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Journal of the Association for Research in Otolaryngology
Erschienen in: Journal of the Association for Research in Otolaryngology 4/2011

01.08.2011

Relative Time Course of Degeneration of Different Cochlear Structures in the CD/1 Mouse Model of Accelerated Aging

verfasst von: Shanthini Mahendrasingam, Jamie A. MacDonald, David N. Furness

Erschienen in: Journal of the Association for Research in Otolaryngology | Ausgabe 4/2011

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Abstract

Presbycusis (age-related hearing loss) can result from various cochlear pathologies. We have studied the time course of degeneration in a mouse that shows accelerated presbycusis, the CD/1 mouse, as a possible model to investigate stem-cell strategies to prevent or ameliorate presbycusic changes. CD/1 mice from 0 to 72 weeks old were examined by light and electron microscopy. Early pathological changes were detected in basal turn spiral ligament fibrocytes and spiral ganglion, but the latter was variable as both satellite cells and neurons were normal in some cochleae. Light microscopic counts in the spiral ligament of 20-week-old mice revealed that of the five main types (types I–V), only type V fibrocytes showed no reduction in numbers compared with 3-week-old animals, and type IV showed the greatest losses. However, all types of fibrocyte showed subtle damage when examined using electron microscopy, in the form of swollen mitochondria, as early as 2 weeks. The extent of mitochondrial damage showed a degree of correspondence with the light microscopic pattern of fibrocyte loss in that types III and IV fibrocytes had the most abnormal mitochondria and type V the least, especially at early stages. By 10–15 weeks, ultrastructural features of fibrocyte damage were similar to longer term changes reported in gerbils. Stria vascularis, spiral ganglion and hair cells showed few consistent early signs of damage but became increasingly affected, lagging behind the fibrocyte damage. Our data suggest that fibrocyte pathology may precede other presbycusic changes; breakdown of homeostatic mechanisms to which they contribute may cause the subsequent degeneration of the hair cells. Overall, there were many similarities to presbycusic changes in other rodents and humans. Therefore, the features of accelerated aging in this mouse make it a suitable model for rapidly assessing possible strategies to prevent or ameliorate presbycusic changes.
Literatur
Buckiova D, Popelar J, Syka J (2006) Collagen changes in the cochlea of aged Fischer 344 rats. Exp Gerontol 41:296–302PubMedCrossRef
Delprat B, Ruel J, Guitton MJ, Hamard G, Lenoir M, Pujol R, Puel JL, Brabet P, Hamel CP (2005) Deafness and cochlear fibrocyte alterations in mice deficient for the inner ear protein otospiralin. Mol Cell Biol 25:847–853PubMedCrossRef
Donadieu E, Hamdi W, Deveze A, Lucciano M, Lavieille JP, Magnan J, Riva C (2007) Improved cryosections and specific immunohistochemical methods for detecting hypoxia in mouse and rat cochleae. Acta Histochem 109:177–184PubMedCrossRef
Furness DN, Lawton DM, Mahendrasingam S, Hodierne L, Jagger DJ (2009) Quantitative analysis of the expression of the glutamate-aspartate transporter and identification of functional glutamate uptake reveal a role for cochlear fibrocytes in glutamate homeostasis. Neurosci 162:1307–1321CrossRef
Hequembourg S, Liberman MC (2001) Spiral ligament pathology: a major aspect of age-related cochlear degeneration in C57BL/6 mice. JARO 2:118–129PubMed
Hildebrand MS, Tack D, McMordie SJ, DeLuca A, Hur IA, Nishimura C, Huygen P, Casavant TL, Smith RJ (2008) Audioprofile-directed screening identifies novel mutations in KCNQ4 causing hearing loss at the DFNA2 locus. Genet Med 10:797–804PubMedCrossRef
Hirose K, Liberman MC (2003) Lateral wall histopathology and endocochlear potential in the noise-damaged mouse cochlea. JARO 4:339–352PubMedCrossRef
Ichimiya I, Kuruno Y, Hirano T, Mogi G (1998) Changes in immunostaining of inner ears after antigen challenge into the scala tympani. Laryngoscope 108:585–591PubMedCrossRef
Ichimiya I, Suzuki M, Hirano T, Mogi G (1999) The influence of pneumococcal otitis media on the cochlear lateral wall. Hear Res 131:128–134PubMedCrossRef
Ichimiya I, Yoshida K, Hirano T, Suzuki M, Mogi G (2000) Significance of spiral ligament fibrocytes with cochlear inflammation. Int J Paediatr Otolaryngol 56:45–51CrossRef
Johnson KR, Zheng QY, Erway LC (2000) A major gene affecting age-related hearing loss is common to at least ten inbred strains of mice. Genomics 70:171–180PubMedCrossRef
Kusunoki T, Cureoglu S, Schachern PA, Baba K, Kariya S, Paparella MM (2004) Age-related pathologic changes in the human cochlea: a temporal bone study. Otolaryngol Head Neck Surg 131:897–903PubMedCrossRef
