We investigated the effects of inhibitors of clathrin-mediated endocytosis (chlorpromazine and K(+) depletion) and of caveolae-mediated uptake (filipin and genistein) on internalization of FITC-poly-l-lysine-labeled DOTAP/DNA lipoplexes and PEI/DNA polyplexes by A549 pneumocytes and HeLa cells and on the transfection efficiencies of these complexes with the luciferase gene. Uptake of the complexes was assayed by fluorescence-activated cell sorting. Lipoplex internalization was inhibited by chlorpromazine and K(+) depletion but unaffected by filipin and genistein. In contrast, polyplex internalization was inhibited by all four inhibitors. We conclude that lipoplex uptake proceeds only by clathrin-mediated endocytosis, while polyplexes are taken up by two mechanisms, one involving caveolae and the other clathrin-coated pits. Transfection by lipoplexes was entirely abolished by blocking clathrin-mediated endocytosis, whereas inhibition of the caveolae pathway had no effect. By contrast, transfection mediated by polyplexes was completely blocked by genistein and filipin but was unaffected by inhibitors of clathrin-mediated endocytosis. Fluorescence colocalization studies with a lysosomal marker, AlexaFluor-dextran, revealed that polyplexes taken up by clathrin-mediated endocytosis are targeted to the lysosomal compartment for degradation, while the polyplexes internalized via caveolae escape this compartment, permitting efficient transfection.
Abstract. The GPI-anchored urokinase plasminogen activator receptor (uPAR) does not internalize free urokinase (uPA). On the contrary, uPAR-bound complexes of uPA with its serpin inhibitors PAI-1 (plasminogen activator inhibitor type-l) or PN-1 (protease nexin-1) are readily internalized in several cell types. Here we address the question whether uPAR is internalized as well upon binding of uPA-serpin complexes. Both LB6 clone 19 cells, a mouse cell line transfected with the human uPAR cDNA, and the human U937 monocytic cell line, express in addition to uPAR also the endocytic et2-macroglobulin receptor/low density lipoprotein receptor-related protein (LRP/a2-MR) which is required to internalize uPAR-bound uPA-PAI-1 and uPA-PN-1 complexes. Downregulation of cell surface uPAR molecules in U937 cells was detected by cytofluorimetric analysis after uPA-PAI-1 and uPA-PN-1 incubation for 30 min at 37°C; this effect was blocked by preincubation with the ligand of LRP/ aE-MR, RAP (LRP/a2-MR-associated protein), known to block the binding of the uPA complexes to LRP/et E-MR. Downregulation correlated in time with the intracellular appearance of uPAR as assessed by confocal microscopy and immuno-electron microscopy. After 30 min incubation with uPA-PAI-1 or uPA-PN-1 (but not with free uPA), confocal microscopy showed that uPAR staining in permeabilized LB6 clone 19 cells moved from a mostly surface associated to a largely perinuclear position. This effect was inhibited by the LRP/a2-MR RAP. Perinuclear uPAR did not represent newly synthesized nor a preexisting intracellular pool of uPAR, since this fluorescence pattern was not modified by treatment with the protein synthesis inhibitor cycloheximide, and since in LB6 clone 19 cells all of uPAR was expressed on the cell surface. Immuno-electron microscopy confirmed the plasma membrane to intracellular translocation of uPAR, and its dependence on LRP/ot2-MR in LB6 clone 19 cells only after binding to the uPA-PAI-1 complex. After 30 min incubation at 37°C with uPA-PAI-1, 93 % of the specific immunogold particles were present in cytoplasmic vacuoles vs 17.6% in the case of DFP-uPA. We conclude therefore that in the process of uPA-serpin internalization, uPAR itself is internalized, and that internalization requires the LRP/a2-MR.
Anaerobiosis and lung infection rapidly induce alginate production by gene regulation in nonmucoid P. aeruginosa. This trait may contribute to early persistence, leading to chronic P. aeruginosa infection once stable mucoid strains are generated.
