Literature DB >> 23020089

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

Christina Ni1, Deming Zhang, Lisa A Beyer, Karin E Halsey, Hideto Fukui, Yehoash Raphael, David F Dolan, Thomas J Hornyak.   

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.
© 2012 John Wiley & Sons A/S.

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Year:  2012        PMID: 23020089      PMCID: PMC4629244          DOI: 10.1111/pcmr.12030

Source DB:  PubMed          Journal:  Pigment Cell Melanoma Res        ISSN: 1755-1471            Impact factor:   4.693


  35 in total

1.  c-Kit triggers dual phosphorylations, which couple activation and degradation of the essential melanocyte factor Mi.

Authors:  M Wu; T J Hemesath; C M Takemoto; M A Horstmann; A G Wells; E R Price; D Z Fisher; D E Fisher
Journal:  Genes Dev       Date:  2000-02-01       Impact factor: 11.361

2.  A syndrome of deaf-mutism associated with albinism showing dominant autosomal inheritance.

Authors:  W TIETZ
Journal:  Am J Hum Genet       Date:  1963-09       Impact factor: 11.025

3.  MITF and cell proliferation: the role of alternative splice forms.

Authors:  Keren Bismuth; Dragan Maric; Heinz Arnheiter
Journal:  Pigment Cell Res       Date:  2005-10

Review 4.  The sensory and motor roles of auditory hair cells.

Authors:  Robert Fettiplace; Carole M Hackney
Journal:  Nat Rev Neurosci       Date:  2006-01       Impact factor: 34.870

Review 5.  Cochlear outer hair cell motility.

Authors:  Jonathan Ashmore
Journal:  Physiol Rev       Date:  2008-01       Impact factor: 37.312

6.  A new syndrome combining developmental anomalies of the eyelids, eyebrows and nose root with pigmentary defects of the iris and head hair and with congenital deafness.

Authors:  P J WAARDENBURG
Journal:  Am J Hum Genet       Date:  1951-09       Impact factor: 11.025

7.  Mitf cooperates with Rb1 and activates p21Cip1 expression to regulate cell cycle progression.

Authors:  Suzanne Carreira; Jane Goodall; Isil Aksan; S Anna La Rocca; Marie-Dominique Galibert; Laurence Denat; Lionel Larue; Colin R Goding
Journal:  Nature       Date:  2005-02-17       Impact factor: 49.962

8.  Mutation of the MITF gene in albinism-deafness syndrome (Tietz syndrome).

Authors:  J Amiel; P M Watkin; M Tassabehji; A P Read; R M Winter
Journal:  Clin Dysmorphol       Date:  1998-01       Impact factor: 0.816

Review 9.  Review and update of mutations causing Waardenburg syndrome.

Authors:  Véronique Pingault; Dorothée Ente; Florence Dastot-Le Moal; Michel Goossens; Sandrine Marlin; Nadège Bondurand
Journal:  Hum Mutat       Date:  2010-04       Impact factor: 4.878

10.  MITF links differentiation with cell cycle arrest in melanocytes by transcriptional activation of INK4A.

Authors:  Amy E Loercher; Elizabeth M H Tank; Rachel B Delston; J William Harbour
Journal:  J Cell Biol       Date:  2004-12-28       Impact factor: 10.539
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  15 in total

1.  Creation of miniature pig model of human Waardenburg syndrome type 2A by ENU mutagenesis.

Authors:  Tang Hai; Weiwei Guo; Jing Yao; Chunwei Cao; Ailing Luo; Meng Qi; Xianlong Wang; Xiao Wang; Jiaojiao Huang; Ying Zhang; Hongyong Zhang; Dayu Wang; Haitao Shang; Qianlong Hong; Rui Zhang; Qitao Jia; Qiantao Zheng; Guosong Qin; Yongshun Li; Tao Zhang; Weiwu Jin; Zheng-Yi Chen; Hongmei Wang; Qi Zhou; Anming Meng; Hong Wei; Shiming Yang; Jianguo Zhao
Journal:  Hum Genet       Date:  2017-11-01       Impact factor: 4.132

2.  Perivascular macrophage-like melanocyte responsiveness to acoustic trauma--a salient feature of strial barrier associated hearing loss.

