Quantitative ER {left-right-arrow} Golgi Transport Kinetics and Protein Separation upon Golgi Exit Revealed by Vesicular Integral Membrane Protein 36 Dynamics in Live Cells

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Vol. 12, Issue 5, 1481-1498, May 2001

Quantitative ER Golgi Transport Kinetics and Protein Separation upon Golgi Exit Revealed by Vesicular Integral Membrane Protein 36 Dynamics in Live Cells

Thorsten Dahm,^*^§^# Jamie White,^*^¶^# Stephan Grill,^* Joachim Füllekrug, and Ernst H.K. Stelzer

^*Light Microscopy Group and Cell Biology and Biophysics Programme, European Molecular Biology Laboratory, D-69117 Heidelberg, Germany; Max Planck Institute for Molecular Cell Biology and Genetics, D-01307 Dresden, Germany

To quantitatively investigate the trafficking of the transmembrane lectin VIP36 and its relation to cargo-containing transportcarriers (TCs), we analyzed a C-terminal fluorescent-protein (FP)fusion, VIP36-SP-FP. When expressed at moderate levels, VIP36-SP-FPlocalized to the endoplasmic reticulum, Golgi apparatus, and intermediatetransport structures, and colocalized with epitope-tagged VIP36.Temperature shift and pharmacological experiments indicated VIP36-SP-FPrecycled in the early secretory pathway, exhibiting traffickingrepresentative of a class of transmembrane cargo receptors, includingthe closely related lectin ERGIC53. VIP36-SP-FP trafficking structurescomprised tubules and globular elements, which translocated ina saltatory manner. Simultaneous visualization of anterogradesecretory cargo and VIP36-SP-FP indicated that the globular structureswere pre-Golgi carriers, and that VIP36-SP-FP segregated fromcargo within the Golgi and was not included in post-Golgi TCs.Organelle-specific bleach experiments directly measured the exchangeof VIP36-SP-FP between the Golgi and endoplasmic reticulum (ER).Fitting a two-compartment model to the recovery data predictedfirst order rate constants of 1.22 ± 0.44%/min for ER $right-arrow$ Golgi,and 7.68 ± 1.94%/min for Golgi $right-arrow$ ER transport, revealing a half-timeof 113 ± 70 min for leaving the ER and 1.67 ± 0.45 min for leavingthe Golgi, and accounting for the measured steady-state distributionof VIP36-SP-FP (13% Golgi/87% ER). Perturbing transport with AlF₄ treatment altered VIP36-SP-GFP distribution and changed the rateconstants. The parameters of the model suggest that relativelysmall differences in the first order rate constants, perhaps manifestedin subtle differences in the tendency to enter distinct TCs, resultin large differences in the steady-state localization of secretorycomponents.

Online version of this essay contains video material for the figures. Online version is available at www.molbiolcell.org.

Present addresses: ^§Research Program Tumor Cell Regulation, German Cancer Research Center DKFZIm Neuenheimer Feld, 280D-69120 Heidelberg, Germany; Massachusetts General Hospital Cancer Research Center, 149-7202 13th St., Charlestown, MA02129.

^¶ Corresponding author. E-mail address: jwhite{at}helix.mgh.harvard.edu.

^# These authors contributed equally to thiswork.

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