Matrix metalloproteinases (MMPs) degrade several ECM components and are crucial modulators of cell invasion and tissue organization. Although much has been reported about their function in remodeling ECM in health and disease, their trafficking across the Golgi apparatus remains poorly understood. Here we report that the cis-Golgi protein nucleobindin-1 (NUCB1) is critical for MMP2 and MT1-MMP trafficking along the Golgi apparatus. This process is Ca2+-dependent and is required for invasive MDA-MB-231 cell migration as well as for gelatin degradation in primary human macrophages. Our findings emphasize the importance of NUCB1 as an essential component of MMP transport and its overall impact on ECM remodeling.
Monitoring vesicle trafficking is an excellent tool for the evaluation of protein dynamics in living cells. Such study is key for the understanding of protein sorting and secretion. Recent developments in microscopy, as well as new methodologies developed to study synchronized trafficking of proteins, allowed a better understanding of signaling, regulation and trafficking dynamics at the secretory pathway. One of the most helpful tools so far developed is the Retention Using Selective Hooks (RUSH) system, a methodology that facilitates the evaluation of synchronized cargo trafficking by monitoring fluorescent vesicles in cells upon biotin addition. Here we present a protocol that allows the quantitative evaluation of protein cargo trafficking at different fixed time points and an analytic approach that enables a better examination of specific cargo trafficking dynamics at the secretory pathway.
More than 30% of the total amount of proteins synthesized in mammalian cells follow the secretory pathway in order to mature and be properly sorted to their final destinations. Among several methodologies that describe live-cell monitoring of vesicles, the Retention Using Selective Hooks (RUSH) system is a powerful one that allows to visualize cargo trafficking under physiological conditions.The present protocol describes a method to use the RUSH system in live-cell microscopy and a subsequent quantitative analysis of cargo vesicles to dissect protein trafficking. In brief, HeLa cells are transiently transfected with an MMP2-RUSH construct and vesicle trafficking is evaluated by wide-field microscopy, recording videos in 1-min time frames for 45 min. We also present a quantitative approach that can be used to identify kinetics of uncharacterized protein cargo, as well as to evaluate with more detail processes such as ER-to-Golgi vesicle trafficking.
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