The role of phosphatidylinositol-3-kinases P85/P110 and hVPS34 in endocytosis of EGF-receptor complexes

The previous data (Zheleznova et al., 2001) did not enable the authors to conclude which particular wortmannin sensitive PI-3-kinase--p85/p110 (I class PI-3-K) or hVPS34 (III class PI-3-K)--may be involved in the regulation of EGF-receptor endocytosis. In the present work, we have shown that upon stimulation of EGF-receptor endocytosis additional structures stained with antibody against p85 appear in A431 cells, but the p85-positive compartment never co-localized with EGF-receptor-containing compartments either in control or in wortmannin-treated cells. At the same time, wortmannin treatment prevented association of hVPS34 with endosomal membranes. We have also found that early endosomal markers--Rab5 and EEA1 (membrane association of the latter depends on Rab5 and hVPS34)--co-localized with EGF-receptor in the juxtranuclear region during late stages of endocytosis, both in control and upon wortmannin treatment. These observations favor our suggestions that the transition of EGF-receptors from early to late endosomes may occur directly in this juxtranuclear region and be tightly associated with the formation of so called multivesicular bodies (MVB), which are late endosomes per se. We suggest that wortmannin may have no effect on early EEA1-dependent stage of the receptor endocytosis but blocks a transition of EGF-receptor complexes into the late endosomes by inhibiting activity of hVPS34 and removing it from membranes. The hVPS34 product PI-3-K, according to the known data, is involved in the formation of internal vesicles of MVB. Accumulation of EGF-receptors in these vesicles is believed to be necessary for the receptor degradation.     

The role of Src-kinase in the regulation of endocytosis of EGF-receptor complexes. Distribution of clathrin after stimulation of EGR endocytosis in various cell lines during inhibition of Src-kinase activity

A distribution of EGF receptor and clathrin during EGF endocytosis in A431, HER14, WT and PURO cell lines was studied by indirect immunofluorescence. Though the initial distribution of EGF-receptors on A431 and HER14 cells was somewhat different, the late stages of endocytosis proceeded equally and were marked by formation of bright spots in the juxtanuclear region characteristic of the late endosomes. The Src-family kinase inhibitor CGP77675 had no influence on the dynamics of receptor endocytosis at the immunofluorescent level in both cell lines. Stimulation of EGF-receptor endocytosis in A431 cells did not also result in any redistribution of clathrin in the areas where the majority of EGF-receptors are localized, i.e. in the lateral plasma membrane both in the control cells and under CGP77675 treatment. Clathrin in A431, WT and PURO cells demonstrated even a punctuated pattern throughout the cytoplasm with some accumulation in the juxtanuclear region. This distribution depended neither on the absence or presence of Src activity nor on EGF addition. The data obtained indicate that 1) EGF-receptors do not serve as the initiation sites during clathrin coated pit assembly; 2) Src-kinase activation does not result in significant clathrin redistribution in the plasma membrane, and its influence on EGF endocytosis can be considered as a secondary effect.     

Effect of an vacuolar proton pump inhibitor bafilomycin A1 on the intracellular processing of markers for receptor-mediated and liquid phase endocytosis

By means of subcellular fractionation in density Percoll gradients, immunoblotting and immunofluorescense, the effect of BafA1 on endocytosis of EGF-receptor complexes and horse radish peroxidase (HRP) in A431, HER14 and HC11 cell lines was studied. It was shown that the pretreatment of all used cell lines with BafA1 completely inhibited EGF degradation, but did not interfere with the delivery of significant portion of EGF-receptor complexes to late endosomes and lysosomes and transition of the receptor to juxtranuclear region. At the same time, BafA1 was found to dramatically inhibit the delivery of fluid phase marker HRP to late endosomes of A431 cells. The BafA1 effect on endocytosis of high concentrations of EGF was similar to that on HRP endocytosis. Regulatory mechanisms of early-to-late endosomal compartment transition are discussed.     

