Elements of the Brain Network Regulating Social Behavior and Vocal Communication in Nf1+/- Mice: Relevance to Developmental Language Disorders and Autism Spectrum Disorders

Karathanasis, Sotirios Ferris

11 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Communication is a vital tool used by humans to share information, coordinate behavior, and survive. However, the ability to communicate can become disrupted or remain absent in individuals with neurodevelopmental disorders: two prominent examples include autism spectrum disorders and developmental language disorders, found in nearly 2% and 10% of the population, respectively. Communication disorders are devastating to the autonomy and quality of life of affected individuals, but clinical solutions are limited due to the complex and often unknown neural etiology underlying these conditions. One known disorder with high incidence of disrupted communication is Neurofibromatosis type 1, the genetic disease caused by heterozygosity of the Ras GTPase-activating protein-coding gene NF1. Mice heterozygous for their ortholog of this gene (Nf1+/-) have been shown to recapitulate neuropsychiatric conditions seen in patients. Using a courtship trial paradigm as a model for testing communication, I have demonstrated that Nf1+/- male mice showed deficits in both courtship and non-courtship social behavior as well as a decrease in the number and duration of ultrasonic vocalizations (USVs). Immediate early gene (IEG) immunohistochemistry (IHC) in neurons of courtship-relevant brain regions revealed the Shell of the Nucleus Accumbens (NAcS) as a dysfunctional brain region in Nf1+/- mice compared to WT male mice following courtship trial. Optogenetic targeting of the Nucleus Accumbens (NAc) restored courtship social behaviors and USV number, but not USV duration or non-courtship gestural social behaviors, in Nf1+/- males. This study contributes to a preclinical foundation for understanding etiology of communication disorders in patients.

Animal Communication

Mouse Courtship

Neurofibromatosis

Nucleus Accumbens

RASopathies

Ultrasonic Vocalization

Refinamento das técnicas de anestesia injetável visando garantir o bem-estar de ratos de laboratório em procedimentos experimentais / Refinement of techniques of injectable anesthesia to ensure the wellbeing of laboratory rats in experimental procedures

