外周斑蛋白与晶状体中间丝和串珠状丝的相互作用。

Periplakin interactions with lens intermediate and beaded filaments.

作者信息

Yoon Kyoung-hye, FitzGerald Paul G

机构信息

Department of Cell Biology and Human Anatomy, School of Medicine, University of California, Davis, California, USA.

出版信息

Invest Ophthalmol Vis Sci. 2009 Mar;50(3):1283-9. doi: 10.1167/iovs.08-2894. Epub 2008 Nov 21.

DOI:10.1167/iovs.08-2894

PMID:19029034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2909747/

Abstract

PURPOSE

The lens assembles two systems of intermediated filaments-vimentin intermediate filament (IF) and highly divergent, lens-specific beaded filament (BF)-sequentially as epithelial cells differentiate into fiber cells. The goal of this study was to identify linker proteins that integrate the different lens IF into the biology of the lens fiber cells.

METHODS

Antibodies to periplakin were used in coimmunoprecipitation studies to identify proteins that complex with BF and IF in detergent extracts of mouse lens. GST-periplakin fusion proteins were used to confirm coimmunoprecipitation

RESULTS

Yeast two-hybrid analysis was used to establish direct linkage between periplakin and BF/IF proteins and to narrow down binding domains. Immunocytochemistry was used to establish spatial and temporal coexpression of periplakin and BF/IF. results. Periplakin is found complexed to BF and IF in the lens. The COOH terminus of periplakin was shown to have a strong affinity for the CP49 rod 2 domain but not its head or rod 1 domains. Low-level affinity was seen between the filensin rod domain and periplakin. Periplakin localization in lens overlapped with BF and IF.

CONCLUSIONS

Despite divergence in primary sequence, predicted secondary structure, and filament structure, CP49 has conserved the capacity to bind a common IF linker protein, periplakin, and shares that binding capacity with the other major lens IF protein, vimentin. This suggests that mutations in periplakin have the potential to emulate the cataract seen in lenses with defective BF proteins.

摘要

目的

随着上皮细胞分化为纤维细胞，晶状体依次组装两个中间丝系统——波形蛋白中间丝（IF）和高度分化的、晶状体特异性的串珠状丝（BF）。本研究的目的是鉴定将不同晶状体中间丝整合到晶状体纤维细胞生物学中的连接蛋白。

方法

使用抗周膜蛋白的抗体进行共免疫沉淀研究，以鉴定在小鼠晶状体去污剂提取物中与BF和IF形成复合物的蛋白质。使用谷胱甘肽S-转移酶（GST）-周膜蛋白融合蛋白来确认共免疫沉淀结果。

结果

酵母双杂交分析用于建立周膜蛋白与BF/IF蛋白之间的直接联系，并缩小结合结构域。免疫细胞化学用于确定周膜蛋白与BF/IF的时空共表达。结果显示，周膜蛋白在晶状体中与BF和IF形成复合物。周膜蛋白的COOH末端对CP49杆2结构域具有很强的亲和力，但对其头部或杆1结构域没有亲和力。丝状肌动蛋白杆结构域与周膜蛋白之间存在低水平的亲和力。周膜蛋白在晶状体中的定位与BF和IF重叠。

结论

尽管CP49在一级序列、预测的二级结构和丝状结构上存在差异，但它保留了结合共同的中间丝连接蛋白周膜蛋白的能力，并且与另一种主要的晶状体中间丝蛋白波形蛋白共享这种结合能力。这表明周膜蛋白的突变有可能模拟BF蛋白缺陷的晶状体中出现的白内障。

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