Although CLIC5 is a member of the chloride intracellular channel protein family, its association with actin-based cytoskeletal structures suggests that it may play an important role in their assembly or maintenance. Mice homozygous for a new spontaneous recessive mutation of the Clic5 gene, named jitterbug ( jbg), exhibit impaired hearing and vestibular dysfunction. The jbg mutation is a 97 bp intragenic deletion that causes skipping of exon 5, which creates a translational frame shift and premature stop codon. Western blot and immunohistochemistry results confirmed the predicted absence of CLIC5 protein in tissues of jbg/jbg mutant mice. Histological analysis of mutant inner ears revealed dysmorphic stereocilia and progressive hair cell degeneration. In wild-type mice, CLIC5-specific immunofluorescence was detected in stereocilia of both cochlear and vestibular hair cells and also along the apical surface of Kolliker's organ during cochlear development. Refined immunolocalization in rat and chicken vestibular hair cells showed that CLIC5 is limited to the basal region of the hair bundle, similar to the known location of radixin. Radixin immunostaining appeared reduced in hair bundles of jbg mutant mice. By mass spectrometry and immunoblotting, CLIC5 was shown to be expressed at high levels in stereocilia of the chicken utricle, in an approximate 1:1 molar ratio with radixin. These results suggest that CLIC5 associates with radixin in hair cell stereocilia and may help form or stabilize connections between the plasma membrane and the filamentous actin core.
Mutations in genes coding for cadherin 23 and protocadherin 15 cause deafness in both mice and humans. Here, we provide evidence that mutations at these two cadherin loci can interact to cause hearing loss in digenic heterozygotes of both species. Using a classical genetic approach, we generated mice that were heterozygous for both Cdh23 and Pcdh15 mutations on a uniform C57BL/6J background. Significant levels of hearing loss were detected in these mice when compared to age-matched single heterozygous animals or normal controls. Cytoarchitectural defects in the cochlea of digenic heterozygotes, including degeneration of the stereocilia and a base-apex loss of hair cells and spiral ganglion cells, were consistent with the observed age-related hearing loss of these mice beginning with the high frequencies. In humans, we also have obtained evidence for a digenic inheritance of a USH1 phenotype in three unrelated families with mutations in CDH23 and PCDH15. Altogether, our data indicate that CDH23 and PCDH15 play an essential long-term role in maintaining the normal organization of the stereocilia bundle.
We report a novel mutation (erlong, erl) of the cadherin 23 (Cdh23) gene in a mouse model for DFNB12 characterized by progressive hearing loss beginning from post-natal day 27 (P27). Genetic and sequencing analysis revealed a 208T>C transition causing an amino acid substitution (70S-P). Caspase expression was up-regulated in mutant inner ears. Hearing was preserved (up to 35-dB improvement) in pan-caspase inhibitor Z-VAD-FMK-treated mutants compared to untreated mutants (P < 0.05). Outer hair cell (OHC) loss in the cochleae of Z-VAD-FMK-treated mutants was significantly reduced compared to those of untreated mice. Thus, the erl mutation can lead to hearing loss through apoptosis. This is the first genetic mouse model of hearing loss shown to respond to otoprotective drug therapy. The short interval from initial hearing loss to deafness (P27-P90) makes this model ideal for screening and validating otoprotective drugs.
The ahl locus, shown to be a strain-specific Cdh23 dimorphism, contributes to age-related hearing loss in many inbred mouse strains. A/J mice begin to lose hearing by 4 weeks of age, much earlier than C57BL/6J (B6) mice, although both strains have the same Cdh23(ahl) variant. Here, we use recombinant inbred strains, chromosome substitution strains, and a linkage backcross to map a locus on distal Chromosome 10, designated ahl4, that contributes to the early-onset hearing loss of A/J mice. Cochleae of 9-week-old A/J mice exhibit inner and outer hair cell loss from the basal turn through the apical turn, with outer hair cell loss at the base being severest. To quantify the progression of hair cell loss, cytocochleograms were evaluated from 0 to 20 weeks of age. A/J mice showed evidence of hair cell loss in the base of the cochlea as early as 14 days of age and the magnitude and extent of loss increased rapidly during the following 2-5 months. Hair cell loss occurred earlier and was much more severe and widespread in A/J mice than in B6 mice during the first 5 months of age. Spiral ganglion neurons, cells of the stria vascularis, and vestibular hair cell densities, however, appeared normal in 20-week-old A/J mice.
The DBA/2J inbred strain of mice is used extensively in hearing research, yet little is known about the genetic basis for its early onset, progressive hearing loss. To map underlying genetic factors we analyzed recombinant inbred strains and linkage backcrosses. Analysis of 213 mice from 31 BXD recombinant inbred strains detected linkage of auditory brainstem response (ABR) thresholds with a locus on distal Chromosome 11, which we designate ahl8. Analysis of 225 N2 mice from a backcross of (C57BL/6J × DBA/2J) F1 hybrids to DBA/2J mice confirmed this linkage (LOD>50) and refined the ahl8 candidate gene interval. Analysis of 214 mice from a backcross of (B6.CAST-Cdh23Ahl+ × DBA/2J) F1 hybrids to DBA/2J mice demonstrated a genetic interaction of Cdh23 with ahl8. We conclude that ahl8 is a major contributor to the hearing loss of DBA/2J and that its effects are dependent on the predisposing Cdh23ahl genotype of this strain.
