耳への意外な入り口が聴力回復の新たな可能性を開く(An unexpected doorway into the ear opens new possibilities for hearing restoration)

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2023-06-29 カロリンスカ研究所(KI)

耳への意外な入り口が聴力回復の新たな可能性を開く(An unexpected doorway into the ear opens new possibilities for hearing restoration)
Photo: GettyImages.

◆国際研究チームが、薬物を内耳に送達する新しい方法を開発しました。脳内の体液の自然な流れを利用し、内耳にある理解されていない経路を利用することで、聴覚を取り戻す遺伝子治療を行うことが可能となりました。
◆この研究では、聴覚を失ったマウスに対して遺伝子治療を組み合わせて行い、聴覚を回復させることができました。これは聴覚を回復するための遺伝子治療の重要な一歩であり、今後は人間においても聴覚回復への応用が期待されます。

<関連情報>

脳脊髄液導管を介した遺伝子治療による成体マウスの聴力回復 Delivery of gene therapy through a cerebrospinal fluid conduit to rescue hearing in adult mice

Barbara K. Mathiesen,Leo M. Miyakoshi,Christopher R. Cederroth,Evangelia Tserga,Corstiaen Versteegh,Peter A. R. Bork,Natalie L. Hauglund,Ryszard Stefan Gomolka,Yuki Mori,Niklas K. Edvall,Stephanie Rouse,Kjeld Møllgård,Jeffrey R. Holt,Maiken Nedergaard, and Barbara Canlon
Science Translational Medicine  Published:28 Jun 2023
DOI:https://doi.org/10.1126/scitranslmed.abq3916

Abstract

Inner ear gene therapy has recently effectively restored hearing in neonatal mice, but it is complicated in adulthood by the structural inaccessibility of the cochlea, which is embedded within the temporal bone. Alternative delivery routes may advance auditory research and also prove useful when translated to humans with progressive genetic-mediated hearing loss. Cerebrospinal fluid flow via the glymphatic system is emerging as a new approach for brain-wide drug delivery in rodents as well as humans. The cerebrospinal fluid and the fluid of the inner ear are connected via a bony channel called the cochlear aqueduct, but previous studies have not explored the possibility of delivering gene therapy via the cerebrospinal fluid to restore hearing in adult deaf mice. Here, we showed that the cochlear aqueduct in mice exhibits lymphatic-like characteristics. In vivo time-lapse magnetic resonance imaging, computed tomography, and optical fluorescence microscopy showed that large-particle tracers injected into the cerebrospinal fluid reached the inner ear by dispersive transport via the cochlear aqueduct in adult mice. A single intracisternal injection of adeno-associated virus carrying solute carrier family 17, member 8 (Slc17A8), which encodes vesicular glutamate transporter-3 (VGLUT3), rescued hearing in adult deaf Slc17A8-/- mice by restoring VGLUT3 protein expression in inner hair cells, with minimal ectopic expression in the brain and none in the liver. Our findings demonstrate that cerebrospinal fluid transport comprises an accessible route for gene delivery to the adult inner ear and may represent an important step toward using gene therapy to restore hearing in humans.

Editor’s summary

Although gene therapy can treat genetic hearing loss in neonatal mice, treating adult animals is harder because of the location of the cochleae and the risk of damage to inner ear structures. Here, Mathiesen and colleagues showed that the cochlear aqueduct connects the cerebrospinal fluid (CSF) and cochlear fluid in adult mice. Tracers injected into the CSF reached the mouse inner ear, and intracisternal injection of an adeno-associated virus carrying the solute carrier family 17, member 8 (Slc17A8) gene restored vesicular glutamate transporter-3 protein in the inner hair cells of the cochlea and rescued hearing in Slc17A8 knockout mice. These findings suggest that CSF administration of gene therapy through the cochlear aqueducts could be a treatment for genetic deafness in adults. —Melissa Norton

医療・健康
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