Rapid Transport of Internalized P-Selectin to Late Endosomes and the TGN: Roles in Regulating Cell Surface Expression and Recycling to Secretory Granules

doi:10.1083/jcb.151.1.107

Epitomics: The Rabbit Monoclonal Company

Published online 3 October 2000. doi:10.1083/jcb.151.1.107

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© The Rockefeller University Press, 0021-9525/2000/10/107/ $5.00
The Journal of Cell Biology, Volume 151, Number 1, October 2, 2000 107-116

Original Article

Rapid Transport of Internalized P-Selectin to Late Endosomes and the TGN: Roles in Regulating Cell Surface Expression and Recycling to Secretory Granules

Kimberly S. Straley^a and Samuel A. Green^a
^a Department of Cell Biology, University of Virginia Health System, School of Medicine, Charlottesville, Virginia 22908-0732

Correspondence to: Samuel A. Green, Department of Cell Biology, UVa Health System, School of Medicine, P.O. Box 800732, Charlottesville, VA 22908-0732. Tel:(804) 982-4141 Fax:(804) 982-3912

Prior studies on receptor recycling through late endosomes andthe TGN have suggested that such traffic may be largely limitedto specialized proteins that reside in these organelles. Wepresent evidence that efficient recycling along this pathwayis functionally important for nonresident proteins. P-selectin,a transmembrane cell adhesion protein involved in inflammation,is sorted from recycling cell surface receptors (e.g., low densitylipoprotein [LDL] receptor) in endosomes, and is transportedfrom the cell surface to the TGN with a half-time of 20–25min, six to seven times faster than LDL receptor. Native P-selectincolocalizes with LDL, which is efficiently transported to lysosomes,for 20 min after internalization, but a deletion mutant deficientin endosomal sorting activity rapidly separates from the LDLpathway. Thus, P-selectin is sorted from LDL receptor in earlyendosomes, driving P-selectin rapidly into late endosomes. P-selectinthen recycles to the TGN as efficiently as other receptors.Thus, the primary effect of early endosomal sorting of P-selectinis its rapid delivery to the TGN, with rapid turnover in lysosomesa secondary effect of frequent passage through late endosomes.This endosomal sorting event provides a mechanism for efficientlyrecycling secretory granule membrane proteins and, more generally,for downregulating cell surface receptors.

Key Words: endocytosis, protein sorting, receptors, recycling, secretorygranule

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