Laporte, Jilma Maria Aleman

24 May 2017

Assegurar o bem-estar dos animais de laboratório e evitar a dor e o sofrimento desnecessários são as principais considerações na experimentação. Por isso, a investigação em busca de novos protocolos anestésicos que garantam um mínimo ou nulo desconforto dos animais tem-se convertido num tema prioritário. Neste estudo realizou-se a comparação do efeito da combinação de xilazina (X) e ketamina (K) com acepromazina (A) e opióides [metadona (Me), morfina (Mo) e tramadol (T)] com a finalidade de avaliar sua influência nos parâmetros fisiológicos de ratos de laboratório, para ambos os sexos, bem como seu poder analgésico e o efeito da oxigenação sobre os mesmos. A associação XKA para ratos machos e fêmeas e a associação XKMe para fêmeas foram as mais seguras e eficazes para procedimentos anestésicos. Porém, os resultados do teste de formalina com a medição da vocalização ultrassônica (VUS) sugerem que o protocolo de XKA tem um poder analgésico baixo, não sendo indicado para procedimentos que possam gerar dor moderada ou severa. Todas as associações anestésicas tiveram efeitos importantes como diurese, manutenção dos olhos abertos e hiperglicemia, os quais devem ser considerados quando possam influenciar nos resultados experimentais. Também, se conseguiu demonstrar que a oxigenação melhora a saturação de oxigênio (SO2) e os valores da pressão parcial de oxigênio (pO2) confirmando que sua utilização deveria ser sempre parte dos procedimentos experimentais com anestesia injetável para evitar a hipoxemia. Não obstante, observou-se uma acidose respiratória por aumento da pressão parcial do CO2 (pCO2) e diminuição do pH, cuja causa se relacionou à hipoventilação por depressão respiratória e acúmulo de CO2 durante o transcorrer da anestesia. Tal situação demonstra a necessidade de oxigenar os animais desde a indução da anestesia e de administrar medicamentos para reverter a depressão respiratória como a naloxona, bem como utilizar animais que não apresentem nenhum tipo de comprometimento respiratório. Portanto, a inclusão de analgesia e a oxigenação nos protocolos anestésicos injetáveis devem ser utilizadas de forma rotineira garantindo a mínima presença de dor e, com isso, resultados mais confiáveis nos procedimentos experimentais. / Ensuring the wellbeing of laboratory animals and avoiding unnecessary pain and suffering is one of the main considerations in experimentation. Therefore, the investigation of new anesthetic protocols that guarantee a minimum or null discomfort of the animals has become a priority theme. In this study, it was made an evaluation of the effect of the combination of xylazine (X) and ketamine (K) with acepromazina (A) and opioids [methadone (Me), morphine (Mo) e tramadol (T)] with the purpose of comparing their influence on the physiological parameters of laboratory rats, for both sexes, and evaluating their analgesic power and the effect of the oxygenation on them. The XKA protocol for male and females rats and the XKMe protocol for females were the safest and most effective for anesthetic procedures. However, the results of the formalin test with the measurement of the ultrasonic vocalization (VUS) suggest that the XKA protocol had a low analgesic power, and it is not indicated for procedures that can generate moderate or severe pain. All anesthetic protocols had important effects as diuresis, maintenance of open eyes, and hyperglycemia; these effects should be considered when they could influence in the experimental results. It was demonstrated that oxygenation improves oxygen saturation (SO2) and oxygen partial pressure (pO2) confirming that its use should be considered in the experimental procedures with injectable anesthesia to avoid hypoxemia. Nevertheless, a respiratory acidosis was observed due to the increase in partial pressure of CO2 (pCO2) and the decrease in pH, that could be caused for the hypoventilation due to respiratory depression and CO2 accumulation during the course of anesthesia. This leads to consider the need to pre-oxygenate animals from induction, to use drugs to reverse respiratory depression such as naloxone, and to work with animals that are not respiratory compromised. Therefore the inclusion of analgesia and oxygenation in anesthesia protocols should begin to be used routinely ensuring minimal presence of pain and thus more reliable results in the experimental procedures.

Analgesia

Analgesic

Anesthesia

Laboratory rats

Opióides

Oxigenação

Oxygenation

Protocolos anestésicos

Ultrasonic vocalization

Vocalização ultrassônica

Refinamento das técnicas de anestesia injetável visando garantir o bem-estar de ratos de laboratório em procedimentos experimentais / Refinement of techniques of injectable anesthesia to ensure the wellbeing of laboratory rats in experimental procedures

