Endocytosis of interleukin 2 receptors in human T lymphocytes: distinct intracellular localization and fate of the receptor alpha, beta, and gamma chains.

Members of the cytokine receptor family are composed of several noncovalently linked chains with sequence and structure homologies in their extracellular domain. Receptor subfamily members share at least one component: thus the receptors for interleukin (IL) 2 and IL15 have common beta and gamma chains, while those for IL2, 4, 7, and 9 have a common gamma chain. The intracellular pathway followed by IL2 receptors after ligand binding and endocytosis was analyzed by immunofluorescence and confocal microscopy in a human T lymphocytic cell line. Surprisingly, the alpha, beta, and gamma chains had different intracellular localizations after being endocytosed together. The alpha chain was always in transferrin-positive compartments (early/recycling endosomes), both at early and late internalization times, but was never detected in rab7-positive compartments (late endosomes). On the other hand, at late internalization times, the beta and gamma chains were excluded from transferrin-positive organelles and did not colocalize with alpha. Furthermore, beta could be found in rab7-positive vesicles. These differences suggest that the alpha chain recycles to the plasma membrane, while the beta and gamma chains are sorted towards the degradation pathway. The half-lives of these three chains on the cell surface also reflect their different intracellular fates after endocytosis. The beta and gamma chains are very short-lived polypeptides since their half-life on the surface is only approximately 1 h, whereas alpha is a much more stable surface protein. This shows for the first time that components of a multimeric receptor can be sorted separately along the endocytic pathway.

Accumulation in fetal muscle and localization to the neuromuscular junction of cAMP-dependent protein kinase A regulatory and catalytic subunits RI alpha and C alpha.

Using probes specific for cAMP-dependent protein kinase, we have analyzed by in situ hybridization the patterns of expression of regulatory and catalytic subunits in mouse embryos and in adult muscle. RI alpha transcripts are distributed in muscle fibers exactly as acetylcholinesterase, showing that this RNA is localized at the neuromuscular junction. The transcript levels increase upon denervation of the muscle, but the RNA remains localized, indicating a regulation pattern similar to that of the epsilon subunit of nicotinic acetylcholine receptor. RI alpha transcripts have accumulated in the muscle by day 12 of mouse embryogenesis, and localization is established by day 14, at about the time of formation of junctions. This localization is maintained throughout development and in the adult. Immunocytochemical analysis has demonstrated that RI alpha protein is also localized. In addition, RI alpha recruits C alpha protein to the junction, providing at this site the potential for local responsiveness to cAMP. PKA could be implicated in the establishment and/or maintenance of the unique pattern of gene expression occurring at the junction, or in the modulation of synaptic activity via protein phosphorylation. Embryonic skeletal muscle shows a high level of C alpha transcripts and protein throughout the fiber; the transcripts are already present by day 12 of embryogenesis, and their elevated level is maintained only through fetal life. In the adult, the C alpha hybridization signal of muscle is weak and homogeneous.

A small rab GTPase is distributed in cytoplasmic vesicles in non polarized cells but colocalizes with the tight junction marker ZO-1 in polarized epithelial cells.

Small rab/Ypt1/Sec4 GTPase family have been involved in the regulation of membrane traffic along the biosynthetic and endocytic pathways in eucaryotic cells. Polarized epithelial cells have morphologically and functionally distinct apical and basolateral surfaces separated by tight junctions. The establishment and maintenance of these structures require delivery of membrane proteins and lipids to these domains. In this work, we have isolated a cDNA clone from a human intestinal cDNA library encoding a small GTPase, rab13, closely related to the yeast Sec4 protein. Confocal microscopy analysis on polarized Caco-2 cells shows that rab13 protein colocalized with the tight junction marker ZO-1. Cryostat sections of tissues confirm that rab13 localized to the junctional complex region of a variety of epithelia, including intestine, kidney, liver, and of endothelial cells. This localization requires assembly and integrity of the tight junctions. Disruption of tight junctions by incubation in low Ca2+ media induces the redistribution of rab13. In cells devoid of tight junctions, rab13 was found associated with vesicles dispersed throughout the cytoplasm. Cell-cell contacts initiated by E-cadherin in transfected L cells do not recruit rab13 to the resulting adherens-like junction complexes. The participation of rab13 in polarized transport, in the assembly and/or the activity of tight junctions is discussed.

