elegans that carries a str-217 deletion, are resistant to DEET. We found that DEET can interfere with behaviour by inducing an increase in average pause length during locomotion, and show that this increase in pausing requires both str-217 and ADL neurons. Finally, we demonstrated that ADL neurons are activated by DEET and that optogenetic activation of ADL neurons increased average pause length. This is consistent with the 'confusant' hypothesis, which proposes that DEET is not a simple repellent but that it instead modulates multiple olfactory pathways to scramble behavioural responses10,11. Our results suggest a consistent motif in the effectiveness of DEET across widely divergent taxa: an effect on multiple chemosensory neurons that disrupts the pairing between odorant stimulus and behavioural response.


Asunto(s)
Caenorhabditis elegans/efectos de los fármacos , DEET/farmacología , Resistencia a Medicamentos/efectos de los fármacos , Resistencia a Medicamentos/genética , Mutación , Receptores Acoplados a Proteínas G/genética , Receptores Acoplados a Proteínas G/metabolismo , Animales , Caenorhabditis elegans/citología , Caenorhabditis elegans/genética , Caenorhabditis elegans/fisiología , Quimiotaxis/efectos de los fármacos , Mutagénesis , Neuronas/efectos de los fármacos
3.
Nature ; 539(7628): 254-258, 2016 11 10.
Artículo en Inglés | MEDLINE | ID: mdl-27799655

RESUMEN

The optimal foraging strategy in a given environment depends on the number of competing individuals and their behavioural strategies. Little is known about the genes and neural circuits that integrate social information into foraging decisions. Here we show that ascaroside pheromones, small glycolipids that signal population density, suppress exploratory foraging in Caenorhabditis elegans, and that heritable variation in this behaviour generates alternative foraging strategies. We find that natural C. elegans isolates differ in their sensitivity to the potent ascaroside icas#9 (IC-asc-C5). A quantitative trait locus (QTL) regulating icas#9 sensitivity includes srx-43, a G-protein-coupled icas#9 receptor that acts in the ASI class of sensory neurons to suppress exploration. Two ancient haplotypes associated with this QTL confer competitive growth advantages that depend on ascaroside secretion, its detection by srx-43 and the distribution of food. These results suggest that balancing selection at the srx-43 locus generates alternative density-dependent behaviours, fulfilling a prediction of foraging game theory.


Asunto(s)
Caenorhabditis elegans/genética , Caenorhabditis elegans/fisiología , Conducta Alimentaria , Selección Genética , Animales , Caenorhabditis elegans/efectos de los fármacos , Caenorhabditis elegans/aislamiento & purificación , Proteínas de Caenorhabditis elegans/metabolismo , Conducta Alimentaria/efectos de los fármacos , Alimentos , Teoría del Juego , Haplotipos , Hexosas/metabolismo , Hexosas/farmacología , Indoles/farmacología , Masculino , Feromonas/metabolismo , Feromonas/farmacología , Densidad de Población , Sitios de Carácter Cuantitativo , Receptores Acoplados a Proteínas G/metabolismo , Células Receptoras Sensoriales/metabolismo , Conducta Social
4.
Elife ; 82019 11 13.
Artículo en Inglés | MEDLINE | ID: mdl-31718773

RESUMEN

The central nervous system transforms sensory information into representations that are salient to the animal. Here we define the logic of this transformation in a Caenorhabditis elegans integrating interneuron. AIA interneurons receive input from multiple chemosensory neurons that detect attractive odors. We show that reliable AIA responses require the coincidence of two sensory inputs: activation of AWA olfactory neurons that are activated by attractive odors, and inhibition of one or more chemosensory neurons that are inhibited by attractive odors. AWA activates AIA through an electrical synapse, while the disinhibitory pathway acts through glutamatergic chemical synapses. AIA interneurons have bistable electrophysiological properties consistent with their calcium dynamics, suggesting that AIA activation is a stereotyped response to an integrated stimulus. Our results indicate that AIA interneurons combine sensory information using AND-gate logic, requiring coordinated activity from multiple chemosensory neurons. We propose that AIA encodes positive valence based on an integrated sensory state.


Asunto(s)
Caenorhabditis elegans/fisiología , Interneuronas/fisiología , Sensación/fisiología , Animales , Calcio/metabolismo , Diacetil/metabolismo , Uniones Comunicantes/metabolismo , Glutamatos/metabolismo , Optogenética , Pentanoles/metabolismo , Células Receptoras Sensoriales/fisiología , Sinapsis/fisiología
5.
Elife ; 52016 11 28.
Artículo en Inglés | MEDLINE | ID: mdl-27893361

RESUMEN

Natural isolates of C. elegans differ in their sensitivity to pheromones that inhibit exploratory behavior. Previous studies identified a QTL for pheromone sensitivity that includes alternative alleles of srx-43, a chemoreceptor that inhibits exploration through its activity in ASI sensory neurons. Here we show that the QTL is multigenic and includes alternative alleles of srx-44, a second chemoreceptor gene that modifies pheromone sensitivity. srx-44 either promotes or inhibits exploration depending on its expression in the ASJ or ADL sensory neurons, respectively. Naturally occurring pheromone insensitivity results in part from previously described changes in srx-43 expression levels, and in part from increased srx-44 expression in ASJ, which antagonizes ASI and ADL. Antagonism between the sensory neurons results in cellular epistasis that is reflected in their transcription of insulin genes that regulate exploration. These results and genome-wide evidence suggest that chemoreceptor genes may be preferred sites of adaptive variation in C. elegans.