Jilma Maria Aleman Laporte

24 May 2017

Assegurar o bem-estar dos animais de laboratório e evitar a dor e o sofrimento desnecessários são as principais considerações na experimentação. Por isso, a investigação em busca de novos protocolos anestésicos que garantam um mínimo ou nulo desconforto dos animais tem-se convertido num tema prioritário. Neste estudo realizou-se a comparação do efeito da combinação de xilazina (X) e ketamina (K) com acepromazina (A) e opióides [metadona (Me), morfina (Mo) e tramadol (T)] com a finalidade de avaliar sua influência nos parâmetros fisiológicos de ratos de laboratório, para ambos os sexos, bem como seu poder analgésico e o efeito da oxigenação sobre os mesmos. A associação XKA para ratos machos e fêmeas e a associação XKMe para fêmeas foram as mais seguras e eficazes para procedimentos anestésicos. Porém, os resultados do teste de formalina com a medição da vocalização ultrassônica (VUS) sugerem que o protocolo de XKA tem um poder analgésico baixo, não sendo indicado para procedimentos que possam gerar dor moderada ou severa. Todas as associações anestésicas tiveram efeitos importantes como diurese, manutenção dos olhos abertos e hiperglicemia, os quais devem ser considerados quando possam influenciar nos resultados experimentais. Também, se conseguiu demonstrar que a oxigenação melhora a saturação de oxigênio (SO2) e os valores da pressão parcial de oxigênio (pO2) confirmando que sua utilização deveria ser sempre parte dos procedimentos experimentais com anestesia injetável para evitar a hipoxemia. Não obstante, observou-se uma acidose respiratória por aumento da pressão parcial do CO2 (pCO2) e diminuição do pH, cuja causa se relacionou à hipoventilação por depressão respiratória e acúmulo de CO2 durante o transcorrer da anestesia. Tal situação demonstra a necessidade de oxigenar os animais desde a indução da anestesia e de administrar medicamentos para reverter a depressão respiratória como a naloxona, bem como utilizar animais que não apresentem nenhum tipo de comprometimento respiratório. Portanto, a inclusão de analgesia e a oxigenação nos protocolos anestésicos injetáveis devem ser utilizadas de forma rotineira garantindo a mínima presença de dor e, com isso, resultados mais confiáveis nos procedimentos experimentais. / Ensuring the wellbeing of laboratory animals and avoiding unnecessary pain and suffering is one of the main considerations in experimentation. Therefore, the investigation of new anesthetic protocols that guarantee a minimum or null discomfort of the animals has become a priority theme. In this study, it was made an evaluation of the effect of the combination of xylazine (X) and ketamine (K) with acepromazina (A) and opioids [methadone (Me), morphine (Mo) e tramadol (T)] with the purpose of comparing their influence on the physiological parameters of laboratory rats, for both sexes, and evaluating their analgesic power and the effect of the oxygenation on them. The XKA protocol for male and females rats and the XKMe protocol for females were the safest and most effective for anesthetic procedures. However, the results of the formalin test with the measurement of the ultrasonic vocalization (VUS) suggest that the XKA protocol had a low analgesic power, and it is not indicated for procedures that can generate moderate or severe pain. All anesthetic protocols had important effects as diuresis, maintenance of open eyes, and hyperglycemia; these effects should be considered when they could influence in the experimental results. It was demonstrated that oxygenation improves oxygen saturation (SO2) and oxygen partial pressure (pO2) confirming that its use should be considered in the experimental procedures with injectable anesthesia to avoid hypoxemia. Nevertheless, a respiratory acidosis was observed due to the increase in partial pressure of CO2 (pCO2) and the decrease in pH, that could be caused for the hypoventilation due to respiratory depression and CO2 accumulation during the course of anesthesia. This leads to consider the need to pre-oxygenate animals from induction, to use drugs to reverse respiratory depression such as naloxone, and to work with animals that are not respiratory compromised. Therefore the inclusion of analgesia and oxygenation in anesthesia protocols should begin to be used routinely ensuring minimal presence of pain and thus more reliable results in the experimental procedures.