Virus-like particle formation in Drosophila melanogaster germ cells suggests a complex translational regulation of the retrotransposon cycle and new mechanisms inhibiting transposition.

Transposition of 1731, a Drosophila melanogaster LTR retrotransposon, was investigated in reproductive organs by RNA, protein and VLP distribution during its life cycle. We detected 1731 transcription in oogonia but not in spermatogonia; in all cells during oogenesis but only in primary spermatocytes; and in ovarian cytoplasm but both in nuclei and cytoplasm of primary spermatocytes. By confocal scanning, we showed that whereas Gag protein appeared in all cytoplasms during oogenesis, in testes Gag detection began in late premeiotic primary spermatocytes and increased in elongating spermatids suggesting distinct mechanisms of 1731 transcription and translation regulation. By electron microscopy, we did not detect 1731 VLPs in ovaries, suggesting a complex post-translational control blocking VLP assembly and transposition. Interestingly, in testes we discovered VLP aggregates in cystic cytoplasm of maturing partially individualized spermatids. In testes, we observed two delays in 1731 product expressions, suggesting a complex temporal control mechanism. Transcriptional/translational delay may be determined by accumulation of 1731 RNAs in primary spermatocyte nuclei. Translational/VLP assembly delay may be determined by post-transductional mechanisms controlling +1 frameshift and Pol-protein degradation. Our results indicated two differential mechanisms inhibiting 1731 transposition in Drosophila melanogaster ovaries and testes. In addition, we proposed a new mechanism for transposition control at the cell cycle level.

Both the alpha and beta chains of high-affinity interleukin 2 receptors are located in intracellular vesicles when their ligand is endocytosed.

The growth factor interleukin 2 (IL2) binds to high and low-affinity receptors (Kd approximately 10-100 pM and 10 nM, respectively) present on activated T lymphocytes. High-affinity receptors are composed of two non-convalently linked polypeptides, alpha and beta of 55 and 70 kDa. These two polypeptides do not share any sequence homology, but each of them, in the absence of the other, binds IL2: alpha with a Kd approximately 10 nM and beta with a Kd approximately 1 nM. When these two chains are associated in lymphocytes, they form high-affinity receptors that mediate IL2 endocytosis and degradation, and transduce IL2 signaling. On cells that physiologically express IL2 receptors, such as activated T lymphocytes, both high and low affinity-receptors are present simultaneously on the cell surface, and low-affinity receptors (alpha without beta) are, in most instances, more abundant by a factor 5 to 10 than high-affinity receptors (alpha associated to beta). Low-affinity receptors bind IL2 but do not induce its internalization and signaling. The physiological role of the complexity of this receptor system is not fully understood. In the present study, we have investigated directly the fate of the high-affinity receptors when the ligand is endocytosed. By confocal microscopy, using two monoclonal antibodies specific for alpha and for beta, respectively, we show that each of these two polypeptides is located in intracellular endocytic compartments. Therefore, when the alpha chain is part of high-affinity receptors, it is endocytosed, as opposed to when it is part of low-affinity receptors and is not endocytosed.(ABSTRACT TRUNCATED AT 250 WORDS)

Modified lysosomal compartment as carrier of slowly and non-degradable tracers in macrophages.

A previous immunocytochemical study of macrophages infected with Bacillus subtilis showed that a cell wall antigen could be detected for several days in a population of small vesicles randomly distributed within the cells and apparently distinct from perinuclear lysosomes. These observations suggested the possibility that these vesicles might constitute a "storage" compartment for non-degradable compounds. In the present report we compared in pulse-chase experiments the location and fate of a series of degradable and non-degradable pinocytic tracers within the macrophages. The tracers, detected by fluorescent microscopy, were bovine serum albumin (BSA), hen egg ovalbumin (OVA), horseradish peroxidase (HRP). Lucifer Yellow, fluorescent dextran, and levan. BSA and OVA remained located in perinuclear lysosomes during the chase period until their disappearance occurring within 3 h. In contrast, the other tracers, although initially located in perinuclear lysosomes, were found after a 3 to 5-h chase in small vesicles homogeneously distributed in the macrophage cytoplasm where they remained visible for 2 to 3 days. The use of markers for different cell organelles indicated that these dispersed vesicles exhibited several of the lysosomal features. They were acidic, they contained the 100 kDa and the 120 kDa lysosomal proteins as well as some acid proteases albeit these markers were in lesser concentrations than in the perinuclear lysosomal compartment. The addition of bacteria to the macrophages previously loaded with fluorescent dextran showed that all dispersed vesicles have the same fusion property as lysosomes and that slowly degraded or non-degradable tracers turn over through the perinuclear lysosomal compartment by using the endocytic pathway. Measurement of the release of some of the tracers into the culture medium suggested that the "dispersed vesicles" were probably not implicated in exocytosis of the tracers.

