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(Referência obtida automaticamente do Web of Science, por meio da informação sobre o financiamento pela FAPESP e o número do processo correspondente, incluída na publicação pelos autores.)

Origin and function of short-latency inputs to the neural substrates underlying the acoustic startle reflex

Texto completo
Gomez-Nieto, Ricardo [1, 2, 3] ; Horta-Junior, Jose de Anchieta C. [1, 4] ; Castellano, Orlando [1, 2, 3] ; Millian-Morell, Lymarie [1, 2] ; Rubio, Maria E. [5] ; Lopez, Dolores E. [1, 2, 3]
Número total de Autores: 6
Afiliação do(s) autor(es):
[1] Univ Salamanca, Neurosci Inst Castilla & Leon, Salamanca 37007 - Spain
[2] Univ Salamanca, Inst Biomed Res Salamanca IBSAL, Salamanca 37007 - Spain
[3] Univ Salamanca, Dept Cell Biol & Pathol, Salamanca 37007 - Spain
[4] Sao Paulo State Univ Botucatu, Biosci Inst, Dept Anat, Sao Paulo - Brazil
[5] Univ Pittsburgh, Dept Otolaryngol, Pittsburgh, PA 15260 - USA
Número total de Afiliações: 5
Tipo de documento: Artigo Científico
Citações Web of Science: 23

The acoustic startle reflex (ASR) is a survival mechanism of alarm, which rapidly alerts the organism to a sudden loud auditory stimulus. In rats, the primary ASR circuit encompasses three serially connected structures: cochlear root neurons (CRNs), neurons in the caudal pontine reticular nucleus (PnC), and motoneurons in the medulla and spinal cord. It is well-established that both CRNs and PnC neurons receive short-latency auditory inputs to mediate the ASR. Here, we investigated the anatomical origin and functional role of these inputs using a multidisciplinary approach that combines morphological, electrophysiological and behavioral techniques. Anterograde tracer injections into the cochlea suggest that CRNs somata and dendrites receive inputs depending, respectively, on their basal or apical cochlear origin. Confocal colocalization experiments demonstrated that these cochlear inputs are immunopositive for the vesicular glutamate transporter 1 (VGLUT1). Using extracellular recordings in vivo followed by subsequent tracer injections, we investigated the response of PnC neurons after contra-, ipsi-, and bilateral acoustic stimulation and identified the source of their auditory afferents. Our results showed that the binaural firing rate of PnC neurons was higher than the monaural, exhibiting higher spike discharges with contralateral than ipsilateral acoustic stimulations. Our histological analysis confirmed the CRNs as the principal source of short-latency acoustic inputs, and indicated that other areas of the cochlear nucleus complex are not likely to innervate PnC. Behaviorally, we observed a strong reduction of ASR amplitude in monaural earplugged rats that corresponds with the binaural summation process shown in our electrophysiological findings. Our study contributes to understand better the role of neuronal mechanisms in auditory alerting behaviors and provides strong evidence that the CRNs-PnC pathway mediates fast neurotransmission and binaural summation of the ASR. (AU)

Processo FAPESP: 08/02771-6 - Estudo hodológico, neuroquímico e comportamental das aferências ao primeiro núcleo do circuito neural do reflexo auditivo de sobressalto: núcleo da raiz coclear
Beneficiário:José de Anchieta de Castro e Horta Júnior
Linha de fomento: Auxílio à Pesquisa - Apoio a Jovens Pesquisadores