Analgesia

Opióides

Oxigenação

Protocolos anestésicos

Vocalização ultrassônica

Analgesic

Anesthesia

Laboratory rats

Oxygenation

Ultrasonic vocalization

Of Mice, Birds, and Men: The Mouse Ultrasonic Song System and Vocal Behavior

Arriaga, Gustavo

January 2011

<p>Mice produce many ultrasonic vocalizations (USVs) in the 30 - 100 kHz range including pup isolation calls and adult male songs. These USVs are often used as behavioral readouts of internal states, to measure effects of social and pharmacological manipulations, and for behavioral phenotyping of mouse models for neuropsychiatric and neurodegenerative disorders; however, little is known about the biophysical and neurophysiological mechanisms of USV production in rodents. This lack of knowledge restricts the interpretation of data from vocalization-related experiments on mouse models of communication disorders and vocal medical conditions. Meanwhile, there has been increased interest in the social communication aspect of neural disorders such as autism, in addition to the common disorders involving motor control of the larynx: stroke, Parkinson's disease, laryngeal tremor, and spasmodic dysphonia. Therefore, it is timely and critical to begin assessing the neural substrate of vocal production in order to better understand the neuro-laryngeal deficits underlying communication problems.</p><p>Additionally, mouse models may generate new insight into the molecular basis of vocal learning. Traditionally, songbirds have been used as a model for speech learning in humans; however, the model is strongly limited by a lack of techniques for manipulating avian genetics. Accordingly, there has long been strong interest in finding a mammalian model for vocal learning studies. The characteristic features of accepted vocal learning species include programming of phonation by forebrain motor areas, a direct cortical projection to brainstem vocal motoneurons, and dependence on auditory feedback to develop and maintain vocalizations. Unfortunately, these features have not been observed in non-human primates or in birds that do not learn songs. Thus, in addition to elucidating vocal brain pathways it is also critical to determine the extent of any vocal learning capabilities present in the mouse USV system.</p><p>It is generally assumed that mice lack a forebrain system for vocal modification and that their USVs are innate; however, these basic assumptions have not been experimentally tested. I investigated the mouse song system to determine if male mouse song behavior and the supporting brain circuits resemble those of known vocal learning species. By visualizing activity-dependent immediate early gene expression as a marker of global activity patterns, I discovered that the song system includes motor cortex and striatal regions active during singing. Retrograde and anterograde tracing with pseudorabies virus and biodextran amines, respectively, revealed that the motor cortical region projects directly to the brainstem phonatory motor nucleus ambiguus. Chemical lesions in this region showed that it is not critical for producing innate templates of song syllables, but is required for producing more stereotyped acoustic features of syllables. To test for the basic components of adaptive learning I recorded the songs of mechanically and genetically deaf mice and found that male mice depend on auditory feedback to develop and maintain normal ultrasonic songs. Moreover, male mice that display natural strain specific song features may use auditory experience to copy the pitch of another strain when housed together and stimulated to compete sexually. I conclude that male mice have neuroanatomical and behavioral features thought to be unique to humans and song learning birds, suggesting that mice are capable of adaptive modification of the spectral features of their songs.</p> / Dissertation

Neurosciences

Biology

Auditory Feedback

Motor Cortex

Mouse

Ultrasonic Vocalization

Vocal Communication

Vocal Learning

The Effect of Time of Expsoure to Polychlorinated Biphenyl (PCB) on Thyroid Status and Ultrasonic Vocalizations in Sprague Dawley Rats

King, Samantha L.

29 July 2013

No description available.

Endocrinology

Environmental Health

Nutrition

Public Health

polychlorinated biphenyl

usv

ultrasonic vocalization

thyroid hormone

pcb

thyroxine, triiodothyronine

Early Environment and Adolescent Ethanol Consumption : Effects on Endogenous Opioids and Behaviour in Rats

Daoura, Loudin

January 2013

Excessive and compulsive ethanol drinking is one of the most serious public health issues. Therefore, it is vital to increase the knowledge about risks and protection for alcohol use disorders (AUD) to optimize prevention and treatment strategies. Ethanol consumption commonly initiates during adolescence when extensive neuronal maturation and development also occurs. Early exposure to ethanol is a risk factor for AUD, but the effects of adolescent drinking and the basis for the individual susceptibility to AUD are not fully understood. The interactions between genotype and environmental factors determine the individual risk for AUD and this thesis aimed to examine the environmental impact. The specific aims were to investigate 1) how early-life conditions affect adolescent voluntary ethanol drinking, behavioural profiles, endogenous opioids and response to treatment with an opioid antagonist (naltrexone), and 2) whether alterations detected in the offspring may be mediated by variations in maternal behaviour. A rodent maternal separation (MS) model was used to mimic a protective and risk-inducing early-life environment, respectively, with the use of 15 min (MS15) or 360 min (MS360) of daily MS. The main findings were 1) the MS360, but not the MS15 rats, responded to naltrexone following adolescent ethanol drinking; all adolescent rats had a high voluntary ethanol intake independent of early environmental conditions whereas in the adult groups the MS360, but not the MS15 rats, increased their ethanol intake and preference over time; adolescent ethanol exposure resulted in higher dynorphin levels in hippocampus and higher Met-enkephalin-Arg6Phe7 in the amygdala, independently of rearing conditions, 2) behavioural profiling using the multivariate concentric square field™ test showed: the young MS360 rats had increased risk assessment and risk taking behaviour compared to the young MS15 rats; the young MS15 rats increased, whereas the young MS360 rats decreased, their risk assessment and risk taking behaviour over time; differences in pup-retrieval strategies where the MS360 dams retrieved some pups into a safe area but as compared to MS15 rats they left more pups in a risk area; increased risk assessment behaviour in the MS360 dams immediately after weaning. Taken together, early-life environmental conditions alter adult but not adolescent drinking, the response to naltrexone, and behaviour in dams and offspring. Adolescent rats consumed more ethanol independent of rearing conditions and displayed increased opioid levels in brain areas related to cognition and addiction.

