Your search keyword '"Anken, Eelco"' showing total 32 results

1. Time- and cost-effective production of untagged recombinant MVA by flow virometry and direct virus sorting

Author

Boselli, Daniela, Panigada, Maddalena, Di Terlizzi, Simona, Romanò, Monica, Canonico, Emanuele, Villa, Chiara, Minici, Claudia, van Anken, Eelco, Soprana, Elisa, and Siccardi, Antonio G.

Published

2023

2. A tetracationic porphyrin with dual anti-prion activity

Author

Masone, Antonio, Zucchelli, Chiara, Caruso, Enrico, Lavigna, Giada, Eraña, Hasier, Giachin, Gabriele, Tapella, Laura, Comerio, Liliana, Restelli, Elena, Raimondi, Ilaria, Elezgarai, Saioa R., De Leo, Federica, Quilici, Giacomo, Taiarol, Lorenzo, Oldrati, Marvin, Lorenzo, Nuria L., García-Martínez, Sandra, Cagnotto, Alfredo, Lucchetti, Jacopo, Gobbi, Marco, Vanni, Ilaria, Nonno, Romolo, Di Bari, Michele A., Tully, Mark D., Cecatiello, Valentina, Ciossani, Giuseppe, Pasqualato, Sebastiano, Van Anken, Eelco, Salmona, Mario, Castilla, Joaquín, Requena, Jesús R., Banfi, Stefano, Musco, Giovanna, and Chiesa, Roberto

Published

2023

3. Congress of multiple dimers is needed for cross-phosphorylation of IRE1α and its RNase activity.

Author

Orsi, Andrea, van Anken, Eelco, Vitale, Milena, Zamai, Moreno, Caiolfa, Valeria R., Sitia, Roberto, and Bakunts, Anush

Published

2024

4. Keratin 8 is a scaffolding and regulatory protein of ERAD complexes

Author

Pranke, Iwona Maria, Chevalier, Benoit, Premchandar, Aiswarya, Baatallah, Nesrine, Tomaszewski, Kamil F., Bitam, Sara, Tondelier, Danielle, Golec, Anita, Stolk, Jan, Lukacs, Gergely L., Hiemstra, Pieter S., Dadlez, Michal, Lomas, David A., Irving, James A., Delaunay-Moisan, Agnes, van Anken, Eelco, Hinzpeter, Alexandre, Sermet-Gaudelus, Isabelle, and Edelman, Aleksander

Published

2022

5. Time- and cost-effective production of untagged recombinant MVA by flow virometry and direct virus sorting.

Author

Daniela, Boselli, Panigada, Maddalena, Di Terlizzi, Simona, Romanò, Monica, Canonico, Emanuele, Villa, Chiara, Minici, Claudia, van Anken, Eelco, Soprana, Elisa, and Siccardi, Antonio G.

Subjects

GENE expression, CHIMERIC proteins, CELL fusion, WORKBENCHES, MOLECULAR cloning

Abstract

Background: Recombinant MVAs (rMVAs) are widely used both in basic and clinical research. Our previously developed Red-to-Green Gene Swapping Method (RGGSM), a cytometry-based Cell-Sorting protocol, revolves around the transient expression of a green fluorescent cytoplasmic marker, to subsequently obtain purified untagged rMVA upon loss of that marker by site-specific recombination. The standard RGSSM is quite costly in terms of bench work, reagents, and Sorting Facility fees. Although faster than other methods to obtain recombinant MVAs, the standard RGSSM still is time-consuming, taking at least 25 days to yield the final product. Methods: The direct sorting of fluorescent virions is made amenable by the marker HAG, a flu hemagglutinin/EGFP fusion protein, integrated into the external envelope of extracellular enveloped virions (EEVs). Fluorescent EEVs-containing supernatants of infected cultures are used instead of purified virus. Direct Virus-Sorting was performed on BD FACSAria Fusion cell sorter equipped with 4 lasers and a 100-mm nozzle, with 20 psi pressure and a minimal flow rate, validated using Megamix beads. Results: Upon infection of cells with recombinant EEVs, at the first sorting step virions that contain HAG are harvested and cloned, while the second sorting step yields EEVs that have lost HAG, allowing to clone untagged rMVA. Because only virion-containing supernatants are used, no virus purification steps and fewer sortings are necessary. Therefore, the final untagged rMVA product can be obtained in a mere 8 days. Conclusions: Altogether, we report that the original RGSSM has been markedly improved in terms of time- and cost efficiency by substituting Cell-Sorting with direct Virus-Sorting from the supernatants of infected cells. The improved virometry-based RGGSM may find wide applicability, considering that rMVAs hold great promise to serve as personalized vaccines for therapeutic intervention against cancer and various types of infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2023

