Quantification of Golgi Entry and Exit Kinetics of Protein Cargoes.

The Golgi apparatus is a pivotal secretory organelle in membrane trafficking, a hub responsible for posttranslational modifications, sorting, and trafficking of newly synthetized proteins received from the endoplasmic reticulum (ER). Different protein cargoes have been shown to travel through the Golgi stacks with different kinetics. Dysregulated transport and altered residency time of cargoes in the Golgi can impair their functionality. To study the anterograde trafficking of specific protein cargoes, innovative molecular methods have been developed to synchronize the traffic of selected cargoes from the ER in live cells. These methods of synchronization now provide the ability to quantify the Golgi entry and exit kinetics of defined cargo. In this chapter, we describe a quantitative, accurate, and semiautomated protocol to image and quantify the anterograde trafficking of individual cargo traversing the Golgi. This protocol, using free software, is compatible with different synchronization techniques, and can be used for a range of applications, such as comparing the Golgi kinetics of (1) different cargoes, (2) wild-type cargo vs mutated cargo, (3) the same cargo under different Golgi conditions, and (4) cargoes in drug screening platforms. The method can also be applied to study the localization and transit of a cargo through different organelles other than the Golgi apparatus.