Alcohol

intermittent ethanol access

maternal separation

maternal behavior

ultrasonic vocalization

adolescent

neonatal handling

Avaliação da exposição prévia a estímulos estressores aversivos inatos e aprendidos sobre o comportamento agressivo de camundongos (Mus musculus albinus): influência de mecanismos GABAérgicos e dopaminérgicos / A behavioral and pharmacological evaluation of aggressive behavior in mice previously exposed to fear or anxiety-like stimuli

Cunha Neto, João Soares da

02 March 2018

Os animais são expostos a diferentes situações que podem colocar em risco sua sobrevivência. Na natureza estas situações, em geral, eliciam medo e ou ansiedade. A agressão é um conjunto de comportamentos direcionados a um indivíduo co específico, ou não, que tem como objetivo a aquisição de recursos ou proteção em situações de risco à sobrevivência. Considerando a interação entre medo/ansiedade e agressividade, este trabalho teve como objetivo estudar se essas situações podem modificar o comportamento agressivo agressividade em camundongos. O propósito deste estudo foi investigar se a pre-exposição de camundongos a estímulos estressores incondicionados (campo aberto, labirinto em cruz elevado, exposição ao rato, exposição a odor de rato) e condicionados (choque nas patas) podem modular o futuro comportamento agressivo em camundongos. Para atingir esse objetivo, os animais foram previamente expostos a diferentes situações capazes de provocar um estado de ansiedade e/ou medo e posteriormente submetidos ao encontro agonístico (teste residente intruso). As alterações na reatividade emocional induzidas pelas variáveis independentes foram medidas usando a resposta de sobressalto potencializado pelo medo e a análise de vocalizações ultrassônicas. Devido à influência relevante da neurotransmissão de GABA na agressão, as mudanças comportamentais induzidas pelas variáveis utilizadas foram associadas com o benzodiazepínico diazepam. Os dados obtidos no presente estudo após análise mostrou que a pré-exposição de camundongos a situações aversivas que provocam medo e / ou ansiedade alteram o seu comportamento. / Aggression is defined as a behavioral repertoire mainly directed to a conspecific for acquisition of resources and protection. In this context, anxiety and fear-like behaviors is commonly triggered by these survivors situations. Since aggression and fear are highly correlated in the present study we investigated whether previous exposure to environmental unconditioned (rat presence and rat odor, open field and elevated plus-maze tests, foot-shocks) and conditioned aversive stimuli (fear-potentiated startle) can modulate future aggressive behavior in mice. To achieve this goal, the animals were previously exposed to different situations able to elicit a state of anxiety and/or fear and later submitted to the agonistic encounter. Changes on the emotional reactivity induced by the independent variables used were measured using the fear-potentiated startle response and ultrasonic vocalizations analysis. Due to the relevant influence of GABA neurotransmission on aggression, behavioral changes induced by the variables used were challenged with the prototypic benzodiazepine diazepam. In addition, regarding human aggression, the most effective and enduring pharmacological intervention rely on compounds that act as dopaminergic antagonists. Therefore, in our study, in order to verify the influence of dopamine neurotransmission on the modulation of aggression pharmacological manipulation was conducted with the systemic administration of the dopamine D2 agonist apomorphine. Both drugs were administered previously to the resident-intruder test. The data obtained in the present study after analysis show that the pre-exposure to aversive situations that trigger fear and/or anxiety changes mice behavior.