6. Efficient lgm Assembly and Secretion Require the Plasma Cell Induced Endoplasmic Reticulum Protein pERp1

Author

van Anken, Eelco, Pena, Florentina, Hafkemeijer, Nicole, Christis, Chantal, Romijn, Edwin P., Grauschopf, Ulla, Oorschot, Viola M. J., Pertel, Thomas, Engels, Sander, Ora, Ari, Lástun, Viorica, Glockshuber, Rudi, Klumperman, Judith, Heck, Albert J. R., Luban, Jeremy, Braakman, Ineke, and Glimcher, Laurie H.

Published

2009

7. Efficient IgM assembly and secretion require the plasma cell induced endoplasmic reticulum protein pERp1

Author

van Anken, Eelco, Pena, Florentina, Hafkemeijer, Nicole, Christis, Chantal, Romijn, Edwin P., Oorschot, Ulla Grauschop Viola M.J., Pertel, Thomas, Engels, Sander, Ora, Ari, Lastun, Viorica, Glockshuber, Rudi, Klumperman, Judith, Heck, Albert J.R., Luban, Jeremy, and Braakman, Ineke

Subjects

Immunoglobulins -- Research, Endoplasmic reticulum -- Research, Protein folding -- Research, Science and technology

Abstract

Plasma cells daily secrete their own mass in antibodies, which fold and assemble in the endoplasmic reticulum (ER). To reach these levels, cells require pERp1, a novel lymphocyte-specific small ER-resident protein, which attains expression levels as high as BiP when B cells differentiate into plasma cells. Although pERp1 has no homology with known ER proteins, it does contain a CXXC motif typical for oxidoreductases. In steady state, the CXXC cysteines are locked by two parallel disulfide bonds with a downstream C[(X).sub.6]C motif, and pERp1 displays only modest oxidoreductase activity, pERpl emerged as a dedicated folding factor for IgM, associating with both heavy and light chains and promoting assembly and secretion of mature IgM.

Published

2009

8. Messenger RNA targeting to endoplasmic reticulum stress signalling sites

Author

Aragon, Tomas, van Anken, Eelco, Pincus, David, Serafimova, Iana M., Korennykh, Alexei V., Rubio, Claudia A., and Walter, Peter

Subjects

Endoplasmic reticulum -- Physiological aspects -- Research -- Usage, RNA splicing -- Usage -- Research -- Physiological aspects, Messenger RNA -- Physiological aspects -- Structure -- Research -- Usage, Cellular signal transduction -- Research -- Physiological aspects -- Usage, Environmental issues, Science and technology, Zoology and wildlife conservation, Structure, Physiological aspects, Usage, Research

