Time course of cell death due to acoustic overstimulation in the mouse medial geniculate body and primary auditory cortex
نویسندگان
چکیده
It has previously been shown that acoustic overstimulation induces cell death and extensive cell loss in key structures of the central auditory pathway. A correlation between noise-induced apoptosis and cell loss was hypothesized for the cochlear nucleus and colliculus inferior. To determine the role of cell death in noise-induced cell loss in thalamic and cortical structures, the present mouse study (NMRI strain) describes the time course following noise exposure of cell death mechanisms for the ventral medial geniculate body (vMGB), medial MGB (mMGB), and dorsal MGB (dMGB) and the six histological layers of the primary auditory cortex (AI 1-6). Therefore, a terminal deoxynucleotidyl transferase dioxyuridine triphosphate nick-end labeling assay (TUNEL) was performed in these structures 24 h, 7 days, and 14 days after noise exposure (3 h, 115 dB sound pressure level, 5-20 kHz), as well as in unexposed controls. In the dMGB, TUNEL was statistically significant elevated 24 h postexposure. AI-1 showed a decrease in TUNEL after 14 days. There was no statistically significant difference between groups for the other brain areas investigated. dMGB's widespread connection within the central auditory pathway and its nontonotopical organization might explain its prominent increase in TUNEL compared to the other MGB subdivisions and the AI. It is assumed that the onset and peak of noise-induced cell death is delayed in higher areas of the central auditory pathway and takes place between 24 h and 7 days postexposure in thalamic and cortical structures.
منابع مشابه
Characterisation of the BOLD response time course at different levels of the auditory pathway in non-human primates
Non-human-primate fMRI is becoming increasingly recognised as the missing link between the widely applied methods of human imaging and intracortical animal electrophysiology. A crucial requirement for the optimal application of this method is the precise knowledge of the time course of the Blood Oxygenation Level Dependent (BOLD) signal. We mapped the BOLD signal time course in the inferior col...
متن کاملInvolvement of subcortical and cortical afferents to the lateral nucleus of the amygdala in fear conditioning measured with fear-potentiated startle in rats trained concurrently with auditory and visual conditioned stimuli.
The goal of this work was to test the involvement, in fear conditioning, of afferents to the lateral nucleus of the amygdala originating from the auditory thalamus, auditory cortex, and perirhinal area. The acoustic startle reflex was used as the behavioral index of conditioning because it is reliably enhanced in the presence of a conditioned stimulus (CS) previously paired with a footshock. Au...
متن کاملSpatial organization of excitatory synaptic inputs to layer 4 neurons in mouse primary auditory cortex
Layer 4 (L4) of primary auditory cortex (A1) receives a tonotopically organized projection from the medial geniculate nucleus of the thalamus. However, individual neurons in A1 respond to a wider range of sound frequencies than would be predicted by their thalamic input, which suggests the existence of cross-frequency intracortical networks. We used laser scanning photostimulation and uncaging ...
متن کاملReconceptualizing the Primary Auditory Cortex: Learning, Memory and Specific Plasticity
2-DG 2-deoxyglucose AC auditory cortex AI primary auditory cortex AII second auditory field APS auditory problem solver BF best frequency CF characteristic frequency CR conditioned response CS conditioned stimulus EEG electroencephalogram ITI intertrial intervals LFP local field potential MGB medial geniculate body RF receptive field RM reference memory SMI specific memory trace SPL sound press...
متن کاملProcessing the acoustic effect of size in speech sounds.
The length of a vocal tract is reflected in the sound it is producing. The length of the vocal tract is correlated with body size and humans are very good at making size judgments based on the acoustic effect of vocal tract length only. Here we investigate the underlying mechanism for processing this main auditory cue to size information in the human brain. Sensory encoding of the acoustic effe...
متن کامل