SNX12 role in endosome membrane transport

In this paper, we investigated the role of sorting nexin 12 (SNX12) in the endocytic pathway. SNX12 is a member of the PX domain-containing sorting nexin family and shares high homology with SNX3, which plays a central role in the formation of intralumenal vesicles within multivesicular endosomes. We found that SNX12 is expressed at very low levels compared to SNX3. SNX12 is primarily associated with early endosomes and this endosomal localization depends on the binding to 3-phosphoinositides. We find that overexpression of SNX12 prevents the detachment (or maturation) of multivesicular endosomes from early endosomes. This in turn inhibits the degradative pathway from early to late endosomes/lysosomes, much like SNX3 overexpression, without affecting endocytosis, recycling and retrograde transport. In addition, while previous studies showed that Hrs knockdown prevents EGF receptor sorting into multivesicular endosomes, we find that overexpression of SNX12 restores the sorting process in an Hrs knockdown background. Altogether, our data show that despite lower expression level, SNX12 shares redundant functions with SNX3 in the biogenesis of multivesicular endosomes.     

Effect of synthetic proteasomal inhibitor MG132 on dynamics of EGF-receptor complexes endocytosis in A431 cells

The effect of proteasomal activity suppression induced by MG132, a synthetic proteasomal inhibitor of EGF-receptor complexes endocytosis in human epidermoid carcinoma A431 cell line, was studied. Using subcellular fractionation in 17% Percoll gradient, it was demonstrated that the addition of MG132 to the cells 15 min following stimulation of EGF endocytosis resulted in a slight accumulation of 125I-EGF in early endosomes, and in much more significant accumulation of the labeled growth factor in late endosomes/lysosomes, as compared to untreated cells. The release of 125I-EGF degradation products into the incubation medium was significantly (3-12-fold) inhibited in the presence of MG132. At the same time biochemical analysis has demonstrated that the EGF receptor itself is not a direct target of proteasomes, since it is revealed as a full-length protein with native mol. mass (170 kDa) in fractions of early and late endosomes and lysosomes. Possible mechanisms of the MG132 effect on intracellular processing of EGF-receptor complexes are discussed.     

Dysregulation of Ack1 inhibits down-regulation of the EGF receptor

The protein tyrosine kinase Ack1 has been linked to cancer when over-expressed. Ack1 has also been suggested to function in clathrin-mediated endocytosis and in down-regulation of the epidermal growth factor (EGF) receptor (EGFR). We have studied the intracellular localization of over-expressed Ack1 and found that Ack1 co-localizes with the EGFR upon EGF-induced endocytosis in cells with moderate over-expression of Ack. This co-localization is mainly observed in early endosomes. Furthermore, we found that over-expression of Ack1 retained the EGFR at the limiting membrane of early endosomes, inhibiting sorting to inner vesicles of multivesicular bodies. Down-regulation of Ack1 in HeLa cells resulted in reduced rate of (125)I-EGF internalization, whereas internalization of (125)I-transferrin was not affected. In cells where Ack1 had been knocked down by siRNA, recycling of internalized (125)I-EGF was increased, while degradation of (125)I-EGF was inhibited. Together, these data suggest that Ack1 is involved in an early step of EGFR desensitization.     

Compartmentalization dynamics of the epidermal growth factor in A431 cells

Dynamics of compartmentalization of epidermal growth factor (EGF) in human carcinoma A431 cells during the first hour after initiation of endocytosis was examined by methods of the organelle fractionation on a 20% Percoll gradient and of the microfluorimetric visualization of endocytosis of rhodamine-labeled EGF (EGF-R). EGF was revealed in small vesicles localized in the peripheral region of cytoplasm in a few minutes after endocytosis initiation. During centrifugation in Percoll these vesicles (endosomes), with an average density of 1.038 g/ml, were seen co-sedimented with Golgi membranes. By one hour after initiation of endocytosis, EGF-R was accumulated in perinuclear zone, in a trans-Golgi region, as numerous big luminous centres that were apparently MB-endosomes and had the same density in Percoll as did small peripheral endosomes. Such centres appeared in several cells already within 5-10 minutes. In A431 cells EGF did not reach lysosomes within 60 minutes, because no accumulation of 125I-EGF was shown in lysosome corresponding regions of Percoll gradient (average density 1.070 g/ml).     