Abstract

Deficiencies in the protein-folding capacity of the endoplasmic reticulum (ER) in all eukaryotic cells lead to ER stress and trigger the unfolded protein response (UPR) (1-3). ER stress is sensed by Ire1, a transmembrane kinase/endoribonuclease, which initiates the non-conventional splicing of the messenger RNA encoding a key transcription activator, Hac1 in yeast or XBP1 in metazoans. In the absence of ER stress, ribosomes are stalled on unspliced HAC1 mRNA. The translational control is imposed by a base-pairing interaction between the HAC1 intron and the HAC1 5' untranslated region (4). After excision of the intron, transfer RNA ligase joins the severed exonss. (5,6), lifting the translational block and allowing synthesis of Hac1 from the spliced HAC1 mRNA to ensue (4). Hac1 in turn drives the UPR gene expression program comprising 7-8% of the yeast genome (7) to counteract ER stress. Here we show that, on activation, Ire1 molecules cluster in the ER membrane into discrete foci of higher-order oligomers, to which unspliced HAC1 mRNA is recruited by means of a conserved bipartite targeting element contained in the 3' untranslated region. Disruption of either Ire1 clustering or HAC1 mRNA recruitment impairs UPR signalling. The HAC13' untranslated region element is sufficient to target other mRNAs to Ire1 foci, as long as their translation is repressed. Translational repression afforded by the intron fulfils this requirement for HAC1 mRNA. Recruitment of mRNA to signalling centres provides a new paradigm for the control of eukaryotic gene expression., In vitro studies indicate that the information required for HAC1 mRNA splicing is confined to the intron and the regions surrounding the splice junctions (8). Surprisingly, in vivo splicing of [...]

Published

2009

9. The B-cell receptor controls fitness of MYC-driven lymphoma cells via GSK3 inhibition

Author

Varano, Gabriele, Raffel, Simon, Sormani, Martina, Zanardi, Federica, Lonardi, Silvia, Zasada, Christin, Perucho, Laura, Petrocelli, Valentina, Haake, Andrea, Lee, Albert K., Bugatti, Mattia, Paul, Ulrike, Van Anken, Eelco, Pasqualucci, Laura, Rabadan, Raul, Siebert, Reiner, Kempa, Stefan, Ponzoni, Maurilio, Facchetti, Fabio, Rajewsky, Klaus, and Casola, Stefano

Subjects

B cells -- Health aspects, Lymphomas -- Genetic aspects, Transcription factors -- Health aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Gabriele Varano [1]; Simon Raffel [2]; Martina Sormani [1]; Federica Zanardi [1]; Silvia Lonardi [3]; Christin Zasada [4]; Laura Perucho [1]; Valentina Petrocelli [1]; Andrea Haake [5]; Albert K. [...]

Published

2017

10. Sequential Waves of Functionally Related Proteins Are Expressed When B Cells Prepare for Antibody Secretion

Author

van Anken, Eelco, Romijn, Edwin P., Maggioni, Claudia, Mezghrani, Alexandre, Sitia, Roberto, Braakman, Ineke, and Heck, Albert J.R.

Published

2003

11. Molecular Evaluation of Endoplasmic Reticulum Homeostasis Meets Humoral Immunity.

Author

van Anken, Eelco, Bakunts, Anush, Hu, Chih-Chi Andrew, Janssens, Sophie, and Sitia, Roberto

Subjects

*HUMORAL immunity, *UNFOLDED protein response, *HOMEOSTASIS, *B cells, *ENDOPLASMIC reticulum, *CARRIER proteins

