Yuka Miyabe scite author profile

In the mammalian cochlea, there are two independent gap junction systems, the epithelial cell gap junction system and the connective tissue cell gap junction system. Thus far, four different connexin molecules, including connexin 26, 30, 31, and 43, have been reported in the cochlea. The two networks of gap junctions form the route by which K+ ions that pass through the sensory cells during mechanosensory transduction can be recycled back to the endolymphatic space, from which they reenter the sensory cells. Activation of hair cells by acoustic stimuli induces influx of K+ ions from the endolymph to sensory hair cells. These K+ ions are released basolaterally to the extracellular space of the organ of Corti, from which they enter the cochlear supporting cells. Once inside the supporting cells they move via the epithelial cell gap junction system laterally to the lower part of the spiral ligament. The K+ ions are released into the extracellular space of the spiral ligament by root cells and taken up by type II fibrocytes. This uptake incorporates K+ into the connective tissue gap junction system. Within this system, the K+ ions pass through the tight junctional barrier of the stria vascularis and are released within the intrastrial extracellular space. The marginal cells of the stria vascularis then take up K+ and return it to the endolymphatic space, where it can be used again in sensory transduction. It is highly probable that mutations of connexin genes that result in human nonsyndromic deafness cause dysfunction of cochlear gap junctions and thereby interrupt K+ ion recirculation pathways. In addition to connexin mutations, other conditions may disrupt gap junctions within the ear. For example, mice with a functionally significant mutation of Brain-4, which is expressed in the connective tissue cells within the cochlea, show marked depression of the endolymphatic potential and profound sensorineural hearing loss. It seems likely that disruption of connective tissue cells by this mutation disrupts K+ ion entry into the stria vascularis and thereby results in loss of endolymphatic potential. The association of sensorineural hearing loss with these genetic disorders provides strong evidence for the necessity of gap junction systems for the normal functioning of the cochlea.

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Comparative Immunohistochemical Localizations of Aquaporin-1 and Aquaporin-4 in the Cochleae of Three Different Species of Rodents.

Miyabe

Kikuchi

Kobayashi

2002

Tohoku J. Exp. Med.

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The species-specific difference of the immunohistochemical localization of aquaporin-1 (AQP1) and aquaporin-4 (AQP4) was investigated in the cochleae of the 3 different species of rodents, including guinea pig, mouse and Mongolian gerbil. In the guinea pig cochlea, intense AQP1-like immunoreactivity was present in the type III fibrocytes in the spiral ligament and the mesenchymal cells just below the basilar membrane. Immunostaining was also found in some type IV fibrocytes in the spiral ligament, fibrocytes in the spiral limbus and mesenchymal cells lining the perilymphatic space against the bony otic capsule. In contrast, no remarkable immunostaining was found in the basilar membrane of the mouse cochlea. The medial part of the Reissner's membrane was positively immunostained with anti-AQP1 antibody only in the mouse cochlea. In the gerbil cochlea, AQP1-like immunoreactivity was weak compared with the other 2 species. AQP4 was found in the cochlear supporting cells, including Claudius cells, Hensen's cells and inner sulcus cells of the 3 rodent species. AQP4 was also expressed in some interdental cells of the spiral limbus. Weak immunoreactivity was also found in the root cells only in the upper turns of the guinea pig cochlea. In contrast, no detectable immunoreactivity was found in the root cells of the other 2 species. The results obtained in the present study provide the first evidence for the existence of the species differences in the expression of the AQP1 and AQP4 proteins in the rodent cochlea.

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Immunolocalization of voltage-gated potassium channel Kv3.1b subunit in the cochlea

Kikuchi²,

Ishimaru³

et al. 2001

Neuroreport

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Immunohistochemical localization of voltage-gated potassium channel Kv3.1b subunit was studied in the cochlea. Intense Kv3.1b-like immunoreactivity was present in the type I, type III, type IV and suprastrial fibrocytes of the cochlear lateral wall. Immunostaining was also found in the interdental cells and the fibrocytes of the spiral limbus and in the supralimbal dark cells. K+ ions, which play a pivotal role in the mechanosensory transduction process in the inner ear, are recycled via gap junctional networks in the cochlea. These results suggest that the voltage-gated potassium channel, containing Kv3.1b, in the cochlear lateral wall fibrocytes may control the intracellular potential and play an important role in regulating the potassium ion recycling mechanism via gap junctions in the inner ear.

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Endoscopic Sinus Surgery in Cases of Cholesterol Granuloma of the Maxillary Sinus.

Kikuchi

Ishimaru

et al. 2002

Tohoku J. Exp. Med.

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Cholesterol granuloma is usually associated with middle ear disease and is very rare in the paranasal sinuses. We report a case of cholesterol granuloma originating in the maxillary sinus of a 52-year-old female. Endoscopic sinus surgery was performed on the left maxillary sinus, and the cholesterol granuloma was successfully removed by the middle meatal antrostomy. Light microscopic examination showed granulomatous tissue with typical cholesterol clefts, multinucleated foreign body giant cells, small areas of hemorrhage, hemosiderin-laden macrophages and plasma cells. We also describe the details of the endoscopic surgical techniques employed in the treatment of this disorder.

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Yuka Miyabe

Potassium ion recycling pathway via gap junction systems in the mammalian cochlea and its interruption in hereditary nonsyndromic deafness

Comparative Immunohistochemical Localizations of Aquaporin-1 and Aquaporin-4 in the Cochleae of Three Different Species of Rodents.

Immunolocalization of voltage-gated potassium channel Kv3.1b subunit in the cochlea

Endoscopic Sinus Surgery in Cases of Cholesterol Granuloma of the Maxillary Sinus.

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