Abstract
Age-related hearing loss (ARHL) is the most common sensory disorder among the elderly, associated with aging and auditory hair cell death due to oxidative-stress-induced mitochondrial dysfunction. Although transgenic mice and long-term aging induction cultures have been used to study ARHL, there are currently no ARHL animal models that can be stimulated by intermittent environmental changes. In this study, an ARHL animal model was established by inducing continuous oxidative stress to promote short-term aging of cells, determined on the basis of expression of hearing-loss-induced phenotypes and aging-related factors. The incidence of hearing loss was significantly higher in dual- and triple-exposure conditions than in intermittent hypoxic conditions, high-fat diet (HFD), or d-galactose injection alone. Continuous oxidative stress and HFD accelerated cellular aging. An increase in Ucp2, usually expressed during mitochondrial dysfunction, was observed. Expression of Cdh23, Slc26a4, Kcnq4, Myo7a, and Myo6, which are ARHL-related factors, were modified by oxidative stress in the cells of the hearing organ. We found that intermittent hypoxia, HFD, and galactose injection accelerated cellular aging in the short term. Thus, we anticipate that the development of this hearing loss animal model, which reflects the effects of intermittent environmental changes, will benefit future research on ARHL.
Highlights
Age-related hearing loss (ARHL), known as presbycusis, is an emerging complication in the aging population worldwide
This study provides a realistic animal model that can be used to accelerate the development of therapeutic strategies for ARHL in the future
We evaluated hearing loss in mice under all three conditions and observed that there was a significant effect on the hearing threshold and that the value of the hearing threshold significantly decreased after 3 months from 35 to 67 dB at 8 kHz and from 31 to 70 dB at 16 kHz (Figure 3b)
Summary
Age-related hearing loss (ARHL), known as presbycusis, is an emerging complication in the aging population worldwide. A gradual decrease of hearing function with increasing age is often perceived as an inevitable part of the human aging process. The overall contribution of ARHL to hearing impairment and decreased quality of life is underestimated. Since the average life expectancy of the population is increasing, hearing loss has significant implications on general health and quality of life [1,2]. According to the 2015 National Health and Nutrition Examination Survey conducted in the USA, 15% of individuals aged between 40 and 49 years were bilaterally deaf, while 19% of those aged between 50–69 and 43.2% of those aged over 70 years had the same condition [3]
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