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巴德-比埃尔综合征蛋白的缺失会改变气道上皮中运动性纤毛的形态和功能。

Loss of Bardet-Biedl syndrome proteins alters the morphology and function of motile cilia in airway epithelia.

作者信息

Shah Alok S, Farmen Sara L, Moninger Thomas O, Businga Thomas R, Andrews Michael P, Bugge Kevin, Searby Charles C, Nishimura Darryl, Brogden Kim A, Kline Joel N, Sheffield Val C, Welsh Michael J

机构信息

Departments of Internal Medicine, Roy J. and Lucille A. Carver College of Medicine, University of Iowa, Iowa City, IA 52242, USA.

出版信息

Proc Natl Acad Sci U S A. 2008 Mar 4;105(9):3380-5. doi: 10.1073/pnas.0712327105. Epub 2008 Feb 25.

DOI:10.1073/pnas.0712327105
PMID:18299575
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2265193/
Abstract

Mutations in a group of genes that contribute to ciliary function cause Bardet-Biedl syndrome (BBS). Most studies of BBS have focused on primary, sensory cilia. Here, we asked whether loss of BBS proteins would also affect motile cilia lining the respiratory tract. We found that BBS genes were expressed in human airway epithelia, and BBS2 and BBS4 localized to cellular structures associated with motile cilia. Although BBS proteins were not required for ciliogenesis, their loss caused structural defects in a fraction of cilia covering mouse airway epithelia. The most common abnormality was bulges filled with vesicles near the tips of cilia. We discovered this same misshapen appearance in airway cilia from Bbs1, Bbs2, Bbs4, and Bbs6 mutant mice. The structural abnormalities were accompanied by functional defects; ciliary beat frequency was reduced in Bbs mutant mice. Previous reports suggested BBS might increase the incidence of asthma. However, compared with wild-type controls, neither airway hyperresponsiveness nor inflammation increased in Bbs2(-/-) or Bbs4(-/-) mice immunized with ovalbumin. Instead, these animals were partially protected from airway hyperresponsiveness. These results emphasize the role of BBS proteins in both the structure and function of motile cilia. They also invite additional scrutiny of motile cilia dysfunction in patients with this disease.

摘要

一组与纤毛功能相关的基因突变会导致巴德-比德尔综合征(BBS)。大多数关于BBS的研究都集中在初级感觉纤毛上。在这里,我们研究了BBS蛋白的缺失是否也会影响呼吸道中的运动纤毛。我们发现BBS基因在人类气道上皮细胞中表达,并且BBS2和BBS4定位于与运动纤毛相关的细胞结构。虽然纤毛发生不需要BBS蛋白,但它们的缺失会导致覆盖小鼠气道上皮的一部分纤毛出现结构缺陷。最常见的异常是纤毛尖端附近充满囊泡的凸起。我们在Bbs1、Bbs2、Bbs4和Bbs6突变小鼠的气道纤毛中也发现了同样的畸形外观。结构异常伴随着功能缺陷;Bbs突变小鼠的纤毛摆动频率降低。先前的报告表明BBS可能会增加哮喘的发病率。然而,与野生型对照相比,用卵清蛋白免疫的Bbs2(-/-)或Bbs4(-/-)小鼠的气道高反应性和炎症均未增加。相反,这些动物对气道高反应性有部分保护作用。这些结果强调了BBS蛋白在运动纤毛的结构和功能中的作用。它们还促使人们对这种疾病患者的运动纤毛功能障碍进行更多的研究。

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本文引用的文献

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Ovalbumin-sensitized mice are good models for airway hyperresponsiveness but not acute physiological responses to allergen inhalation.卵清蛋白致敏的小鼠是气道高反应性的良好模型,但不是吸入过敏原后急性生理反应的良好模型。
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A knockin mouse model of the Bardet-Biedl syndrome 1 M390R mutation has cilia defects, ventriculomegaly, retinopathy, and obesity.巴德-比德尔综合征1型M390R突变的敲入小鼠模型存在纤毛缺陷、脑室扩大、视网膜病变和肥胖问题。
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Intraflagellar transport: from molecular characterisation to mechanism.鞭毛内运输:从分子特征到作用机制
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When cilia go bad: cilia defects and ciliopathies.当纤毛出现问题时:纤毛缺陷与纤毛病
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Gene expression analysis of photoreceptor cell loss in bbs4-knockout mice reveals an early stress gene response and photoreceptor cell damage.对Bbs4基因敲除小鼠光感受器细胞损失的基因表达分析揭示了早期应激基因反应和光感受器细胞损伤。
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Differences in renal tubule primary cilia length in a mouse model of Bardet-Biedl syndrome.巴德-比德尔综合征小鼠模型中肾小管初级纤毛长度的差异。
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J Cell Sci. 2007 Jan 1;120(Pt 1):7-15. doi: 10.1242/jcs.03305.
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