Evidence that the capsule around mycobacteria grown in axenic media contains mycobacterial antigens: implications at the level of cell envelope architecture.

The intracellular growth of pathogenic mycobacteria has been linked to the presence of an electron transparent zone (ETZ or capsule), which surrounds the phagocytized bacteria and prevents the diffusion of lysosomal enzymes in infected macrophages. Recently, it was suggested that this capsule may be a bacterial structures, even being present in test tube-grown pathogenic mycobacteria (FEMS Microbiol. Lett. 1988, 56, 225-230). In the present paper, we show that under special fixation and embedding conditions, this capsule was clearly observed among 7 strains of mycobacteria grown in axenic media and also in M. leprae extracted and purified from experimentally infected armadillo or nude mice. In the case of bacteria treated likewise but subject to a prior dehydration step, this capsular structure disappeared suggesting its lipidic nature. Ultrathin sections of M. intracellular after immunolabelling showed for the first time that this capsule obtained mycobacterial antigens confirming its mycobacterial origin. It is suggested that the mycobacterial capsule may be formed of inert lipids, in which surface antigens are embedded.

Electron-microscope study of Dictyostelium discoideum plasma membrane and its modifications during and after phagocytosis.

The study of plasma membrane and phagosome membrane of Dictyostelium discoideum was performed using 2 lectins: concanavalin A (Con A) and Wheat Germ Agglutinin (WGA), and 2 markers of anionic sites: colloidal iron hydroxide (CIH) and cationized ferritin (CF). These labellings were applied to fixed partially broken cells, which had ingested a large quantity of yeast. They showed that Con A and CF labelled both the outer and inner faces of the plasma membrane, whereas CIH and WGA were deposited on the outer face only. Phagosome membranes displayed the same location as the plasma membrane for Con A, CF and CIH even in very old phagosomes. This suggests that most receptors of these 3 markers were not degraded by hydrolases. In contrast, phagosome membranes of young and old phagosomes did not react with WGA. When labellings were made on yeast phagocytozing cells, the membrane of phagocytic cups were also devoid of WGA, while it was labelled with the 3 other markers. The absence of WGA labelling was not observed during ingestion of bacteria and latex beads, suggesting a specific relationship existed between yeast cells and WGA receptors.

Relationships between anionic sites and lectin receptors in the plasma membrane of Dictyostelium discoideum and their role in phagocytosis.

The disappearance of Wheat Germ Agglutinin (WGA) receptors from the membrane of yeast-engulfing-phagocytic cups in Dictyostelium suggested that these receptors could play a role in yeast adsorption or ingestion. This problem was approached by comparing the fate of WGA, Concanavalin A (Con A) and cationized ferritin (CF) and their effects on the phagocytosis of yeast, bacteria and latex beads. It can be concluded that CF capped in about 30 min and inhibited phagocytosis of any kind of particles for about 15 min. Con A capped in 20--60 min and inhibited phagocytosis of all particles for 1 h 30 min. The time at which phagocytosis started to occur corresponded approximately to the moment at which large areas of plasma membrane were totally devoid of marker. WGA did not cap but induced the formation of large and tight aggregates. The surface of the peripheral cells progressively released WGA in 1 h 30 min. Afterwards, the cells were able to ingest latex beads and bacteria but did not phagocytoze yeast. The latter started to be adsorbed onto the cells and to be ingested only 1 h later. Double labelling experiments showed that CF and Con A receptors were still absent in the plasma membrane, when phagocytosis of any kind of particles started to occur. WGA-labelled cells ingested latex beads and bacteria when their plasma membrane was still devoid of WGA receptors but were able to ingest yeast only after their regeneration. These observations strongly suggest that WGA receptors may correspond to specific receptors for yeast phagocytosis.