In this paper we address the contribution of different endocytic pathways to the intracellular uptake and processing of differently sized latex particles and of plasmid DNA complexes by means of fluorescence microscopy and FACS analysis. By using a number of specific inhibitors of either clathrin-dependent or caveolae-dependent endocytosis we were able to discriminate between these two pathways. Latex particles smaller than 200 nm were internalized exclusively by clathrin-mediated endocytosis, whereas larger particles entered the cells via a caveolae-dependent pathway.The route of uptake of plasmid DNA complexes appears strongly dependent on the nature of the complexes. Thus, lipoplexes containing the cationic lipid DOTAP, were exclusively internalized by a clathrin-dependent mechanism, while polyplexes prepared from the cationic polymer polyethyleneimine (PEI) were internalized in roughly equal proportions by both pathways. Upon incubation of cells with lipoplexes containing the luciferase gene abundant luciferase expression was observed, which was effectively blocked by inhibitors of clathrin-dependent endocytosis but not by inhibitors of the caveolae-dependent uptake mechanism. By contrast, luciferase transfection of the cells with polyplexes was unaffected by inhibition of clathrin-mediated endocytosis, but was nearly completely blocked by inhibitors interfering with the caveolae pathway. The results are discussed with respect to possible differences in the mechanism by which plasmid DNA is released from lipoplexes and polyplexes into the cytosol and to the role of size in the uptake and processing of the complexes. Our data suggest that improvement of non-viral gene transfection could very much benefit from controlling particle size, which would allow targeting of particle internalization via a non-degradative pathway, involving caveolae-mediated endocytosis.
Airway inflammation frequently found in congenital and mice efficiently transfected primarily the lungs and to a acquired lung diseases may interfere with gene delivery by lesser extent, heart, spleen, kidney and liver. The other direct administration through either instillation or aerosol.vectors mediated lower to undetectable levels of luciferase Systemic delivery by the intravenous administration repexpression in the lungs, with DOTAP Ͼ GL67/DOPE Ͼ PEI resents an alternative route of delivery that might bypass 25K Ͼ DOTMA/DOPE. A double injection protocol with a this barrier. A nonviral approach for transfecting various 15-min interval between the two doses of DOTAP/DNA airway-derived cell lines in vitro showed that cationic polycomplexes was investigated and showed a relevant role of mers (PEI 22K and 25K) and lipids (DOTAP, GL-67/DOPE) the first injection in transfecting the lungs. A two log are able to transfect with high efficiency the reporter genes increase in luciferase expression was obtained either when firefly luciferase and E. coli lacZ. Notably, two properties the two doses were comprised of luciferase plasmid or predicted that cationic vectors would be useful for a syswhen an irrelevant plasmid was used in the first injection. temic gene delivery approach to the lung: (1) transfectionThe double injection of luciferase/PEI 22K complexes was not inhibited or increased when cells were incubated determined higher transgene levels than a single dose, but with cationic lipids or polymers in the presence of serum; a clear difference using an irrelevant plasmid as first dose and (2) cationic vectors protected plasmid DNA from was not observed. Using lacZ as a reporter gene, it was DNase degradation. A single injection of DNA complexed shown that only cells in the alveolar region, including type II to the cationic polymer PEI 22K into the tail vein of adult penumocytes, stained positively for the transgene product.
Biodistribution of nonviral cationic vector/DNA complexes was studied after systemic or intratracheal administration to the lungs and correlated with transgene expression. Intravenous injection in C57Bl/6 mice gave maximal and significant luciferase expression in the lungs with the cationic polymer PEI 22K/DNA complexes at the highest ratios of positive/negative charges versus DNA alone. While DOTAP/DNA complexes with high charge ratio determined lower but still significant luciferase activity versus uncomplexed DNA, GL-67A and PEI 25K mediated negligible luciferase expression. Labelled PEI 22K and DOTAP complexes were evenly distributed in the alveolar region, where GFP expression was revealed, while PEI 25K and GL-67A complexes were not detected, suggesting a different interaction of these complexes with the plasma membrane of endothelial cells. Following an intratracheal injection, the highest and significant levels of transfection were obtained with
NHERF1 overexpression increases functional apical expression of F508del CFTR in CFBE41o- cells. Here, we show that this occurs via the formation of the multiprotein complex NHERF1-phosphoezrin-actin, which provides a regulated linkage between F508del CFTR and the actin cytoskeleton resulting in an increased F508del CFTR stability in the membrane.
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