Vocalização ultrassônica

Avaliação da exposição prévia a estímulos estressores aversivos inatos e aprendidos sobre o comportamento agressivo de camundongos (Mus musculus albinus): influência de mecanismos GABAérgicos e dopaminérgicos / A behavioral and pharmacological evaluation of aggressive behavior in mice previously exposed to fear or anxiety-like stimuli

João Soares da Cunha Neto

02 March 2018

Os animais são expostos a diferentes situações que podem colocar em risco sua sobrevivência. Na natureza estas situações, em geral, eliciam medo e ou ansiedade. A agressão é um conjunto de comportamentos direcionados a um indivíduo co específico, ou não, que tem como objetivo a aquisição de recursos ou proteção em situações de risco à sobrevivência. Considerando a interação entre medo/ansiedade e agressividade, este trabalho teve como objetivo estudar se essas situações podem modificar o comportamento agressivo agressividade em camundongos. O propósito deste estudo foi investigar se a pre-exposição de camundongos a estímulos estressores incondicionados (campo aberto, labirinto em cruz elevado, exposição ao rato, exposição a odor de rato) e condicionados (choque nas patas) podem modular o futuro comportamento agressivo em camundongos. Para atingir esse objetivo, os animais foram previamente expostos a diferentes situações capazes de provocar um estado de ansiedade e/ou medo e posteriormente submetidos ao encontro agonístico (teste residente intruso). As alterações na reatividade emocional induzidas pelas variáveis independentes foram medidas usando a resposta de sobressalto potencializado pelo medo e a análise de vocalizações ultrassônicas. Devido à influência relevante da neurotransmissão de GABA na agressão, as mudanças comportamentais induzidas pelas variáveis utilizadas foram associadas com o benzodiazepínico diazepam. Os dados obtidos no presente estudo após análise mostrou que a pré-exposição de camundongos a situações aversivas que provocam medo e / ou ansiedade alteram o seu comportamento. / Aggression is defined as a behavioral repertoire mainly directed to a conspecific for acquisition of resources and protection. In this context, anxiety and fear-like behaviors is commonly triggered by these survivors situations. Since aggression and fear are highly correlated in the present study we investigated whether previous exposure to environmental unconditioned (rat presence and rat odor, open field and elevated plus-maze tests, foot-shocks) and conditioned aversive stimuli (fear-potentiated startle) can modulate future aggressive behavior in mice. To achieve this goal, the animals were previously exposed to different situations able to elicit a state of anxiety and/or fear and later submitted to the agonistic encounter. Changes on the emotional reactivity induced by the independent variables used were measured using the fear-potentiated startle response and ultrasonic vocalizations analysis. Due to the relevant influence of GABA neurotransmission on aggression, behavioral changes induced by the variables used were challenged with the prototypic benzodiazepine diazepam. In addition, regarding human aggression, the most effective and enduring pharmacological intervention rely on compounds that act as dopaminergic antagonists. Therefore, in our study, in order to verify the influence of dopamine neurotransmission on the modulation of aggression pharmacological manipulation was conducted with the systemic administration of the dopamine D2 agonist apomorphine. Both drugs were administered previously to the resident-intruder test. The data obtained in the present study after analysis show that the pre-exposure to aversive situations that trigger fear and/or anxiety changes mice behavior.

Vocalização ultrassônica

Stress, Emotionality, and Hearing in Social Communication and Tinnitus

Niemczura, Alexandra Claire

02 August 2019

No description available.

