The timing of auditory sensory deficits in Norrie disease has implications for therapeutic intervention
Dale Bryant, Valda Pauzuolyte, Neil J. Ingham, Aara Patel, Waheeda Pagarkar, Lucy A. Anderson, Katie E. Smith, Dale A. Moulding, Yeh C. Leong, Daniyal J. Jafree, David A. Long, Amina Al-Yassin, Karen P. Steel, Daniel J. Jagger, Andrew Forge, Wolfgang Berger, Jane C. Sowden, Maria Bitner-Glindzicz
Dale Bryant, Valda Pauzuolyte, Neil J. Ingham, Aara Patel, Waheeda Pagarkar, Lucy A. Anderson, Katie E. Smith, Dale A. Moulding, Yeh C. Leong, Daniyal J. Jafree, David A. Long, Amina Al-Yassin, Karen P. Steel, Daniel J. Jagger, Andrew Forge, Wolfgang Berger, Jane C. Sowden, Maria Bitner-Glindzicz
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Research Article Development Otology

The timing of auditory sensory deficits in Norrie disease has implications for therapeutic intervention

Abstract

Norrie disease is caused by mutation of the NDP gene, presenting as congenital blindness followed by later onset of hearing loss. Protecting patients from hearing loss is critical for maintaining their quality of life. This study aimed to understand the onset of pathology in cochlear structure and function. By investigating patients and juvenile Ndp-mutant mice, we elucidated the sequence of onset of physiological changes (in auditory brainstem responses, distortion product otoacoustic emissions, endocochlear potential, blood-labyrinth barrier integrity) and determined the cellular, histological, and ultrastructural events leading to hearing loss. We found that cochlear vascular pathology occurs earlier than previously reported and precedes sensorineural hearing loss. The work defines a disease mechanism whereby early malformation of the cochlear microvasculature precedes loss of vessel integrity and decline of endocochlear potential, leading to hearing loss and hair cell death while sparing spiral ganglion cells. This provides essential information on events defining the optimal therapeutic window and indicates that early intervention is needed. In an era of advancing gene therapy and small-molecule technologies, this study establishes Ndp-mutant mice as a platform to test such interventions and has important implications for understanding the progression of hearing loss in Norrie disease.

Authors

Dale Bryant, Valda Pauzuolyte, Neil J. Ingham, Aara Patel, Waheeda Pagarkar, Lucy A. Anderson, Katie E. Smith, Dale A. Moulding, Yeh C. Leong, Daniyal J. Jafree, David A. Long, Amina Al-Yassin, Karen P. Steel, Daniel J. Jagger, Andrew Forge, Wolfgang Berger, Jane C. Sowden, Maria Bitner-Glindzicz

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Figure 7

Postnatal onset of morphological abnormalities in stria vascularis capillaries in Ndp-KO.

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Postnatal onset of morphological abnormalities in stria vascularis capil...
The stria vascularis of 1-month-old mice was examined with an antibody targeting endomucin. (A and B) Panels display the middle-apical region of the stria vascularis cropped from a 3D image of whole cochleae from WT (A) and Ndp-KO (B) mice. The regions indicated by perforated boxes in A and B are displayed in adjacent panels. White arrows indicate dilated capillaries, white arrowheads indicate narrow capillaries and regions with sparse vessels. (CH) The apical region of the stria vascularis was isolated and examined with GS-IB4. WT and Ndp-KO were examined at P10 (C and D), P20 (E and F), and 1 month (G and H). White arrowheads indicate intercapillary regions that are small and circular/oval in structure. (I) Quantification of vessel diameter and shape descriptor measurements of intercapillary regions for P10 stria vascularis; n = 5 WT, n = 5 Ndp-KO; bars indicate mean ± SD. (J) Quantification of vessel diameter in P20 and 1 month stria vascularis; n = 3 WT, n = 3 Ndp-KO; bars indicate mean ± SD. I (circularity) and J analyzed with an unpaired t test, I (vessel diameter and solidity) analyzed with Mann-Whitney test; *P < 0.05, **P < 0.01. Scale bars: 50 μm.