Cholesterol-based membrane microdomains, or lipid rafts, are believed to play important, yet poorly defined, roles in protein trafficking and signal transduction. In polarized epithelial cells, the current view is that rafts are involved in apical but not in basolateral protein transport from the trans-Golgi network (TGN). We report here that cholesterol is required in a post-TGN mechanism of basolateral regionalization. Permanently transfected Madin-Darby canine kidney cells segregated the caveolae/raft-associated high-density lipoprotein scavenger receptor class B type I (SR-BI) predominantly to the basolateral domain where it was constitutively internalized and recycled basolaterally. Acute cholesterol depletion did not significantly alter SR-BI internalization, implying a cholesterol depletion-insensitive endocytic process but instead induced its transcytosis through a protein kinase A (PKA)- and microtubule-dependent mechanism. Forskolin also elicited SR-BI transcytosis. The basolateral distribution of endogenous epidermal growth factor receptor remained unaffected. Strikingly, cholesterol depletion induced PKA activity without increasing the cAMP levels. Thus, our results are consistent with a scenario in which cholesterol-based rafts promote internalization and basolateral recycling of internalized SR-BI whereas a PKA pool sensitive to cholesterol depletion mediates SR-BI transcytosis. Regulated transcytosis of SR-BI may provide an additional mechanism to control cholesterol homeostasis. These results disclose relationships between cholesterol-based rafts and PKA activity operating in a post-TGN mechanism of regulated apical-to-basolateral cell surface protein distribution
Accumulation of misfolded proteins in the endoplasmic reticulum (ER) induces the unfolded protein response (UPR). The UPR promotes cell survival by adjusting ER protein folding capacity but if homeostasis cannot be reestablished, apoptosis is induced. The execution of life/death decisions is regulated by the three UPR branches (IRE1, PERK, ATF6) and their downstream effectors. Events that offset the balance of the UPR branches can have devastating consequences, and UPR misregulation has been correlated with various diseases, including metabolic and neurodegenerative diseases and cancer. In cancer, upregulation of the UPR is thought to provide a growth advantage to tumor cells. In contrast to this prevailing view, we report here an analysis of data obtained by others indicating that all three UPR branches appear selectively down-regulated in mouse models of prostate tumorigenesis.
In contrast to MDCK cells, in FRT cells oligomerization and apical sorting of GPI-APs are mediated by N-glycosylation independent of cholesterol and raft association.
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