一种用于在细胞培养中灵敏监测肌纤蛋白变体的新型荧光素酶检测法。

A Novel Luciferase Assay For Sensitively Monitoring Myocilin Variants in Cell Culture.

作者信息

Zadoo Serena, Nguyen Annie, Zode Gulab, Hulleman John D

机构信息

Department of Ophthalmology, University of Texas Southwestern Medical Center, Dallas, Texas, United States.

Department of Cell Biology & Immunology and the North Texas Eye Research Institute, University of North Texas Health Science Center, Fort Worth, Texas, United States.

出版信息

Invest Ophthalmol Vis Sci. 2016 Apr 1;57(4):1939-50. doi: 10.1167/iovs.15-18789.

DOI:10.1167/iovs.15-18789

PMID:27092720

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5110263/

Abstract

PURPOSE

Primary open angle glaucoma-associated mutations in myocilin (MYOC) cause protein "nonsecretion," rendering secreted MYOC difficult to detect using conventional techniques. This study focused on developing and using an assay that can quickly and easily detect mutant MYOC secretion.

METHODS

We fused Gaussia luciferase (eGLuc2) to MYOC variants and expressed the constructs in HEK-293T and NTM-5 cells. Secreted and intracellular levels of MYOC eGLuc2 variants were evaluated by Western blotting and compared to untagged and FLAG-tagged MYOC constructs. Secreted and soluble intracellular MYOC eGLuc2 were measured by a GLuc assay. The secretion of nine additional MYOC mutants was assayed in conditioned media from transfected cells to test the applicability of the assay for monitoring other MYOC variants.

RESULTS

Myocilin eGLuc2 behaved similarly to untagged and FLAG-tagged MYOC with respect to secretion, soluble intracellular levels, and in response to drug treatment. The GLuc assay could sensitively detect Y437H MYOC secretion 30 minutes after media change. Gaussia luciferase fused variants followed anticipated trends; nonpathogenic variants (D208E, G244V) were secreted at wild-type (WT) levels, whereas predicted disease-causing variants (C245Y, G246R, E300K, Y437H, I477N) demonstrated substantial secretion defects. Secretion defects caused by the C245Y, G246R, and Y437H mutations were partially rescued by permissive growth temperature. Interestingly, however, this increase in secretion was independent of newly synthesized protein.

CONCLUSIONS

Fusion of eGLuc2 to MYOC does not significantly change the behavior of MYOC. This newly developed MYOC reporter system can be used to study engineered MYOC variants and potentially to identify modulators of MYOC secretion and function.

摘要

目的

原发性开角型青光眼相关的肌纤凝蛋白（MYOC）突变导致蛋白质“不分泌”，使得使用传统技术难以检测分泌型MYOC。本研究聚焦于开发和使用一种能够快速、简便地检测突变型MYOC分泌的检测方法。

方法

我们将高斯荧光素酶（eGLuc2）与MYOC变体融合，并在HEK-293T和NTM-5细胞中表达构建体。通过蛋白质印迹法评估MYOC eGLuc2变体的分泌水平和细胞内水平，并与未标记和FLAG标记的MYOC构建体进行比较。通过GLuc检测法测量分泌型和可溶性细胞内MYOC eGLuc2。在转染细胞的条件培养基中检测另外九个MYOC突变体的分泌，以测试该检测方法用于监测其他MYOC变体的适用性。

结果

就分泌、可溶性细胞内水平以及对药物治疗的反应而言，肌纤凝蛋白eGLuc2的行为与未标记和FLAG标记的MYOC相似。GLuc检测法能够在更换培养基30分钟后灵敏地检测到Y437H MYOC的分泌。融合高斯荧光素酶的变体呈现预期趋势；非致病性变体（D208E、G244V）以野生型（WT）水平分泌，而预测的致病变体（C245Y、G246R、E300K、Y437H、I477N）表现出明显的分泌缺陷。C245Y、G246R和Y437H突变引起的分泌缺陷在允许生长温度下部分得到挽救。然而，有趣的是，这种分泌增加与新合成的蛋白质无关。

结论

eGLuc2与MYOC融合不会显著改变MYOC的行为。这种新开发的MYOC报告系统可用于研究工程化的MYOC变体，并有可能用于鉴定MYOC分泌和功能的调节剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d65e/5110263/d27c53b42a6b/i1552-5783-57-4-1939-f01.jpg

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一种用于在细胞培养中灵敏监测肌纤蛋白变体的新型荧光素酶检测法。

A Novel Luciferase Assay For Sensitively Monitoring Myocilin Variants in Cell Culture.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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