Your search keyword '"Dolan, David F."' showing total 6 results

1. Transgenic Mouse Model of the Mild Dominant Form of Osteogenesis Imperfecta

Author

Bonadio, Jeffrey, Saunders, Thomas L., Tsai, Eugene, Goldstein, Steven A., Morris-Wiman, Joyce, Brinkley, Linda, Dolan, David F., Altschuler, Richard A., Hawkins,, Joseph E., Bateman, John F., Mascara, Thomas, and Jaenisch, Rudolf

Published

1990

2. Hearing dysfunction in heterozygous Mitf Mi-wh/+ mice, a model for Waardenburg syndrome type 2 and Tietz syndrome.

Author

Ni, Christina, Zhang, Deming, Beyer, Lisa A., Halsey, Karin E., Fukui, Hideto, Raphael, Yehoash, Dolan, David F., and Hornyak, Thomas J.

Subjects

HEARING disorders, KLEIN-Waardenburg syndrome, TIETZE'S syndrome, ETIOLOGY of diseases, GENETIC mutation, EMBRYOLOGY, MICROPHTHALMIA-associated transcription factor, LABORATORY mice

Abstract

The human deafness-pigmentation syndromes, Waardenburg syndrome ( WS) type 2a, and Tietz syndrome are characterized by profound deafness but only partial cutaneous pigmentary abnormalities. Both syndromes are caused by mutations in MITF. To illuminate differences between cutaneous and otic melanocytes in these syndromes, their development and survival in heterozygous Microphthalmia- White ( Mitf Mi-wh/+) mice were studied and hearing function of these mice characterized. Mitf Mi-wh/+ mice have a profound hearing deficit, characterized by elevated auditory brainstem response thresholds, reduced distortion product otoacoustic emissions, absent endocochlear potential, loss of outer hair cells, and stria vascularis abnormalities. Mitf Mi-wh/+ embryos have fewer melanoblasts during embryonic development than their wild-type littermates. Although cochlear melanocytes are present at birth, they disappear from the Mitf Mi-wh/+ cochlea between P1 and P7. These findings may provide insight into the mechanism of melanocyte and hearing loss in human deafness-pigmentation syndromes such as WS and Tietz syndrome and illustrate differences between otic and follicular melanocytes. [ABSTRACT FROM AUTHOR]

Published

2013

3. Whirler mutant hair cells have less severe pathology than shaker 2 or double mutants.

Author

Mustapha, Mirna, Beyer, Lisa, Izumikawa, Masahiko, Swiderski, Donald, Dolan, David, Raphael, Yehoash, Camper, Sally, Beyer, Lisa A, Swiderski, Donald L, Dolan, David F, and Camper, Sally A

Subjects

MUSCLE protein metabolism, ANIMAL experimentation, CELLS, CYTOPLASM, HAIR cells, HEARING, INNER ear, MEMBRANE proteins, MICE, GENETIC mutation, MYOSIN, RESEARCH funding, PHENOTYPES, GENETIC carriers, GENOTYPES, PHYSIOLOGY

Abstract

MYOSIN XV is a motor protein that interacts with the PDZ domain-containing protein WHIRLIN and transports WHIRLIN to the tips of the stereocilia. Shaker 2 (sh2) mice have a mutation in the motor domain of MYOSIN XV and exhibit congenital deafness and circling behavior, probably because of abnormally short stereocilia. Whirler (wi) mice have a similar phenotype caused by a deletion in the third PDZ domain of WHIRLIN. We compared the morphology of Whrn (wi/wi) and Myo15 (sh2/sh2) sensory hair cells and found that Myo15 (sh2/sh2) have more frequent pathology at the base of inner hair cells than Whrn (wi/wi), and shorter outer hair cell stereocilia. Considering the functional and morphologic similarities in the phenotypes caused by mutations in Myo15 and Whrn, and the physical interaction between their encoded proteins, we used a genetic approach to test for functional overlap. Double heterozygotes (Myo15 (sh2/+), Whrn (wi/+)) have normal hearing and no increase in hearing loss compared to normal littermates. Single and double mutants (Myo15 (sh2/sh2), Whrn (wi/wi)) exhibit abnormal persistence of kinocilia and microvilli, and develop abnormal cytoskeletal architecture. Double mutants are also similar to the single mutants in viability, circling behavior, and lack of a Preyer reflex. The morphology of cochlear hair cell stereocilia in double mutants reflects a dominance of the more severe Myo15 (sh2/sh2) phenotype over the Whrn (wi/wi) phenotype. This suggests that MYOSIN XV may interact with other proteins besides WHIRLIN that are important for hair cell maturation. [ABSTRACT FROM AUTHOR]

Published

2007

4. Characterization of two transgene insertional mutations at pirouette, a mouse deafness locus.

Author

Odeh, Hana, Hagiwara, Nobuko, Skynner, Michael, Mitchem, Kristina L., Beyer, Lisa A., Allen, Nicholas D., Brilliant, Murray H., Lebart, M. C., Dolan, David F., Raphael, Yehoash, and Kohrman, David C.