Role of particle electrostatic charge in adhesion and ingestion in Dictyostelium discoideum amoeboid cells.

The use of colloid iron hydroxide, Alcian Blue and enzymic treatments confirmed that the negative charges of Dictyostelium discoideum cell surface are mostly due to carboxylic groups. The role of electrostatic charges in adhesion and ingestion was determined by exposing cells to untreated latex beads, polylysine or polyglutamic-acid-coated beads, or carboxylated beads. This study showed that negatively charged beads presented a weaker adhesion strength than positively charged ones and that adhesion was strongest with untreated beads. This shows that hydrophobic forces are stronger than those induced by opposite electric charges between particle and cell surface. The ingestion rate was not directly related to adhesion because negatively charged beads presented the highest phagocytic rate, polylysine-coated beads had the lowest and neutral beads an intermediate one. The treatment of cells with polylysine or polyglutamic acid before neutral bead addition generally enhanced the ingestion rate. Electron microscopic observations made on polylysine-treated cells showed, however, that this stimulating effect was not due to the presence of the polymer on the cell surface but to a membrane clearance phenomenon occurring during polymer elimination. All these observations have led to the conclusion that the electric charges of the particle do not play a major role in D. discoideum phagocytic ability. Hydrophobic forces and probably other unknown parameters related to the cell surface properties are more important.

Differential handling of bacterial antigens in macrophages infected with Mycobacterium leprae as studied by immunogold labeling of ultrathin sections.

Mycobacterium leprae were purified from the livers of experimentally infected armadillos, and the purity of the bacterial preparation was established by electron microscopy, immunoelectrophoresis of purified bacilli with rabbit serum raised against liver tissues from a noninfected armadillo, and gas chromatography. Such purified and intact bacilli were fixed and embedded by a gelatin-Lowicryl method for electron microscopy which preserved the mycobacterial antigens. Ultrathin sections were labeled with antisera raised in rabbits against the total antigens of the following species of mycobacteria: M. leprae, M. bovis BCG, M. avium, and a rapid-growing, nonpathogenic species, M. fallax. Bacteria were also labeled using serum raised against 2,3-diacyl-trehalose-2'-sulfate (sulfolipid-IV or SLIV) isolated and purified from M. tuberculosis. The immunolabeling was visualized under the electron microscope (EM) by using a secondary probe (goat-antirabbit IgG, H+L, coupled to 5 nm gold particles; GAR-5). EM results showed that M. leprae bacilli were highly labeled with all of the antisera used except SLIV, which was present only in discrete amounts. All of the antisera used labeled the bacterial "capsule," showing that this structure was not an artifact since it contained mycobacterial antigens. In parallel experiments, the murine J-774 macrophage cell line was infected with purified M. leprae, and fixed for EM at various time intervals for 1 week. Although the phagocytized bacteria did not multiply during the 1-week experiment, macrophages were unable to lyse them. Immunogold labeling of bacterial antigens in ultrathin sections of infected macrophages helped us to conclude: a) bacterial death and/or lysis is not a prerequisite for processing of antigens by infected macrophages; b) there was conclusive evidence for a differential antigen handling, i.e., some antigens were rapidly released (within 2 days, mostly capsular antigens) inside infected macrophages and transported to the macrophage surface, whereas others (the majority of them located in the cell-wall skeleton and in deeper bacterial structures) remained unreleased even after 4 to 7 days of infection; c) although relatively fewer epitopes reacting with anti-SLIV antibodies were found, they were rapidly released (within 2 days) inside macrophages, and exocytized to the macrophage surface. These novel findings are discussed in relation to leprosy and the current knowledge about the processing of bacterial antigens.

[Preliminary studies on chromatin subunits by freeze-etching]. / Etudes préliminaires des sous-unités de la chromatine par cryodécapage

We show that freeze-etching electron microscopy preserves and visualizes chromatin structure at level 25 A. Chromatin depleted of histone H 1 is observed to consist of subunits each having a central asymmetric core of DNA and protein 100 by 120 A. Around this core is wound a loop of DNA containing about 130 base pairs and perhaps some protein.

The envelope structure of Branhamella catarrhalis as studied by transmission electron microscopy.