Infectious adenovirus type 2 transport through early but not late endosomes

Receptor-mediated endocytosis is a major gate for pathogens into cells. In this study, we analyzed the trafficking of human adenovirus type 2 and 5 (Ad2/5) and the escape-defective temperature-sensitive Ad2-ts1 mutant in epithelial cancer cells. Ad2/5 and Ad2-ts1 uptake into endosomes containing transferrin, major histocompatibility antigen 1 and the Rab5 effector early endosome antigen 1 (EEA1) involved dynamin, amphiphysin, clathrin and Eps15. Cointernalization experiments showed that most of the Ad2/5 and Ad2-ts1 visited the same EEA1-positive endosomes. In contrast to Ad2/5, Ad2-ts1 required functional Rab5 for endocytosis and lysosomal transport and was sensitive to the phosphatidyl-inositol-3 (PI3)-kinase inhibitor wortmannin or the ubiquitin-binding protein Hrs for sorting from early to late endosomes. Endosomal escape of Ad2 was not affected by incubation at 19 degrees C, which blocked membrane sorting in early endosomes and inhibited Ad2-ts1 transport to lysosomes. Unlike Semliki Forest Virus (SFV), sorting of Ad2-ts1 to late endosomes was independent of Rab7 and Ad2/5 infection independent of EEA1. The data indicate that Ad2/5 and Ad2-ts1 use an invariant machinery for clathrin-mediated uptake to early endosomes. We suggest that the infectious Ad2 particles are either directly released from early endosomes to the cytosol or sorted by a temperature-insensitive and PI3-kinase-independent mechanism to an escape compartment different from late endosomes or lysosomes.     

Wortmannin causes mistargeting of procathepsin D. evidence for the involvement of a phosphatidylinositol 3-kinase in vesicular transport to lysosomes

At present little is known of the biochemical machinery controlling transport of newly synthesized lysosomal hydrolases from the trans- Golgi network (TGN) to endosomes. The demonstration that Vps34p (a protein required for targeting soluble hydrolases to the vacuole in Saccharomyces cerevisiae) is a phosphatidylinositol 3-kinase (PI3-K) suggested the possibility that a homologous enzyme might be involved in the equivalent step in mammalian cells. Using the PI3-K inhibitors wortmannin and LY294002, I provide evidence to support this hypothesis. Treatment of K-562 cells with wortmannin induced secretion of procathepsin D, with half-maximal inhibition of accurate targeting to lysosomes at 10-20 nM. Kinetic analysis indicated that a late Golgi (TGN) step was affected, and that other constitutive vesicular transport events were not. The M6P recognition signal was still generated in the presence of wortmannin suggesting that the drug was directly inhibiting export of the receptor-ligand complex from the TGN, while removal of the drug led to a rapid restoration of accurate sorting. At the concentrations used, wortmannin and LY294002 are presently accepted to be specific inhibitors of PI3-K. I conclude that these data implicate such an enzyme in the trafficking of M6P-receptor- ligand complexes from the TGN towards lysosomes.     

Interactions of GGA3 with the ubiquitin sorting machinery

The Golgi-localized, gamma-ear-containing, Arf-binding (GGA) proteins constitute a family of clathrin adaptors that are mainly associated with the trans-Golgi network (TGN) and mediate the sorting of mannose 6-phosphate receptors. This sorting is dependent on the interaction of the VHS domain of the GGAs with acidic-cluster-dileucine signals in the cytosolic tails of the receptors. Here we demonstrate the existence of another population of GGAs that are associated with early endosomes. RNA interference (RNAi) of GGA3 expression results in accumulation of the cation-independent mannose 6-phosphate receptor and internalized epidermal growth factor (EGF) within enlarged early endosomes. This perturbation impairs the degradation of internalized EGF, a process that is normally dependent on the sorting of ubiquitinated EGF receptors (EGFRs) to late endosomes. Protein interaction analyses show that the GGAs bind ubiquitin. The VHS and GAT domains of GGA3 are responsible for this binding, as well as for interactions with TSG101, a component of the ubiquitin-dependent sorting machinery. Thus, GGAs may have additional roles in sorting of ubiquitinated cargo.     

