Onco-Golgi: Is Fragmentation a Gate to Cancer Progression?

Biochemistry & molecular biology journal Pub Date : 2015-01-01 Epub Date: 2015-11-07 DOI:10.21767/2471-8084.100006
Armen Petrosyan
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引用次数: 88

Abstract

The Golgi apparatus-complex is a highly dynamic organelle which is considered the "heart" of intracellular transportation. Since its discovery by Camillo Golgi in 1873, who described it as the "black reaction," and despite the enormous volume of publications about Golgi, this apparatus remains one of the most enigmatic of the cytoplasmic organelles. A typical mammalian Golgi consists of a parallel series of flattened, disk-shaped cisternae which align into stacks. The tremendous volume of Golgi-related incoming and outgoing traffic is mediated by different motor proteins, including members of the dynein, kinesin, and myosin families. Yet in spite of the strenuous work it performs, Golgi contrives to maintain its monolithic morphology and orchestration of matrix and residential proteins. However, in response to stress, alcohol, and treatment with many pharmacological drugs over time, Golgi undergoes a kind of disorganization which ranges from mild enlargement to critical scattering. While fragmentation of the Golgi was confirmed in cancer by electron microscopy almost fifty years ago, it is only in recent years that we have begun to understand the significance of Golgi fragmentation in the biology of tumors. Below author would like to focus on how Golgi fragmentation opens the doors for cascades of fatal pathways which may facilitate cancer progression and metastasis. Among the issues addressed will be the most important cancer-specific hallmarks of Golgi fragmentation, including aberrant glycosylation, abnormal expression of the Ras GTPases, dysregulation of kinases, and hyperactivity of myosin motor proteins.

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肿瘤-高尔基:分裂是癌症进展的大门吗?
高尔基体复合体是一种高度动态的细胞器,被认为是细胞内运输的“心脏”。自从卡米洛·高尔基于1873年发现它,并将其描述为“黑色反应”以来,尽管关于高尔基的出版物数量庞大,但这个装置仍然是细胞质细胞器中最神秘的一个。一个典型的哺乳动物高尔基体由一系列平行的扁平盘状蓄水池组成,这些蓄水池排列成一堆。大量与高尔基蛋白相关的输入和输出是由不同的运动蛋白介导的,包括动力蛋白、运动蛋白和肌球蛋白家族的成员。然而,尽管它进行了艰苦的工作,高尔基体设法保持其整体形态和基质和驻留蛋白的编排。然而,随着时间的推移,在对压力、酒精和许多药物治疗的反应中,高尔基体经历了一种从轻度扩大到严重分散的紊乱。虽然高尔基体碎片在近50年前通过电子显微镜在癌症中得到证实,但直到最近几年,我们才开始了解高尔基体碎片在肿瘤生物学中的意义。下面,作者将重点介绍高尔基体碎片化如何为可能促进癌症进展和转移的致命途径的级联打开大门。讨论的问题将是高尔基体片段化最重要的癌症特异性标志,包括异常糖基化、Ras gtpase的异常表达、激酶的失调和肌球蛋白运动蛋白的过度活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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