The envelope structure of Branhamella catarrhalis was studied by electron microscopy and compared with that of other bacteria of the family Neisseriaceae, such as Moraxella lacunata subsp. liquefaciens and Neisseria gonorrhoeae. Negative staining of B. catarrhalis showed a mamilliform surface similar to that of Moraxella. On thin sections, the cell wall appeared to be made up of a wavy outer membrane tightly linked to a straight peptidoglycan layer. Spicule-like structures protruded from the cell surface. Ruthenium red staining revealed that they contained polysaccharides. While the outer polysaccharide layer of N. gonorrhoeae was unstable after repeated subcultures in vitro, this layer remained stable in B. catarrhalis and in Moraxella lacunata subsp. liquefaciens.

Movement along actin filaments of the perijunctional area and de novo polymerization of cellular actin are required for Shigella flexneri colonization of epithelial Caco-2 cell monolayers.

Shigella flexneri invades eucaryotic cells and grows in the cytoplasm. Lysis of the phagosomal membrane is a prerequisite for both intracellular multiplication and movement of the bacteria that gain direct access to the host cell actin. In HeLa cells, bacteria generate their own movement essentially by inducing actin polymerization. Polymerization of actin enables them to move rapidly and randomly in the cytoplasm and to spread from one cell to another through protrusions of the host cell membrane. This movement was designated the Ics phenotype. In contrast, in chicken embryo fibroblasts, bacteria move along actin filaments in a very organized manner, following the cytoskeletal architecture; this movement was designated the Olm phenotype. Bacterial movement is a major virulence factor in that it is necessary for efficient colonization of the intestinal epithelium of infected macaque monkeys. Further characterization of the cellular events that lead to colonization of the colonic intestinal epithelium was needed. In order to characterize the movement in vitro in a cell assay system more closely related to the intestinal epithelium, we used human colonic epithelial Caco-2 cells. The movement of bacteria as observed by using immunofluorescence and confocal microscopy appeared to result from the expression of both the Olm and Ics phenotypes. The former allowed colonization of cells along the actin filament ring of the perijunctional area. The latter promoted passage from one cell to adjacent cells. This in vitro pattern of movement and multiplication gives S. flexneri, once it has entered an epithelial cell, the unique capacity to spread through the entire epithelial layer without having further contact with the extracellular compartment.

Distribution of endosomal, lysosomal, and major histocompatability complex markers in a monocytic cell line infected with Chlamydia psittaci.

The intracellular fate of Chlamydia psittaci during infection of a monocytic cell line, THP1, was characterized. Cytochalasin D inhibited phagocytosis of latex beads but had no effect on infection by C. psittaci, and vacuoles expressed the transferrin receptor, suggesting accessibility to the endocytic pathway. Early Chlamydia-containing vacuoles expressed major histocompatibility complex (MHC) class I molecules, and most vacuoles fused with host cell lysosomes, since they expressed LAMP-1 and had acidic pHs. In cells prestimulated with gamma interferon, vacuoles also expressed MHC class II molecules, suggesting that the monocytes might effectively process Chlamydia-derived antigens for presentation by MHC class I and class II molecules.

Internalization and biological effects of serum albumin in the breast cancer MCF-7 and MDA-MB 231 cells.

We show that albumin is internalized by human breast cancer cells (MDA-MB 231 and MCF-7) in culture by using confocal laser scanning microscopy. Moreover, albumin has an effect on the level of radioactivity incorporated when the cells are incubated with radioactive estradiol, and it is necessary to observe the mitogenic effect of estradiol towards the MCF-7 cells. This finding opens some possibilities regarding the internalization mechanisms and fate (degradation, recycling) of albumin as well as the role played by this protein in the intracellular metabolism of estradiol and in the intra-extracellular traffic of estradiol and its metabolites.

Study of cell wall growth in Bacillus megaterium by high-resolution autoradiography.

Growth of the cell wall of Bacillus megaterium was studied by pulse-labeling the cell wall of a DAP- Lys- mutant for a very short time with tritium-labeled diaminopimelic acid. The distribution of radioactivity along the cell wall was examined by high-resolution autoradiography on isolated cell walls and thin sections of bacteria. The results indicate that cell wall elongation occurs by diffuse intercalation of newly synthesized murein into the expanding cell wall during exponential growth, as well as during germination, and that the only zone of highly localized diaminopimelic acid incorporation is found at the cross wall during its synthesis. This zone contains about 30% of the radioactivity incorporated into the cell wall. Analysis of autoradiographs of thin sections of bacteria shows that the total radioactivity incorporated per bacterium doubles during the life cycle. This doubling occurs in the cylindrical part of the cell wall but not in the polar caps. This seems to indicate that elongation of the bacterium is not constant during the life cycle but increases with the length of the cell.

