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Activated tissue-resident macrophages contribute to hair cell insults in noise-induced hearing loss in mice

Jing Pan, Kaiye Wang, Jiaxi Qu, Dongxiu Chen, Anning Chen, Yunyou You, Jie Tang, Hongzheng Zhang

2024Communications Biology26 citationsDOIOpen Access PDF

Abstract

Macrophages serve as the primary immune cell population and assume a pivotal role in the immune response within the damaged cochleae. Yet, the origin and role of macrophages in response to noise exposure remain controversial. Here, we take advantage of Ccr2RFP/+ Cx3cr1GFP/+ dual-reporter mice to identify the infiltrated and tissue-resident macrophages. After noise exposure, we reveal that activated resident macrophages change in morphology, increase in abundance, and migrate to the region of hair cells, leading to the loss of outer hair cells and the damage of ribbon synapses. Meanwhile, peripheral monocytes are not implicated in the noise-induced hair cell insults. These noise-induced activities of macrophages are abolished by inhibiting TLR4 signaling, resulting in alleviated insults of hair cells and partial recovery of hearing. Our findings indicate cochlear resident macrophages are pro-inflammatory and detrimental players in acoustic trauma and introduce a potential therapeutic target in noise-induced hearing loss. Cochlear tissue-resident macrophages, not infiltrated peripheral monocytes, respond to noise exposure in mice. The pro-inflammatory effects of these macrophages contribute to insults of ribbon synapses of hair cell in noise-induced hearing loss

Topics & Concepts

Hearing lossHair cellAudiologyNoise-induced hearing lossNoise exposureMedicineCochleaHearing, Cochlea, Tinnitus, GeneticsNoise Effects and ManagementImmune Response and Inflammation