Two different stages of epidermal growth factor (EGF) receptor endocytosis are sensitive to free ubiquitin depletion produced by proteasome inhibitor MG132

Numerous studies implicate proteasomes in the regulation of EGF receptor (EGFR) endocytosis on the basis of the ability of inhibitors to decrease EGFR degradation, but the exact mechanisms remain obscure. We demonstrated that EGFR itself is not a direct target for proteasome, since it is delivered to lysosomes intact. Evidence is presented that the inhibitory effect of MG132 on EGF degradation is due mostly to free ubiquitin depletion resultant from the suppression of proteasomal functioning by MG132. By subcellular fractionation, we show two MG132-sensitive steps in the EGFR degradation pathway: sorting from early (EE) to late (LE) endosomes, and late stage of LE maturation. MG132 treatment resulted in stabilization of EGFR tyrosine phosphorylation and its association with c-Cbl. Nevertheless, ubiquitination of EGFR at late stages of endocytosis was significantly lower than that in control cells. Highly ubiquitinated forms of EGFR demonstrated more sensitivity to MG132 treatment.     

The role of Src-kinase in the regulation of endocytosis of EGF-receptor complexes. I. Dynamics of EGF internalization, recycling, sorting, and degradation during inhibition of Src-kinase activity

In the present work, the role of Src-kinase in regulation of different stages of EGF-receptor endocytosis was studied. We used murine fibroblasts with knockout of Src gene and CGP77675, and the inhibitor of Src-family kinases. The absence of Src protein in the cells did not lead to any changes in the rates of 125I-EGF internalization or recycling and caused only slight decrease in the rate of its degradation. At the same time, treatment of the wild type cells with the inhibitor resulted in a small decrease in internalization rate and an increase in recycling. The influence of the inhibitor on 125I-EGF degradation was also more pronounced. But even in this case, the effects were no more than 30% of control values. CGP77675 extended the same effect upon cells of HER14 and HC11 lines. Subcellular fractionation of these cells in Percoll gradient has also demonstrated a slight inhibition of 125I-EGF sorting from early to late endosomes. The more pronounced effect of the Src-family kinase inhibitor on the EGF endocytosis, compared to that of the absence of a single Src protein, suggests a compensating mechanism of the Src-family kinases. A conclusion is made that in spite of a slight influence on practically all stages of intracellular pathway of EGF-receptor complexes, Src-kinases are obviously not the key regulators of their endocytosis.     

Hrs and SNX3 functions in sorting and membrane invagination within multivesicular bodies

After internalization, ubiquitinated signaling receptors are delivered to early endosomes. There, they are sorted and incorporated into the intralumenal invaginations of nascent multivesicular bodies, which function as transport intermediates to late endosomes. Receptor sorting is achieved by Hrs—an adaptor-like protein that binds membrane PtdIns3P via a FYVE motif—and then by ESCRT complexes, which presumably also mediate the invagination process. Eventually, intralumenal vesicles are delivered to lysosomes, leading to the notion that EGF receptor sorting into multivesicular bodies mediates lysosomal targeting. Here, we report that Hrs is essential for lysosomal targeting but dispensable for multivesicular body biogenesis and transport to late endosomes. By contrast, we find that the PtdIns3P-binding protein SNX3 is required for multivesicular body formation, but not for EGF receptor degradation. PtdIns3P thus controls the complementary functions of Hrs and SNX3 in sorting and multivesicular body biogenesis.     

