双纯合子华尔兹小鼠和艾姆斯华尔兹小鼠没有视网膜变性的迹象。

Double homozygous waltzer and Ames waltzer mice provide no evidence of retinal degeneration.

作者信息

Ahmed Zubair M, Kjellstrom Sten, Haywood-Watson Ricky J L, Bush Ronald A, Hampton Lori L, Battey James F, Riazuddin Saima, Frolenkov Gregory, Sieving Paul A, Friedman Thomas B

机构信息

National Institute on Deafness and Other Communication Disorders, NIH, Rockville, MD 20850, USA.

出版信息

Mol Vis. 2008;14:2227-36. Epub 2008 Dec 8.

PMID:19057657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2593751/

Abstract

PURPOSE

To determine whether cadherin 23 and protocadherin 15 can substitute for one another in the maintenance of the retina and other tissues in the mouse. Does homozygosity for both v and av mutant alleles (i.e., a double homozygous mouse) cause retinal degeneration or an obvious retinal histopathology?

METHODS

We generated mice homozygous for both Cdh23(v-6J) and Pcdh15(av-Jfb) alleles. The retinal phenotypes of double heterozygous and double homozygous mutant mice were determined by light microscopy and electroretinography (ERG). Histology on 32 different tissues, scanning electron microscopy of organ of Corti hair cells as well as serum biochemical and hematological examinations were evaluated.

RESULTS

ERG waves of double heterozygous and double homozygous mice showed similar shape, growth of the amplitude with intensity, and implicit time for both rod and cone pathway mediated responses. Mice homozygous for both Cdh23(v-6J) and Pcdh15(av-Jfb) mutations showed no sign of retinitis pigmentosa or photoreceptor degeneration but, as expected, were deaf and had disorganized hair cell sensory bundles.

CONCLUSIONS

The simultaneous presence of homozygous mutant alleles of cadherin 23 and protocadherin 15 results only in deafness, not retinal degeneration or any other additional obvious phenotype of the major organ systems. We conclude that in the mouse cadherin 23 or protocadherin 15 appear not to compensate for one another to maintain the retina.

摘要

目的

确定钙黏蛋白23和原钙黏蛋白15在维持小鼠视网膜及其他组织方面是否能相互替代。v和av突变等位基因均为纯合子（即双纯合小鼠）是否会导致视网膜变性或明显的视网膜组织病理学改变？

方法

我们培育出了Cdh23(v-6J)和Pcdh15(av-Jfb)等位基因均为纯合子的小鼠。通过光学显微镜和视网膜电图（ERG）确定双杂合和双纯合突变小鼠的视网膜表型。对32种不同组织进行组织学检查，对柯蒂氏器毛细胞进行扫描电子显微镜检查，并评估血清生化和血液学检查结果。

结果

双杂合和双纯合小鼠的ERG波显示出相似的形状、随强度增加的振幅以及视杆和视锥通路介导反应的隐含时间。Cdh23(v-6J)和Pcdh15(av-Jfb)突变均为纯合子的小鼠没有视网膜色素变性或光感受器变性的迹象，但正如预期的那样，它们是聋的，并且毛细胞感觉束紊乱。

结论

钙黏蛋白23和原钙黏蛋白15的纯合突变等位基因同时存在仅导致耳聋，而非视网膜变性或主要器官系统的任何其他明显额外表型。我们得出结论，在小鼠中，钙黏蛋白23或原钙黏蛋白15似乎不能相互补偿以维持视网膜。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3032/2593751/d68fbb2d0969/mv-v14-2227-f1.jpg

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双纯合子华尔兹小鼠和艾姆斯华尔兹小鼠没有视网膜变性的迹象。

Double homozygous waltzer and Ames waltzer mice provide no evidence of retinal degeneration.

作者信息

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出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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