Authors:  Fei Zhang; Min Dai; Lingling Neng; Jin Hui Zhang; Zhongwei Zhi; Anders Fridberger; Xiaorui Shi
Journal:  FASEB J       Date:  2013-05-31       Impact factor: 5.191

3.  Identification of a novel heterozygous mutation in the MITF gene in an Iranian family with Waardenburg syndrome type II using next-generation sequencing.

Authors:  Mahzad Nasirshalal; Mohammad Panahi; Nahid Javanshir; Hamzeh Salmani
Journal:  J Clin Lab Anal       Date:  2021-05-04       Impact factor: 2.352

4.  An L1 retrotransposon insertion-induced deafness mouse model for studying the development and function of the cochlear stria vascularis.

Authors:  Chenmeng Song; Jie Li; Shuang Liu; Hanqing Hou; Tong Zhu; Jiaofeng Chen; Lian Liu; Yichang Jia; Wei Xiong
Journal:  Proc Natl Acad Sci U S A       Date:  2021-10-05       Impact factor: 11.205

5.  Identifying microRNAs involved in aging of the lateral wall of the cochlear duct.

Authors:  Qian Zhang; Huizhan Liu; Garrett A Soukup; David Z Z He
Journal:  PLoS One       Date:  2014-11-18       Impact factor: 3.240

Review 6.  The Nervous System Orchestrates and Integrates Craniofacial Development: A Review.

Authors:  Igor Adameyko; Kaj Fried
Journal:  Front Physiol       Date:  2016-02-19       Impact factor: 4.566

7.  Organ of Corti and Stria Vascularis: Is there an Interdependence for Survival?

Authors:  Huizhan Liu; Yi Li; Lei Chen; Qian Zhang; Ning Pan; David H Nichols; Weiping J Zhang; Bernd Fritzsch; David Z Z He
Journal:  PLoS One       Date:  2016-12-28       Impact factor: 3.240

8.  Whole-genome sequences of 89 Chinese sheep suggest role of RXFP2 in the development of unique horn phenotype as response to semi-feralization.

Authors:  Zhangyuan Pan; Shengdi Li; Qiuyue Liu; Zhen Wang; Zhengkui Zhou; Ran Di; Benpeng Miao; Wenping Hu; Xiangyu Wang; Xiaoxiang Hu; Ze Xu; Dongkai Wei; Xiaoyun He; Liyun Yuan; Xiaofei Guo; Benmeng Liang; Ruichao Wang; Xiaoyu Li; Xiaohan Cao; Xinlong Dong; Qing Xia; Hongcai Shi; Geng Hao; Jean Yang; Cuicheng Luosang; Yiqiang Zhao; Mei Jin; Yingjie Zhang; Shenjin Lv; Fukuan Li; Guohui Ding; Mingxing Chu; Yixue Li
Journal:  Gigascience       Date:  2018-04-01       Impact factor: 6.524

9.  Meningeal Melanocytes in the Mouse: Distribution and Dependence on Mitf.

Authors:  Stefán A H Gudjohnsen; Diahann A M Atacho; Franck Gesbert; Graca Raposo; Ilse Hurbain; Lionel Larue; Eirikur Steingrimsson; Petur Henry Petersen
Journal:  Front Neuroanat       Date:  2015-11-25       Impact factor: 3.856

10.  Cochlear morphology in the developing inner ear of the porcine model of spontaneous deafness.

Authors:  Wei Chen; Qing-Qing Hao; Li-Li Ren; Wei Ren; Hui-Sang Lin; Wei-Wei Guo; Shi-Ming Yang
Journal:  BMC Neurosci       Date:  2018-05-02       Impact factor: 3.288
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