Le Calvez S, Avan P, Gilain L, Romand R (1998a) CD1 hearing impaired mice. I: distortion product otoacoustic emission levels, cochlear function and morphology. Hear Res 120:37–50PubMedCrossRef
Le Calvez S, Guilhaume A, Romand R, Aran JM, Avan P (1998b) CD/1 hearing impaired mice. II: group latencies and optimal f2/f1 ratios of distortion-product otoacoustic emissions, and scanning electron microscopy. Hear Res 120:51–61PubMedCrossRef
McFadden SL, Ding D, Reaume AG, Flood DG, Salvi RJ (1999) Age-related cochlear hair cell loss is enhanced in mice lacking copper/zinc superoxide dismutase. Neurobiol Aging 20:1–8PubMedCrossRef
Minowa O, Ikeda K, Sugitani Y, Oshima T, Nakai S, Katori Y, Suzuki M, Furukawa M, Kawase T, Zheng Y, Ogura M, Asada Y, Watanabe K, Yamanaka H, Gotoh S, Nishi-Takeshima M, Sugimoto T, Kikuchi T, Takasaka T, Noda (1999) Altered cochlear fibrocytes in a mouse model of DFN3 nonsyndromic deafness. Science 285:1408–1411PubMedCrossRef
Mizutari K, Matsunaga T, Kamiya K, Fuginami Y, Fugii M, Ogawa K (2008) Caspase inhibitor facilitates recovery of hearing by protecting the cochlear lateral wall from acute cochlear mitochondrial dysfunction. J Neurosci Res 86:215–222PubMedCrossRef
Nakazawa K, Spicer SS, Schulte BA (1995) Ultrastructural localization of Na, K-ATPase in the gerbil cochlea. J Histochem Cytochem 43:981–991PubMedCrossRef
Nouvian R, Ruel J, Wang J, Guitton MJ, Pujol R, Puel JL (2003) Degeneration of sensory outer hair cells following pharmacological blockade of cochlear KCNQ channels in the adult guinea pig. Eur J Neurosci 17:2553–2562PubMedCrossRef
Okamoto Y, Hoya N, Kamiya K, Fujii M, Ogawa K, Matsunaga T (2005) Permanent threshold shift caused by acute cochlear mitochondrial dysfunction is primarily mediated by degeneration of the lateral wall of the cochlea. Audiol Neurootol 10:220–233PubMedCrossRef
Perotti ME, Anderson WA, Swift H (1983) Quantitative cytochemistry of the diaminobenzidine cytochrome oxidase reaction product in mitochondria of cardiac muscle and pancreas. J Histochem Cytochem 31:351–365PubMedCrossRef
Riva C, Longuet M, Lucciano M, Magnan J, Lavieille JP (2005) Implication of mitochondrial apoptosis in neural degeneration in a murin model for presbycusis. Rev Laryngol Otol Rhinol 126:67–74
Riva C, Donadieu E, Magnan J, Lavieille JP (2007) Age-related hearing loss in CD/1 mice is associated to ROS formation and HIF target proteins up-regulation in the cochlea. Exp Gerontol 42:327–336PubMedCrossRef
Schuknecht HF, Gacek MR (1993) Cochlear pathology in presbycusis. Ann Otol Rhinol Laryngol 102:1–16PubMed
Seligman AM, Karnovsky MJ, Wasserkrug HL, Hanker JS (1968) Nondroplet ultrastructural demonstration of cytochrome oxidase activity with a polymerising osmiophilic reagent, diaminobenzidine (DAB). J Cell Biol 38:1–14PubMedCrossRef
Seligman AM, Shannon WA Jr, Hoshino Y, Plapinger RE (1973) Some important principles in 3,3′-diaminobenzidine ultrastructural cytochemistry. J Histochem Cytochem 21:756–758PubMedCrossRef
Seo AY, Joseph AM, Dutta D, Hwang JCY, Aris JP, Leeuwenburgh C (2010) New insights into the role of mitochondria in aging: mitochondrial dynamics and more. J Cell Sci 123:2533–2542PubMedCrossRef
Shone G, Raphael Y, Miller JM (1991) Hereditary deafness occurring in CD/1 mice. Hear Res 57:153–156PubMedCrossRef
Spicer SS, Schulte BA (1991) Differentiation of inner ear fibrocytes according to their ion transport related activity. Hear Res 56:53–64PubMedCrossRef
Spicer SS, Schulte BA (2002) Spiral ligament pathology in quiet-aged gerbils. Hear Res 172:172–185PubMedCrossRef
Suko T, Ichimiya I, Yoshida K, Suzuki M, Mogi G (2000) Classification and culture of spiral ligament fibrocytes from mice. Hear Res 140:137–144PubMedCrossRef
Wangemann P (2006) Supporting sensory transduction: cochlear fluid homeostasis and the endocochlear potential. J Physiol 576:11–21PubMedCrossRef
Weber PC, Cunningham CD, Schulte BA (2001) Potassium recycling pathways in the human cochlea. Laryngoscope 111:1156–1165PubMedCrossRef
Wu T, Marcus DC (2003) Age-related changes in cochlear endolymphatic potassium and potential in CD/1 and CBA/CaJ mice. JARO 4:353–362PubMedCrossRef
Metadaten
Titel
Relative Time Course of Degeneration of Different Cochlear Structures in the CD/1 Mouse Model of Accelerated Aging
verfasst von
Shanthini Mahendrasingam
Jamie A. MacDonald
David N. Furness
Publikationsdatum
01.08.2011
Verlag
Springer-Verlag
Erschienen in
Journal of the Association for Research in Otolaryngology / Ausgabe 4/2011
Print ISSN: 1525-3961
Elektronische ISSN: 1438-7573
DOI
https://doi.org/10.1007/s10162-011-0263-6

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