Abstract
We analyzed the intracellular transport of HDL and its associated free sterol in polarized human hepatoma HepG2 cells. Using pulse-chase protocols, we demonstrated that HDL labeled with Alexa 488 at the apolipoprotein (Alexa 488-HDL) was internalized by a scavenger receptor class B type I (SR-BI)-dependent process at the basolateral membrane and became enriched in a subapical/apical recycling compartment. Most Alexa 488-HDL was rapidly recycled to the basolateral cell surface and released from cells. Within 30 min of chase at 37 degrees C, approximately 3% of the initial cell-associated Alexa 488-HDL accumulated in the biliary canaliculus (BC) formed at the apical pole of polarized HepG2 cells. Even less Alexa 488-HDL was transported to late endosomes or lysosomes. The fluorescent cholesterol analog dehydroergosterol (DHE) incorporated into Alexa 488-HDL was delivered to the BC within a few minutes, independent of the labeled apolipoprotein. This transport did not require metabolic energy and could be blocked by antibodies against SR-BI. The fraction of cell-associated DHE transported to the BC was comparable when cells were incubated with either Alexa 488-HDL containing DHE or with DHE bound to methyl-beta-cyclodextrin. We conclude that rapid, nonvesicular transport of sterol to the BC and efficient recycling of HDL particles underlies the selective sorting of sterol from HDLs in hepatocytes.
Highlights
We analyzed the intracellular transport of HDL and its associated free sterol in polarized human hepatoma HepG2 cells
By selectively incorporating DHE into the plasma membrane of HepG2 cells using DHE bound to methyl--cyclodextrin (DHE/MCD), we demonstrated that this sterol becomes enriched in a subapical compartment/apical recycling compartment (SAC/ARC) but did not accumulate in the trans-Golgi network [11]
AntiSR-BI antibodies block the cellular uptake of Alexa Alexa 488-labeled high density lipoprotein containing dehydroergosterol (488-HDL) by HepG2, indicating that internalization of the fluorescent lipoprotein is mediated mainly by scavenger receptor class B type I (SR-BI) [14, 23]
Summary
We analyzed the intracellular transport of HDL and its associated free sterol in polarized human hepatoma HepG2 cells. For DHE and fluorescent PC, we demonstrated that a rapid, nonvesicular, and largely ATP-independent transport pathway delivers these lipids to the canalicular membrane of HepG2 cells. To determine the intracellular fluorescence of either Alexa 488-HDL or Alexa 546-Tf, ATP-depleted HepG2 cells (see above) were double labeled with both probes, chased for 30 min in medium 2, and imaged.
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