Asunto(s)
Conducta Animal , Proteínas de Caenorhabditis elegans/metabolismo , Caenorhabditis elegans/genética , Caenorhabditis elegans/fisiología , Regulación de la Expresión Génica , Sitios de Carácter Cuantitativo , Receptores de Superficie Celular/metabolismo , Receptores Acoplados a Proteínas G/metabolismo , Animales , Proteínas de Caenorhabditis elegans/genética , Movimiento (Física) , Feromonas/metabolismo , Receptores de Superficie Celular/genética , Receptores Acoplados a Proteínas G/genética
6.
Psychopharmacology (Berl) ; 225(4): 853-68, 2013 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-23052567

RESUMEN

RATIONALE: Systemic amphetamine (AMPH) administration increases the rate of 50-kHz ultrasonic vocalizations (USVs) in adult rats and preferentially enhances the 'trill' subtype; these effects of AMPH critically depend on noradrenergic transmission, but the possible contributions of dopamine are unclear. OBJECTIVE: To assess the role of dopamine in 50-kHz USVs emitted drug-free and following systemic AMPH administration. METHODS: Adult male Long-Evans rats pre-selected for high AMPH-induced calling rates were tested with AMPH (1 mg/kg, intraperitoneal (IP)) and saline following pretreatment with the following dopamine receptor antagonists: SCH 23390 (0.005-0.02 mg/kg, subcutaneous (SC)), SCH 39166 (0.03-0.3 mg/kg, SC), haloperidol (0.1, 0.2 mg/kg, IP), sulpiride (20-80 mg/kg, SC), raclopride (0.1-0.5 mg/kg, SC), clozapine (4 mg/kg, SC), risperidone (0.5 mg/kg, SC), and pimozide (1 mg/kg, IP). The dopamine and noradrenaline reuptake inhibitors (GBR 12909 and nisoxetine, respectively) were also tested, alone and in combination. RESULTS: SCH 23390, SCH 39166, haloperidol, and raclopride dose-dependently inhibited vocalizations under AMPH and suppressed the proportion of trill calls. Sulpiride, however, had no discernable effect on call rate or profile, even at a high dose that reduced locomotor activity. Single doses of clozapine, risperidone, and pimozide all markedly decreased calling under saline and AMPH. Finally, GBR 12909 and nisoxetine failed to promote 50-kHz USVs detectably or alter the subtype profile, when tested alone or in combination. CONCLUSIONS: The rate of 50-kHz USVs and the call subtype profile following systemic AMPH administration depends on dopaminergic neurotransmission through D1-like and D2-like receptors. However, inhibiting dopamine and/or noradrenaline reuptake appears insufficient to induce calling.


Asunto(s)
Anfetamina/farmacología , Dopamina/fisiología , Receptores de Dopamina D1/fisiología , Receptores de Dopamina D2/fisiología , Transmisión Sináptica/fisiología , Vocalización Animal/fisiología , Animales , Antagonistas de Dopamina/farmacología , Antagonistas de los Receptores de Dopamina D2 , Relación Dosis-Respuesta a Droga , Masculino , Ratas , Ratas Long-Evans , Receptores de Dopamina D1/antagonistas & inhibidores , Transmisión Sináptica/efectos de los fármacos , Ultrasonido , Vocalización Animal/efectos de los fármacos
7.
Neuropsychopharmacology ; 37(3): 808-21, 2012 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-22030713

RESUMEN

Amphetamine (AMPH) increases adult rat 50-kHz ultrasonic vocalizations, preferentially promoting frequency-modulated (FM) calls that have been proposed to reflect positive affect. The main objective of this study was to investigate a possible noradrenergic contribution to AMPH-induced calling. Adult male Long-Evans rats were tested with AMPH (1 mg/kg intraperitoneal) or saline combined with various systemic pretreatments: clonidine (α2 adrenergic agonist), prazosin (α1 antagonist), atipamezole (α2 antagonist), propranolol, betaxolol, and/or ICI 118,551 (ß1/ß2, ß1, and ß2 antagonists, respectively), nadolol (ß1/ß2 antagonist, peripheral only), or NAD-299 (5HT(1A) antagonist). In addition, effects of cirazoline (α1 adrenergic agonist) and cocaine (0.25-1.5 mg/kg intravenous) were studied alone. AMPH-induced calling was suppressed by low-dose clonidine and prazosin. Cirazoline and atipamezole did not significantly affect calling rate. Propranolol, without affecting the call rate, dose dependently promoted 'flat' calls under AMPH while suppressing 'trills,' thus reversing the effects of AMPH on the 'call subtype profile.' This effect of propranolol seemed to be mediated by simultaneous inhibition of CNS ß1 and ß2 rather than by 5HT(1A) receptors. Finally, cocaine elicited fewer calls than did AMPH, but produced the same shift in the call subtype profile. Taken together, these results reveal differential drug effects on flat vs trill vs other FM 50-kHz calls. These findings highlight the value of detailed call subtype analyses, and show that 50-kHz calls are associated with adrenergic α1- and ß-receptor mechanisms. These preclinical findings suggest that noradrenergic contributions to psychostimulant subjective effects may warrant further investigation.


Asunto(s)
Anfetamina/farmacología , Estimulantes del Sistema Nervioso Central/farmacología , Receptores Adrenérgicos alfa/metabolismo , Receptores Adrenérgicos beta/metabolismo , Vocalización Animal/efectos de los fármacos , Agonistas Adrenérgicos/farmacología , Antagonistas Adrenérgicos/farmacología , Animales , Masculino , Ratas , Ratas Long-Evans , Vocalización Animal/fisiología
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