Shoc2 is targeted to late endosomes and required for Erk1/2 activation in EGF-stimulated cells

Shoc2 is the putative scaffold protein that interacts with RAS and RAF, and positively regulates signaling to extracellular signal-regulated protein kinases 1 and 2 (ERK1/2). To elucidate the mechanism by which Shoc2 regulates ERK1/2 activation by the epidermal growth factor (EGF) receptor (EGFR), we studied subcellular localization of Shoc2. Upon EGFR activation, endogenous Shoc2 and red fluorescent protein tagged Shoc2 were translocated from the cytosol to a subset of late endosomes containing Rab7. The endosomal recruitment of Shoc2 was blocked by overexpression of a GDP-bound H-RAS (N17S) mutant and RNAi knockdown of clathrin, suggesting the requirement of RAS activity and clathrin-dependent endocytosis. RNAi depletion of Shoc2 strongly inhibited activation of ERK1/2 by low, physiological EGF concentrations, which was rescued by expression of wild-type recombinant Shoc2. In contrast, the Shoc2 (S2G) mutant, that is myristoylated and found in patients with the Noonan-like syndrome, did not rescue ERK1/2 activation in Shoc2-depleted cells. Shoc2 (S2G) was not located in late endosomes but was present on the plasma membrane and early endosomes. These data suggest that targeting of Shoc2 to late endosomes may facilitate EGFR-induced ERK activation under physiological conditions of cell stimulation by EGF, and therefore, may be involved in the spatiotemporal regulation of signaling through the RAS-RAF module.     

Analysis of tyrphostin AG1478 effect on behavior of internalized EGF receptor at different stages of endocytosis

In the work, the effect of tyrphostin AG1478, a specific inhibitor of the receptor tyrosine kinase, on the behavior of an internalized EGF receptor at different stages upon the stimulation of endocytosis has been analyzed. It was found that tyrphostin added 30 min after the stimulation of endocytosis resulted in recycling of a significant portion of ¹²⁵I-EGF onto the cell surface. This portion decreased with time. EGF-receptor complexes, which are recycled under the action of AG1478, did not dissociate, possibly due to the ability of tyrphostin AG1478 to initiate receptor oligomerization in the absence of ligand and, therefore, probably affect dissociation constants. It was found that only a portion of the EGF receptor localized in early endosomes was able to recycle upon TK inhibition. The addition of inhibitor 30 and 60 min after the stimulation of endocytosis resulted in a decrease in the labeled EGF degradation. At early stages, internalized EGF-receptor complexes were mostly blocked in early endosomes, while, at late stages, their accumulation occurred in incompletely matured late endosomes. These data indicate that there is the late endocytic stage transition that depends on the receptor TK. Furthermore, the addition of tyrphostin after 90 min of endocytosis did not lead to a decrease, but rather an increase in degradation, which indicates the existence of mechanisms that create a temporal window during which receptor TK can carry out functions that are not directly connected with endocytosis.     

Differential use of two AP-3-mediated pathways by lysosomal membrane proteins

The adaptor protein complex AP-3 is involved in the sorting of lysosomal membrane proteins to late endosomes/lysosomes. It is unclear whether AP-3-containing vesicles form at the trans-Golgi network (TGN) or early endosomes. We have compared the trafficking routes of endolyn/CD164 and 'typical' lysosomal membrane glycoproteins (lgp120/lamp-1 and CD63/lamp-3) containing cytosolic YXXPhi-targeting motifs preceded by asparagine and glycine, respectively. Endolyn, which has a NYHTL-motif, is concentrated in lysosomes, but also occurs in endosomes and at the cell surface. We observed predominant interaction of the NYHTL-motif with the mu-subunits of AP-3 in the yeast two-hybrid system. Endolyn was mislocalized to the cell surface in AP-3-deficient pearl cells, confirming a major role of AP-3 in endolyn traffic. However, lysosomal delivery of endolyn (or a NYHTL-reporter), but not GYXXPhi-containing proteins, was practically abolished when AP-2-mediated endocytosis or traffic from early to late endosomes was inhibited in NRK and 3T3 cells. This indicates that endolyn is mostly transported along the indirect lysosomal pathway (via the cell surface), rather than directly from the TGN to late endosomes/lysosomes. Our results suggest that AP-3 mediates lysosomal sorting of some membrane proteins in early endosomes in addition to sorting of proteins with intrinsically strong AP-3-interacting lysosomal targeting motifs at the TGN.     