Subjects

GENETIC mutation, MICE, DEAFNESS, VESTIBULAR apparatus diseases, CHROMOSOMES, INNER ear, ALLELES, ANIMAL experimentation, AUDITORY evoked response, BRAIN stem, CELL lines, COMPARATIVE studies, GENES, HAIR cells, IMMUNOHISTOCHEMISTRY, RESEARCH methodology, MEDICAL cooperation, MICROFILAMENT proteins, MUSCLE proteins, PHOSPHOPROTEINS, RESEARCH, RESEARCH funding, SCANNING electron microscopy, EVALUATION research, MEMBRANE glycoproteins, GENOTYPES

Abstract

The mouse mutant 'pirouette' (pi) exhibits profound hearing loss and vestibular defects due to inheritance of a recessive mutation on chromosome 5. Dysfunction has been correlated with defects during maturation of sensory cells in the inner ear. As an initial step in characterizing pirouette at the genetic level, we have localized the candidate interval to a small region on central chromosome 5 by analysis of a congenic strain of pirouette mice. This region exhibits conserved synteny with human chromosome 4 and suggests that pirouette may be a genetic model of the human nonsyndromic deafness disorder DFNB25, which has been localized to 4p15.3-q12. In addition to the original spontaneous pirouette strain, we have identified and characterized 2 additional mouse strains with allelic mutations at the same locus. Analysis of the morphology in each of the 3 pirouette alleles indicated very similar early postnatal alterations in maturation of stereocilia and suggests that the gene affected in pirouette normally plays a role in building or maintaining these structures that are critical for sensory mechanotransduction. [ABSTRACT FROM AUTHOR]

Published

2004

5. Genetic and phenotypic analysis of the mouse mutant mh2J, an Ap3d allele caused by IAP element insertion.

Author

Kantheti, Prameela, Diaz, Maria E., Peden, Andrew E., Seong, Eunju E., Dolan, David F., Robinson, Margaret S., Noebels, Jeffrey L., and Burmeister, Margit L.

Subjects

GOLGI apparatus, NERVOUS system, CEREBRAL cortex, GENETIC mutation, ZINC, MICE

Abstract

Mocha (mh), a mouse model for Hermansky-Pudlak syndrome (HPS), is characterized by platelet storage pool deficiency, pigment dilution, and deafness as well as neurological abnormalities. The trans-Golgi/endosome adaptor-related complex AP-3 is missing in mh mice owing to a deletion in the gene encoding the delta subunit. Mice mutant for a second allele, mh2J, are as hyperactive as mh, and display both spike wave absence and generalized tonic clonic seizures, but have less coat color dilution, no hearing loss, and no hypersynchronized EEG. Here we show that the mh2J mutation is due to an IAP element insertion in the Ap3d gene leading to a C-terminally truncated protein. Despite correct assembly of the AP-3 complex and localization to the trans-Golgi network and endosomes, AP-3 function in neurons remains impaired. While mh mice show a severe reduction of vesicular zinc (TIMM staining) owing to mislocalization and degradation of the Zinc transporter ZnT-3, the TIMM and ZnT-3 staining patterns in mh2J varies, with normal expression in hippocampal mossy fibers, but abnormal patterns in neocortex. These results indicate that the N-terminal portion of the delta subunit is sufficient for AP-3 complex assembly and subcellular localization to the TGN/endosomes, while subsequent function is regulated in part by cell-specific interactions with the C-terminal portion. [ABSTRACT FROM AUTHOR]

Published

2003

6. Mature middle and inner ears express Chd7 and exhibit distinctive pathologies in a mouse model of CHARGE syndrome

Author

Hurd, Elizabeth A., Adams, Meredith E., Layman, Wanda S., Swiderski, Donald L., Beyer, Lisa A., Halsey, Karin E., Benson, Jennifer M., Gong, Tzy-Wen, Dolan, David F., Raphael, Yehoash, and Martin, Donna M.

Subjects

*MIDDLE ear, *INNER ear, *CARRIER proteins, *CHARGE syndrome, *LABORATORY mice, *GENETIC mutation, *HAIR cells, *DEVELOPMENTAL neurobiology

Abstract

Abstract: Heterozygous mutations in the gene encoding chromodomain-DNA-binding-protein 7 (CHD7) cause CHARGE syndrome, a multiple anomaly condition which includes vestibular dysfunction and hearing loss. Mice with heterozygous Chd7 mutations exhibit semicircular canal dysgenesis and abnormal inner ear neurogenesis, and are an excellent model of CHARGE syndrome. Here we characterized Chd7 expression in mature middle and inner ears, analyzed morphological features of mutant ears and tested whether Chd7 mutant mice have altered responses to noise exposure and correlated those responses to inner and middle ear structure. We found that Chd7 is highly expressed in mature inner and outer hair cells, spiral ganglion neurons, vestibular sensory epithelia and middle ear ossicles. There were no obvious defects in individual hair cell morphology by Prestin immunostaining or scanning electron microscopy, and cochlear innervation appeared normal in Chd7Gt /+ mice. Hearing thresholds by auditory brainstem response (ABR) testing were elevated at 4 and 16 kHz in Chd7Gt /+ mice, and there were reduced distortion product otoacoustic emissions (DPOAE). Exposure of Chd7Gt /+ mice to broadband noise resulted in variable degrees of hair cell loss which inversely correlated with severity of stapedial defects. The degrees of hair cell loss and threshold shifts after noise exposure were more severe in wild type mice than in mutants. Together, these data indicate that Chd7Gt /+ mice have combined conductive and sensorineural hearing loss, correlating with changes in both middle and inner ears. [Copyright &y& Elsevier]

Published

2011