Early postnatal expression of proteins associated with inhibitory synapses in the auditory brainstem

Cooper, Alan

01 May 2015

<p>The lateral superior olive (LSO) is a binaural nucleus that is critical for azimuthal sound localization. Bipolar principal cells of the LSO compute interaural level differences (ILDs) by comparing converging excitatory and inhibitory inputs driven by either ear. More specifically, this computation relies on integrating excitatory inputs from the ipsilateral cochlear nucleus with inhibitory, GABA/glycinergic inputs from the medial nucleus of the trapezoid body (MNTB), which are driven by sound originating at the contralateral ear. In order to reliably compute ILDs, the converging inputs must represent sounds of the same frequency. This specificity emerges during the first few weeks of postnatal life in rats as a result of functional and anatomical refinement. Interestingly, significant refinement of this auditory circuit occurs in the absence auditory experience. We focused on changes in the subcellular location of MNTB inputs and the expression of vesicular proteins before hearing onset.</p> <p>The subcellular distribution of inputs onto a neuron heavily influences synaptic integration and the mature distribution likely emerges during a period of circuit refinement. Little is known about how the inputs are distributed onto LSO principal cells and how the mature distribution is achieved. We studied the distribution of inhibitory inputs onto LSO neurons and found that significant re- distribution occurs before hearing onset. The mechanisms underlying the refinement of the inhibitory MNTB projection are not well understood but could be related to the transient co-transmission of the excitatory neurotransmitter glutamate. We studied the expression of vesicular proteins that may regulate the release of GABA/glycine and glutamate at the immature MNTB terminal. We found that MNTB terminals transiently express two Ca++ sensors, which may be associated with the different release properties for GABA/glycine and glutamate. Lastly, we asked one specific example of what controls the expression and sorting of vesicular proteins at the immature MNTB terminal.</p> / Doctor of Philosophy (PhD)

synapse

auditory brainstem

lateral superior olive

development

vesicular transporter

circuit refinement

Neurosciences

Neurosciences

Eferências do núcleo lateral superior da oliva no rato (rattus norvegicus). / Efferences of lateral superior olive nucleus in the rat ( rattus norvegicus)

Souto, Suzana Souza

22 October 2007

Após a descrição da Urocortina 1, um neuropeptídeo encontrado principalmente no núcleo de Edinger-Westphal e no núcleo lateral superior da oliva (LSO), atentou-se para a ausência do conhecimento das projeções de ambos os núcleos. Nós pretendemos contribuir para o conhecimento das projeções ascendentes e descendentes do LSO, usando um traçador neuronal anterógrado. Nós utilizamos o Biotin-Dextran-Amine (BDA) injetado no LSO de ratos, 15 a 20 dias depois os ratos eram perfundidos, os encéfalos e medulas foram seccionados e tratados histoquimicamente. Nós encontramos que existem 4 vias eferentes do LSO, tanto ascendentes como descendentes no sistema nervoso central, como segue: duas vias ascendentes, uma ipsilateral à injeção, a mais proeminente e a via contralateral que é menos densa; duas vias descendentes, uma ipsilateral muito menos evidente, e a contralateral que é moderada. Seguindo a via ascendente ipsilateral, nós encontramos as seguintes estruturas bem marcadas com BDA: o próprio LSO, núcleo do corpo trapezóide, o lemnisco lateral e seus núcleos, colículos inferior e superior e os seguintes núcleos talâmicos: suprageniculado, geniculado medial, partes dorsal e medial e córtex somatosensorial primário. Seguindo a via descendente contralateral nós encontramos as seguintes estruturas: o LSO ipsi e contralateral, o núcleo do corpo trapezóide, núcleo coclear ventral, parte anterior, núcleo coclear dorsal, núcleo coclear ventral, parte posterior e VIII nervo. Os dados que nós encontramos neste trabalho sugerem que as vis do LSO podem se estender até o córtex somatosensorial no prosencéfalo e o complexo de núcleos cocleares no tronco, enviando colaterais para os principais núcleos relacionados a via auditiva, provavelmente contribuindo para a localização da fonte sonora, em acordo com a anatomia desta informação sensorial específica. / After the discovery of the Urocortin-1, a neuropeptide found mainly in the Edinger-Westphal nucleus and in the lateral superior olive nucleus (LSO), the attention was caught about the lack of known projections of both nuclei. We intended to contribute to the knowledge of both ascending and descending projections of the LSO, using a neuronal anterograde tracer. In order to do that we use the Biotin-Dextran-Amine (BDA) injected in the LSO of rats, fifteen to twenty days later the rats were perfused, the brains and spinal cords were cut and the sections treated histochemically. We have found that there are four pathways leaving the LSO either ascending or descending in the central nervous system, as following: two ascending pathways, one ipsilateral to the injection, the most proeminent one and the contralateral pathway that is less dense; two descending pathways, one ipsilateral, much less evident, and the contralateral that is very moderate. Tracking the ipsilateral ascending pathway we have found the following structures well labeled with BDA: the LSO itself, nucleus of the trapezoid body, the lateral lemniscus and its nuclei, inferior and superior colliculus, the following thalamic nuclei: suprageniculate, medial geniculate, dorsal and medial parts and the primary somatosensory cortex. Tracking the contralateral descending pathway we have found the following structures: the LSO ipsi and contralateral; the nucleus of the trapezoid body; ventral cochlear nucleus, anterior part; dorsal cochlear nucleus; ventral cochlear nucleus, posterior part and, the eight nerve. The data we have found in this work suggests that the pathways from the LSO could reach as far as the somatosensory cortex in the prosencephalon and the cochlear complex nuclei in the brainstem, sending collaterals to the main nuclei related to the auditory pathway, probably contributing to the localization of the sound source, due to the anatomy of this specific sensory information.

