Ush1c216A knock-in mouse survives Katrina

Usher syndrome is the most common cause of inherited deafness found in combination with blindness. All Usher patients suffer progressive retinitis pigmentosa, with the degree of hearing impairment and the presence or absence of vestibular function differing among subtypes. A cryptic splice site mutation (216G -> A) in exon 3 of the USH1C gene on chromosome 11 p, which encodes a PDZ-domain protein, hannonin, was found in Acadian Usher type IC patients in south Louisiana. In vitro analysis using constructs containing the mutant 216A and subsequent analysis of patient cell lines revealed a deletion of 35 bases in the transcript. In order to analyze the impact of this frame-shift mutation, we created a knock-in mouse model containing the human 216G -> A mutation. A targeting construct was made containing 5' and 3' homology arms, each 4 kb in length, and a 650 base pair fragment containing exons 3 and 4 of human USHIC cloned from an Acadian patient homozygous for the 216A mutation. W4/129S6 embryonic stem (ES) cells were electroporated with the targeting construct, and after 10 days of neomycin selection, clones were picked and screened by polymerase chain reaction (PCk) and Southern blot analysis for homologous recombination. Two positive clones for targeted insertion were microinjected into C5713L/6 blastocysts which were then transplanted into pseudo-pregnant females. Chimeras were bred with Cre recombinase-expres sing mice for simultaneous deletion of the neomycin gene and genTiline transmission of the 216A allele. Homozygous Ushlc216A (216AA) mice are hyperactive, display circling and head tossing behavior, and do not have a Preyer reflex at 21-25 days old. RT-PCR analysis of the cochlea and retina from 216AA mice shows the same 35 base deletion characteristic of Usher IC patients. (c) 2006 Elsevier B.V. All rights reserved.