Endocytosed cation-independent mannose 6-phosphate receptor traffics via the endocytic recycling compartment en route to the trans-Golgi network and a subpopulation of late endosomes

Although the distribution of the cation-independent mannose 6-phosphate receptor (CI-MPR) has been well studied, its intracellular itinerary and trafficking kinetics remain uncertain. In this report, we describe the endocytic trafficking and steady-state localization of a chimeric form of the CI-MPR containing the ecto-domain of the bovine CI-MPR and the murine transmembrane and cytoplasmic domains expressed in a CHO cell line. Detailed confocal microscopy analysis revealed that internalized chimeric CI-MPR overlaps almost completely with the endogenous CI-MPR but only partially with individual markers for the trans-Golgi network or other endosomal compartments. After endocytosis, the chimeric receptor first enters sorting endosomes, and it then accumulates in the endocytic recycling compartment. A large fraction of the receptors return to the plasma membrane, but some are delivered to the trans-Golgi network and/or late endosomes. Over the course of an hour, the endocytosed receptors achieve their steady-state distribution. Importantly, the receptor does not start to colocalize with late endosomal markers until after it has passed through the endocytic recycling compartment. In CHO cells, only a small fraction of the receptor is ever detected in endosomes bearing substrates destined for lysosomes (kinetically defined late endosomes). These data demonstrate that CI-MPR takes a complex route that involves multiple sorting steps in both early and late endosomes.     

Hrs regulates multivesicular body formation via ESCRT recruitment to endosomes

Hrs and the endosomal sorting complexes required for transport, ESCRT-I, -II, and -III, are involved in the endosomal sorting of membrane proteins into multivesicular bodies and lysosomes or vacuoles. The ESCRT complexes are also required for formation of intraluminal endosomal vesicles and for budding of certain enveloped RNA viruses such as HIV. Here, we show that Hrs binds to the ESCRT-I subunit Tsg101 via a PSAP motif that is conserved in Tsg101-binding viral proteins. Depletion of Hrs causes a reduction in membrane-associated ESCRT-I subunits, a decreased number of multivesicular bodies and an increased size of late endosomes. Even though Hrs mainly localizes to early endosomes and Tsg101 to late endosomes, the two proteins colocalize on a subpopulation of endosomes that contain lyso-bisphosphatidic acid. Overexpression of Hrs causes accumulation of Tsg101 on early endosomes and prevents its localization to late endosomes. We conclude that Hrs mediates the initial recruitment of ESCRT-I to endosomes and, thereby, indirectly regulates multivesicular body formation.     

Vps34p differentially regulates endocytosis from the apical and basolateral domains in polarized hepatic cells

Using a microinjection approach to study apical plasma membrane protein trafficking in hepatic cells, we found that specific inhibition of Vps34p, a class III phosphoinositide 3 (PI-3) kinase, nearly perfectly recapitulated the defects we reported for wortmannin-treated cells (Tuma, P.L., C.M. Finnegan, J.-H Yi, and A.L. Hubbard. 1999. J. Cell Biol. 145:1089-1102). Both wortmannin and injection of inhibitory Vps34p antibodies led to the accumulation of resident apical proteins in enlarged prelysosomes, whereas transcytosing apical proteins and recycling basolateral receptors transiently accumulated in basolateral early endosomes. To understand how the Vps34p catalytic product, PI3P, was differentially regulating endocytosis from the two domains, we examined the PI3P binding protein early endosomal antigen 1 (EEA1). We determined that EEA1 distributed to two biochemically distinct endosomal populations: basolateral early endosomes and subapical endosomes. Both contained rab5, although the latter also contained late endosomal markers but was distinct from the transcytotic intermediate, the subapical compartment. When PI3P was depleted, EEA1 dissociated from basolateral endosomes, whereas it remained on subapical endosomes. From these results, we conclude that PI3P, via EEA1, regulates early steps in endocytosis from the basolateral surface in polarized WIF-B cells. However, PI3P must use different machinery in its regulation of the apical endocytic pathway, since later steps are affected by Vps34p inhibition.