A new insight into the mycobacterial cell envelope architecture by the localization of antigens in ultrathin sections.

In an attempt to have a better insight into the mycobacterial cell envelope architecture, various subcellular fractions of Mycobacterium avium were prepared and characterized chemically and ultrastructurally. The various fractions corresponding to the mycobacterial "capsular material", outer layer, cell wall skeleton, cytoplasmic membrane, and cytosol as well as intact bacteria were then used to raise antisera in rabbits. The antisera so raised were then used to immunolabel the intact bacteria prior to embedding in epon. In parallel studies, bacteria were processed by a novel gelatin-uranyl acetate-low temperature Lowicryl HM20 embedding which preserved mycobacterial antigens, permitting to immunolabel antigens on ultrathin sections. Immunolabelling of epon-embedded intact bacteria showed that in the tripartite structure of the bacterial cell envelope, the middle electron-transparent layer acted as a barrier, not permitting the antibodies to penetrate into deeper structures. Immunolabelling of ultrathin sections showed that mycobacteria were surrounded by a "capsule" containing specific surface antigens with a glycocalyx-like topography, and that the intermediate electron transparent layer which separated the surface amphiphils from the inner arabinogalactan-peptidoglycan layer, was a virtual no man's land as it only seldom contained a single gold particle irrespective of the various antisera used. Furthermore, location of various layers in the cell envelope of M. avium using antisera raised against the subcellular fractions prepared was in agreement with chemical and ultrastructural data. A cell envelope model compatible with chemical, ultrastructural and immunolabelling data is proposed and its validity discussed.

Leishmania donovani-infected macrophages: characterization of the parasitophorous vacuole and potential role of this organelle in antigen presentation.

Leishmania donovani amastigotes, the etiological agents of visceral leishmaniasis, are obligate intracellular parasites residing in membrane-bound compartments of macrophages called parasitophorous vacuoles (PV). The study of these organelles is of paramount importance to understanding how these parasites resist the microbicidal mechanisms of macrophages and how they escape the immune response of their hosts. Confocal microscopy of mouse bone marrow-derived macrophages infected with L. donovani amastigotes and stained for various prelysosomal/lysosomal markers and for major histocompatibility complex (MHC) molecules was used to define PV with respect to the endocytic compartments of the host cells and to address the issue of their potential role in antigen processing and presentation. Forty-eight hours after infection, many PV contained cathepsins B, D, H and L and they were all surrounded by a membrane enriched for the lysosomal glycoprotein lgp120/lamp 1 but apparently devoid of the cation-independent mannose 6-phosphate receptor, a membrane protein generally absent from the lysosomes. These data suggested that PV acquire within 48 hours the characteristics of a lysosomal compartment. However, both macrosialin and the GTP-binding protein rab7p (specific markers of the prelysosomal compartment) were found to be highly expressed in/on PV membrane. Thus, at this stage, PV appear to exhibit both lysosomal and prelysosomal features. Infected macrophages activated with IFN-gamma before or after infection showed PV strongly stained for MHC class II molecules but not for MHC class I molecules. This suggests that, if infected macrophages can act as antigen-presenting cells for class I-restricted CD8+ T lymphocytes, Leishmania antigens must exit the PV. MHC class II molecules reached the PV progressively, indicating that they were not plasma membrane-bound molecules trapped during internalization of the parasites. The redistribution of class II observed in infected cells did not alter their quantitative expression on the plasma membrane at least during the first 48 hours following the phagocytosis of the parasites. The invariant chains, which are transiently associated with class II molecules during their intracellular transport and which mask their peptide-binding sites, did not reach PV or were rapidly degraded in these sites, suggesting that PV-associated class II are able to bind peptides. This last assumption is strengthened by the fact that class II located in PV could bind conformational antibodies that preferentially recognize class II with tightly associated peptides.(ABSTRACT TRUNCATED AT 400 WORDS)