Neurosciences

Psychology

Participação dos receptores NK-1 dos núcleos basolateral e central da amígdala no comportamento defensivo de ratos / Involvement of NK-1 receptors of the basolateral and central nuclei of the amygdala in the defensive behavior of rats

Bassi, Gabriel Shimizu

29 June 2012

Estudos realizados na última década mostram que a substância P (SP) é um neuromediador importante de estados emocionais e afetivos. A SP tem ação pró-aversiva quando microinjetada na substância cinzenta periaquedutal dorsal (SCPd) através da ativação de receptores neurocininérgicos do tipo NK-1, uma vez que o comportamento defensivo é bloqueado por antagonistas desses receptores. A ativação de receptores NK-1 na SCPd também produz antinocicepção, a qual é considerada parte da reação de defesa. Na sequência desses estudos, este projeto visa investigar o envolvimento dos receptores neurocininérgicos no núcleo central (CeA) e basolateral (BLA) da amígdala na mediação dos estados aversivos gerados e elaborados nessa estrutura prosencefálica que, junto com a SCPd, faz parte do sistema encefálico aversivo. O presente estudo mostrou que a SP e o agonista NK-1 (Sar-Met-SP) promoveram efeitos pró-aversivos no labirinto em cruz elevado somente no CeA, mas não no BLA. Ao contrário da SCPd, não obtivemos qualquer alteração no limiar nociceptivo com a microinjeção de antagonista de receptores NK-1 (Spantide) em ambos os núcleos. O Spantide sozinho não alterou os indicadores de nocicepção e ansiedade. Nenhum tipo de vocalização (audível ou ultrassônica) foi detectado no presente trabalho após a microinjeção de SP ou Sar-Met-SP em ambos núcleos amigdalóides, apesar de relatos de vocalizações ultrassônicas (VUS) após o mesmo tipo de tratamento na SCPd. Os resultados obtidos no presente estudo mostraram que o CeA, mas não o BLA, modula a expressão de comportamentos relacionados ao medo inato através de receptores neurocininérgicos do tipo NK-1. VUS e antinocicepção não parecem participar da reação de defesa elaborada no CeA. A ausência da emissão de VUS nesses núcleos pode indicar que somente estruturas mais antigas do neuroeixo (mesencéfalo e hipotálamo) são responsáveis pela produção de VUS. / A substantial body of evidence obtained in the last decade demonstrated that the Substance P (SP) is an important mediator of the affective and emotional behaviors. SP is a pro-aversive compound when microinjected within the dorsal periaqueductal gray (dPAG). These effects are mediated by the type 1 neurokininergic receptors (NK-1), since the defensive behavior was inhibited by antagonists of these receptors. The activation of NK-1 receptors in the dPAG also produced antinociception and ultrasonic vocalizations (USV). In the sequence of these studies, this study investigated the involvement of neurokinin receptors of the central (CeA) and basolateral (BLA) nuclei of the amygdala in the mediation of the defense reaction. The amigdala together with the dPAG and the medial hypothalamus comprise the encephalic aversive system. The results showed that SP and the NK-1 agonist (Sar-Met-SP) promoted pro-aversive effects in the elevated plus maze test only when microinjected into the CeA, without effect in the BLA. Although SP and the activation of NK-1 receptors induce antinociception in the dPAG, we did not observe any alteration of the nociceptive threshold in the tail-flick test with the NK-1 antagonist (Spantide) injected into both nuclei and any changes of the anxiety parameters in the EPM. No vocalizations (audible or ultrasonic) were detected after treatment with SP or Sar-Met-SP in both amygdaloid nuclei. The lack of emissions of USVs after activation of these nuclei could indicate that only older structures (PAG and hypothalamus) of the neuroaxis are responsible for the production of USVs. The results obtained in the present study show that NK-1 receptors within CeA, but not BLA, modulate the expression of defensive behaviors related to the innate fear. Apparentely USVs and antinociception are not involved in the defensive reactions indiced by activation of NK-1 mechanisms in the CeA.

Basolateral amydaoild nucleus

central amygdaloid nucleus

Elevated Plus Maze

Labirinto em cruz elevado

NK-1 receptors

Nocicepção

Nociception

Nucleo basolateral da amígdala

Núcleo central da amígdala

Receptores NK-1

Substance P

Substância P

Ultrasonic vocalization

Vocalização ultrassônica