The role of gene mutations and immune responses in sensorineural hearing loss

Sensorineural hearing loss (SNHL) is a prevalent clinical condition primarily attributed to dysfunction within various components of the auditory pathway, spanning from the inner ear to the auditory cortex. Recent research has illuminated immune and inflammation-mediated disorders of the inner ear as critical contributors to SNHL. Disruptions in the equilibrium of inflammatory mediators, chemokines, the complement system, and inflammatory vesicles within the cochlea provoke aberrations in immune cell activity, fostering a chronic pro-inflammatory milieu that detrimentally affects the structural and functional integrity of the inner ear, culminating in hearing impairment. Specific genetic mutations, especially those affecting auditory structures, play an important role in SNHL. These mutations regulate inflammatory mediators and cellular responses, thereby altering the inflammatory dynamics within the cochlea. This review delves into the pathogenesis of sensorineural hearing loss, emphasizing the impact of genetic alterations, immune responses within the inner ear, and inflammatory mediators on auditory function. It highlights the significance of Transmembrane Serine Protease 3 (TMPRSS3) and connexin gene mutations as pivotal genetic elements in SNHL, underscoring the central role of inflammatory responses in cochlear damage. Furthermore, the paper discusses the promise of gene therapy and targeted molecular interventions, underscoring the necessity for continued exploration into the specific actions of various inflammatory agents to refine personalized therapeutic strategies.