Anterograde tracer

Auditory pathway

BDA

Biotin-dextran

Eferências

Efferences

Lateral superior olive nucleus

Núcleo lateral superior da oliva

Traçador anterógrado

Urocortin 1

Urocortina I

Via auditiva

Eferências do núcleo lateral superior da oliva no rato (rattus norvegicus). / Efferences of lateral superior olive nucleus in the rat ( rattus norvegicus)

Suzana Souza Souto

22 October 2007

Após a descrição da Urocortina 1, um neuropeptídeo encontrado principalmente no núcleo de Edinger-Westphal e no núcleo lateral superior da oliva (LSO), atentou-se para a ausência do conhecimento das projeções de ambos os núcleos. Nós pretendemos contribuir para o conhecimento das projeções ascendentes e descendentes do LSO, usando um traçador neuronal anterógrado. Nós utilizamos o Biotin-Dextran-Amine (BDA) injetado no LSO de ratos, 15 a 20 dias depois os ratos eram perfundidos, os encéfalos e medulas foram seccionados e tratados histoquimicamente. Nós encontramos que existem 4 vias eferentes do LSO, tanto ascendentes como descendentes no sistema nervoso central, como segue: duas vias ascendentes, uma ipsilateral à injeção, a mais proeminente e a via contralateral que é menos densa; duas vias descendentes, uma ipsilateral muito menos evidente, e a contralateral que é moderada. Seguindo a via ascendente ipsilateral, nós encontramos as seguintes estruturas bem marcadas com BDA: o próprio LSO, núcleo do corpo trapezóide, o lemnisco lateral e seus núcleos, colículos inferior e superior e os seguintes núcleos talâmicos: suprageniculado, geniculado medial, partes dorsal e medial e córtex somatosensorial primário. Seguindo a via descendente contralateral nós encontramos as seguintes estruturas: o LSO ipsi e contralateral, o núcleo do corpo trapezóide, núcleo coclear ventral, parte anterior, núcleo coclear dorsal, núcleo coclear ventral, parte posterior e VIII nervo. Os dados que nós encontramos neste trabalho sugerem que as vis do LSO podem se estender até o córtex somatosensorial no prosencéfalo e o complexo de núcleos cocleares no tronco, enviando colaterais para os principais núcleos relacionados a via auditiva, provavelmente contribuindo para a localização da fonte sonora, em acordo com a anatomia desta informação sensorial específica. / After the discovery of the Urocortin-1, a neuropeptide found mainly in the Edinger-Westphal nucleus and in the lateral superior olive nucleus (LSO), the attention was caught about the lack of known projections of both nuclei. We intended to contribute to the knowledge of both ascending and descending projections of the LSO, using a neuronal anterograde tracer. In order to do that we use the Biotin-Dextran-Amine (BDA) injected in the LSO of rats, fifteen to twenty days later the rats were perfused, the brains and spinal cords were cut and the sections treated histochemically. We have found that there are four pathways leaving the LSO either ascending or descending in the central nervous system, as following: two ascending pathways, one ipsilateral to the injection, the most proeminent one and the contralateral pathway that is less dense; two descending pathways, one ipsilateral, much less evident, and the contralateral that is very moderate. Tracking the ipsilateral ascending pathway we have found the following structures well labeled with BDA: the LSO itself, nucleus of the trapezoid body, the lateral lemniscus and its nuclei, inferior and superior colliculus, the following thalamic nuclei: suprageniculate, medial geniculate, dorsal and medial parts and the primary somatosensory cortex. Tracking the contralateral descending pathway we have found the following structures: the LSO ipsi and contralateral; the nucleus of the trapezoid body; ventral cochlear nucleus, anterior part; dorsal cochlear nucleus; ventral cochlear nucleus, posterior part and, the eight nerve. The data we have found in this work suggests that the pathways from the LSO could reach as far as the somatosensory cortex in the prosencephalon and the cochlear complex nuclei in the brainstem, sending collaterals to the main nuclei related to the auditory pathway, probably contributing to the localization of the sound source, due to the anatomy of this specific sensory information.

Biotin-dextran

Eferências

Núcleo lateral superior da oliva

Traçador anterógrado

Urocortina I

Via auditiva

Anterograde tracer

Auditory pathway

BDA

Efferences

Lateral superior olive nucleus

Urocortin 1

Modelling the Neural Representation of Interaural Level Differences for Linked and Unlinked Bilateral Hearing Aids

Cheung, Stephanie

11 1900

Sound localization is a vital aspect of hearing for safe navigation of everyday environments. It is also an important factor in speech intelligibility. This ability is facilitated by the interaural level difference (ILD) cue, which arises from binaural hearing: a sound will be more intense at the nearer ear than the farther. In a hearing-impaired listener, this binaural cue may not be available for use and localization may be diminished. While conventional, bilateral, wide dynamic range compression (WDRC) hearing aids distort the interaural level difference by independently altering sound intensities in each ear, wirelessly-linked devices have been suggested to benefit this task by matching amplification in order to preserve ILD. However, this technology has been shown to have varying degrees of success in aiding speech intelligibility and sound localization. As hearing impairment has wide-ranging adverse impacts to physical and mental health, social activity, and cognition, the task of localization improvement must be urgently addressed. Toward this end, neural modelling techniques are used to determine neural representations of ILD cues for linked and unlinked bilateral WDRC hearing aids. Findings suggest that wirelessly-linked WDRC is preferable over unlinked hearing aids or unaided, hearing-impaired listening, although parameters for optimal benefit are dependent on sound level, frequency content, and preceding sounds. / Thesis / Master of Applied Science (MASc)