Phenotypes associated with this allele

• Allele Symbol: Adgrv1^tm1Pwh
• Allele Name: targeted mutation 1, Perrin C White
• Allele ID: MGI:3046273
• Summary: 1 genotype

Jump to	Allelic Composition	Genetic Background	Genotype ID
hm1	Adgrv1^tm1Pwh/Adgrv1^tm1Pwh	involves: 129S1/Sv * C57BL/6J	MGI:3046274

Genotype
MGI:3046274

hm1

• Allelic Composition: Adgrv1^tm1Pwh/Adgrv1^tm1Pwh
• Genetic Background: involves: 129S1/Sv * C57BL/6J

• ♀: phenotype observed in females
• ♂: phenotype observed in males
• N: normal phenotype

mortality/aging

increased susceptibility to induced morbidity/mortality ( J:90899 )

• without intervention audiogenic seizures frequently result in death as a result of respiratory distress

behavior/neurological

audiogenic seizures ( J:90899 )

• a high intensity sound stimulus triggers audiogenic seizures that frequently continue to full tonic-clonic extension

hearing/vestibular/ear

abnormal cochlear hair cell stereociliary bundle morphology ( J:109595 )

• by P2, homozygotes exhibit a disorganized cochlear hair bundle morphology, which is more prominent at P4

• no further exacerbation of hair bundle morphology occurs with increasing age, as determined at P28

absent cochlear hair bundle ankle links ( J:109595 )

• at P2, ankle links are absent from both cochlear inner and outer hair cell stereociliary bundles

• surprisingly, ankle links in mutant vestibular hair cell stereociliary bundles appear unaffected

abnormal inner hair cell stereociliary bundle morphology ( J:109595 )

abnormal outer hair cell stereociliary bundle morphology ( J:109595 )

• at P2, many of the homozygous mutant OHC stereociliary bundles in apical coils display a less sharply defined V-shape relative to those in heterozygous OHCs

• by P4, mutant OHC stereociliary bundles display a more rounded shape and lack bilateral symmetry

abnormal orientation of outer hair cell stereociliary bundles ( J:109595 )

• by P4, mutant OHC stereociliary bundles exhibit a degree of disorientation

cochlear inner hair cell degeneration ( J:109595 )

• by 2 months, homozygotes exhibit significant IHC degeneration in the basal-most regions of the cochlea

cochlear outer hair cell degeneration ( J:109595 )

• by 2 months, homozygotes exhibit significant OHC degeneration in the basal half of the cochlea

• notably, loss of OHCs is prominent in the innermost row

pillar cell degeneration ( J:109595 )

• by 2 months, homozygotes display loss of inner and outer pillar cells in the basal-most regions of the cochlea

• loss of pillar cells results in complete collapse of the end organ in the basal cochlear turn

organ of Corti degeneration ( J:109595 )

• by 2 months, homozygotes exhibit significant degeneration of the organ of Corti in the basal, high frequency cochlear turn

• at 2 months, the middle and apical turns are less affected, although they do exhibit a disarray of stereociliary bundles

abnormal cochlear outer hair cell physiology ( J:109595 )

• single-cell recordings show that most cochlear OHCs fail to respond to fairly large hair bundle displacements by P7

abnormal hair cell mechanoelectric transduction ( J:109595 )

• FM1-43 dye loading expts indicate impaired mechanotransduction in both inner and outer cochlear hair cells

• 10 of 11 apical-coil OHCs obtained from homozygotes (aged P6-P8) exhibit absence of transduction currents with stimuli covering a wide range of bundle positions; the one transducing OHC had maximal currents of only 20 pA

• in contrast to cochlear hair cells, transduction currents obtained from vestibular (utricular) hair cells remain unaffected, consistent with a normal gait and balance behavior

increased or absent threshold for auditory brainstem response ( J:109595 )

• at 3 weeks, homozygotes display elevated ABR thresholds by ~20 dB for responses to low frequency stimulation (2-2.8 kHz) and by ~60 dB for responses to higher frequency stimuli

• by 6 months, average threshold values are increased by ~10 dB for responses to higher frequency stimuli (>10 kHz), with values of 95-100 dB SPL regardless of stimulus frequency

• fewer 6-mo-old homozygotes are responseive to highest levels of stimulation (>105 dB SPL) at high frequencies (>10 kHz) relative to 3-wk-old homozygotes

absent distortion product otoacoustic emissions ( J:109595 )

• at 2 months, homozygotes completely lack distortion product otoacoustic emissions (DPOAEs), indicating failure of OHC to amplify basilar membrane motion

deafness ( J:109595 )

• ABRs indicate that homozygotes are profoundly deaf by 3 weeks of age

• acoustic sensitivity is progressively decreased over the following month

vision/eye

abnormal cone electrophysiology ( J:109595 )

• at 15 months, the amplitudes of component waves of electroretinograms are reduced by 26-37% for all stimulus conditions in light-adapted cone-only responses

• however, no gross retinal abnormalities (i.e. retinitis pigmentosa) are detected by funduscopic or histological analyses

abnormal vision ( J:109595 )

• homozygotes exhibit age-related loss of visual function

nervous system

audiogenic seizures ( J:90899 )

• a high intensity sound stimulus triggers audiogenic seizures that frequently continue to full tonic-clonic extension

abnormal cochlear hair cell stereociliary bundle morphology ( J:109595 )

• by P2, homozygotes exhibit a disorganized cochlear hair bundle morphology, which is more prominent at P4

• no further exacerbation of hair bundle morphology occurs with increasing age, as determined at P28

absent cochlear hair bundle ankle links ( J:109595 )

• at P2, ankle links are absent from both cochlear inner and outer hair cell stereociliary bundles

• surprisingly, ankle links in mutant vestibular hair cell stereociliary bundles appear unaffected

abnormal inner hair cell stereociliary bundle morphology ( J:109595 )

abnormal outer hair cell stereociliary bundle morphology ( J:109595 )

• at P2, many of the homozygous mutant OHC stereociliary bundles in apical coils display a less sharply defined V-shape relative to those in heterozygous OHCs

• by P4, mutant OHC stereociliary bundles display a more rounded shape and lack bilateral symmetry

abnormal orientation of outer hair cell stereociliary bundles ( J:109595 )

• by P4, mutant OHC stereociliary bundles exhibit a degree of disorientation

cochlear inner hair cell degeneration ( J:109595 )

• by 2 months, homozygotes exhibit significant IHC degeneration in the basal-most regions of the cochlea

cochlear outer hair cell degeneration ( J:109595 )

• by 2 months, homozygotes exhibit significant OHC degeneration in the basal half of the cochlea

• notably, loss of OHCs is prominent in the innermost row

abnormal cochlear outer hair cell physiology ( J:109595 )

• single-cell recordings show that most cochlear OHCs fail to respond to fairly large hair bundle displacements by P7

abnormal hair cell mechanoelectric transduction ( J:109595 )

• FM1-43 dye loading expts indicate impaired mechanotransduction in both inner and outer cochlear hair cells

• 10 of 11 apical-coil OHCs obtained from homozygotes (aged P6-P8) exhibit absence of transduction currents with stimuli covering a wide range of bundle positions; the one transducing OHC had maximal currents of only 20 pA

• in contrast to cochlear hair cells, transduction currents obtained from vestibular (utricular) hair cells remain unaffected, consistent with a normal gait and balance behavior

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Usher syndrome type 2C		DOID:0110839	OMIM:605472	J:109595