Targeted disruption of the Kvlqt1 gene causes deafness and gastric hyperplasia in mice
Maxwell P. Lee, … , Robert J. Coffey, Andrew P. Feinberg
Maxwell P. Lee, … , Robert J. Coffey, Andrew P. Feinberg
Published December 15, 2000
Citation Information: J Clin Invest. 2000;106(12):1447-1455. https://doi.org/10.1172/JCI10897.
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Article

Targeted disruption of the Kvlqt1 gene causes deafness and gastric hyperplasia in mice

Abstract

The KvLQT1 gene encodes a voltage-gated potassium channel. Mutations in KvLQT1 underlie the dominantly transmitted Ward-Romano long QT syndrome, which causes cardiac arrhythmia, and the recessively transmitted Jervell and Lange-Nielsen syndrome, which causes both cardiac arrhythmia and congenital deafness. KvLQT1 is also disrupted by balanced germline chromosomal rearrangements in patients with Beckwith-Wiedemann syndrome (BWS), which causes prenatal overgrowth and cancer. Because of the diverse human disorders and organ systems affected by this gene, we developed an animal model by inactivating the murine Kvlqt1. No electrocardiographic abnormalities were observed. However, homozygous mice exhibited complete deafness, as well as circular movement and repetitive falling, suggesting imbalance. Histochemical study revealed severe anatomic disruption of the cochlear and vestibular end organs, suggesting that Kvlqt1 is essential for normal development of the inner ear. Surprisingly, homozygous mice also displayed threefold enlargement by weight of the stomach resulting from mucous neck cell hyperplasia. Finally, there were no features of BWS, suggesting that Kvlqt1 is not responsible for BWS.

Authors

Maxwell P. Lee, Jason D. Ravenel, Ren-Ju Hu, Lawrence R. Lustig, Gordon Tomaselli, Ronald D. Berger, Sheri A. Brandenburg, Tracy J. Litzi, Tracie E. Bunton, Charles Limb, Howard Francis, Melissa Gorelikow, Hua Gu, Kay Washington, Pedram Argani, James R. Goldenring, Robert J. Coffey, Andrew P. Feinberg

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Figure 3

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Cochlear histopathology of Kvlqt1 knockout mouse. (a) Normal histology o...
Cochlear histopathology of Kvlqt1 knockout mouse. (a) Normal histology of unaffected heterozygous mouse for comparison. (b and c) Base (b) and apex (c) of affected homozygous knockout mouse, showing complete loss of hair cells and supporting cells from the organ of Corti, which is replaced by fibrosis between the tectorial membrane and the basilar membrane (open arrow). The cell density in the spiral ganglion (SG) is decreased in the base but normal in the apex. There is marked degeneration of the stria vascularis (SV) throughout the cochlea, with more dramatic loss seen in the basal and middle half-turns. Reissner’s membrane is adherent to the spiral ligament and the tectorial membrane in the basal regions of the cochlea, resulting in the obliteration of the scala media (filled arrow in b). The reduction of the scala media volume is more severe in the base than in the apex. IHC, inner hair cells; OHC, outer hair cells; RM, Reissner’s membrane; TM, tectorial membrane; TC, tunnel of Corti.