Streptococcus pneumoniae is the most common pathogen associated with otitis media. To examine the role of Toll-like receptor 2 (TLR2) in host defense against Streptococcus pneumoniae infection in the middle ear, wild-type (WT; C57BL/6) and TLR2-deficient (TLR2 ؊/؊ ) mice were inoculated with Streptococcus pneumoniae (1 ؋ 10 6 CFU) through the tympanic membrane. Nineteen of 37 TLR2 ؊/؊ mice showed bacteremia and died within 3 days after the challenge, compared to only 4 of 32 WT mice that died. Of those that survived, more severe hearing loss in the TLR2 ؊/؊ mice than in the WT mice was indicated by an elevation in auditory-evoked brain stem response thresholds at 3 or 7 days postinoculation. The histological pathology was characterized by effusion and tissue damage in the middle ear, and in the TLR2 ؊/؊ mice, the outcome of infection became more severe at 7 days. At both 3 and 7 days postchallenge, the TLR2 ؊/؊ mice had higher blood bacterial titers than the WT mice (P < 0.05), and typical bacteria were identified in the effusion from both ears of both mouse groups by acridine orange staining. Moreover, by 3 days postchallenge, the mRNA accumulation levels of NF-B, tumor necrosis factor alpha, interleukin 1, MIP1␣, Muc5ac, and Muc5b were significantly lower in the ears of TLR2 ؊/؊ mice than in WT mice. In summary, TLR2 ؊/؊ mice may produce relatively low levels of proinflammatory cytokines following pneumococcal challenge, thus hindering the clearance of bacteria from the middle ear and leading to sepsis and a high mortality rate. This study provides evidence that TLR2 is important in the molecular pathogenesis and host response to otitis media.Streptococcus pneumoniae, a gram-positive bacterium, is one of the two most common pathogens involved in acute middle ear infection, which frequently leads to acquired hearing loss and communication disorders in children (20). The first line of host defense against bacterial infection by the innate immune system is essentially initiated by Toll-like receptors (TLRs), family-pattern-recognition receptors that detect and respond to microbial ligands (3). TLR2 mediates host responses to gram-positive bacterial cell wall components such as peptidoglycan (PGN), lipoteichoic acids (LTA), and lipoproteins (1, 37). TLR2 may function as a regulator of inflammation, and abnormal immune inflammatory responses develop in the absence of TLR2. In humans, one mutation in the TLR2 gene results in an Arg753Gln polymorphism that predisposes individuals to life-threatening bacterial infections (22). TLR2-deficient (TLR2 Ϫ/Ϫ ) mice succumb to Mycobacterium tuberculosis infection (6) and are highly susceptible to Staphylococcus aureus infection (32). TLR2 Ϫ/Ϫ mice show delayed pneumococcal phagocytosis and impaired oxidative killing by granulocytes (17). Studies have also demonstrated that TLR2 participates in the mediation of the immune response in experimental pneumococcal meningitis (16,18) and that mice with a targeted disruption of the TLR2 gene are more susceptible to meningitis-induce...
Both the ahl allele of Cdh23 and the null mutation of Sod1 have been shown to contribute to age-related hearing loss (AHL) in mice, but mixed strain backgrounds have confounded analyses of their individual and combined effects. To test for the effects of Sod1 deficiency independently from those of Cdh23ahl, we produced mice with four digenic genotypes: Sod1+/+Cdh23ahl/ahl, Sod1+/+ Cdh23+/+, Sod1−/− Cdh23ahl/ahl, and Sod1−/− Cdh23+/+, all on a uniform C57BL/6J strain background. We assessed hearing loss by ABR threshold measurements and evaluated cochlear pathologies in age-matched mice of each digenic combination. ABR analysis showed that Sod1+/+ Cdh23+/+ mice retain normal hearing up to 15 months of age and that hearing loss of Sod1+/+ Cdh23ahl/ahl mice is more age and frequency dependent than that of Sod1−/− Cdh23+/+ mice. ABR results also showed that mice with both gene mutations (Sod1−/− Cdh23ahl/ahl) exhibit the earliest onset and most severe hearing loss, greater than predicted for strictly additive effects. Histological analysis of cochleas showed that hair cell lesions are most severe in Sod1−/− Cdh23ahl/ahl mice followed closely by Sod1+/+ Cdh23ahl/ahl mice and much smaller in Sod1−/− Cdh23+/+ and Sod1+/+ Cdh23+/+ mice. Despite extensive damage to cochlear hair cells, vestibular hair cells appeared remarkably normal in all strains. Although both Sod1−/− and Cdh23ahl/ahl genotypes had strong effects on hearing loss, the Cdh23ahl/ahl genotype was primarily responsible for the increase in hair cell loss, suggesting that the two mutations have different underlying mechanisms of pathology.
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