Abstract

The biosynthesis of about one third of the human proteome, including membrane receptors and secreted proteins, occurs in the endoplasmic reticulum (ER). Conditions that perturb ER homeostasis activate the unfolded protein response (UPR). An 'optimistic' UPR output aims at restoring homeostasis by reinforcement of machineries that guarantee efficiency and fidelity of protein biogenesis in the ER. Yet, once the UPR 'deems' that ER homeostatic readjustment fails, it transitions to a 'pessimistic' output, which, depending on the cell type, will result in apoptosis. In this article, we discuss emerging concepts on how the UPR 'evaluates' ER stress, how the UPR is repurposed, in particular in B cells, and how UPR-driven counter-selection of cells undergoing homeostatic failure serves organismal homeostasis and humoral immunity. Endoplasmic reticulum (ER) stress sensing occurs in a ratiometric fashion: the ratio of binding immunoglobulin protein (BiP) levels over its clients determines the unfolded protein response (UPR) signaling amplitude. This insight unifies previous models of UPR activation. UPR-driven ER homeostatic readjustment is successful only when BiP levels rise to eclipse (again) those of its clients. Otherwise, homeostatic failure and client-driven proteotoxicity ensues. Upon ER homeostatic failure, the UPR sensor IRE1α is chronically maximally activated, such that, through splicing, it 'consumes' available stores of its main substrate XBP1 U mRNA, and as a result, commits to regulated IRE1-dependent decay (RIDD). Splicing-to-RIDD transitioning thus heralds a shift from an 'optimistic' to a 'pessimistic' UPR, which may entail apoptosis. Immunologically driven Ig sequence variability inherently leads to ER homeostatic failure in many precursor B cells. Thus, the UPR can serve to counter-select against 'faulty' B cells. [ABSTRACT FROM AUTHOR]

Published

2021

12. The carbohydrate at asparagine 386 on HIV-1 gp120 is not essential for protein folding and function but is involved in immune evasion

Author

Groot Fedde, Dankers Martijn M, Busser Els, Melchers Mark, Eggink Dirk, Bontjer Ilja, Liscaljet I Marije, Nabatov Alexei A, van Anken Eelco, Sanders Rogier W, Braakman Ineke, Berkhout Ben, and Paxton William A

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background The HIV-1 envelope glycoprotein gp120, which mediates viral attachment to target cells, consists for ~50% of sugar, but the role of the individual sugar chains in various aspects of gp120 folding and function is poorly understood. Here we studied the role of the carbohydrate at position 386. We identified a virus variant that had lost the 386 glycan in an evolution study of a mutant virus lacking the disulfide bond at the base of the V4 domain. Results The 386 carbohydrate was not essential for folding of wt gp120. However, its removal improved folding of a gp120 variant lacking the 385–418 disulfide bond, suggesting that it plays an auxiliary role in protein folding in the presence of this disulfide bond. The 386 carbohydrate was not critical for gp120 binding to dendritic cells (DC) and DC-mediated HIV-1 transmission to T cells. In accordance with previous reports, we found that N386 was involved in binding of the mannose-dependent neutralizing antibody 2G12. Interestingly, in the presence of specific substitutions elsewhere in gp120, removal of N386 did not result in abrogation of 2G12 binding, implying that the contribution of N386 is context dependent. Neutralization by soluble CD4 and the neutralizing CD4 binding site (CD4BS) antibody b12 was significantly enhanced in the absence of the 386 sugar, indicating that this glycan protects the CD4BS against antibodies. Conclusion The carbohydrate at position 386 is not essential for protein folding and function, but is involved in the protection of the CD4BS from antibodies. Removal of this sugar in the context of trimeric Env immunogens may therefore improve the elicitation of neutralizing CD4BS antibodies.

Published

2008

13. The importance of naturally attenuated SARS‐CoV‐2in the fight against COVID‐19.

Author

Armengaud, Jean, Delaunay‐Moisan, Agnès, Thuret, Jean‐Yves, Anken, Eelco, Acosta‐Alvear, Diego, Aragón, Tomás, Arias, Carolina, Blondel, Marc, Braakman, Ineke, Collet, Jean‐François, Courcol, René, Danchin, Antoine, Deleuze, Jean‐François, Lavigne, Jean‐Philippe, Lucas, Sophie, Michiels, Thomas, Moore, Edward R. B., Nixon‐Abell, Jonathon, Rossello‐Mora, Ramon, and Shi, Zheng‐Li

Subjects

COVID-19, PANDEMICS, SARS-CoV-2, ANTIVIRUS software, NUCLEIC acids, VACCINE trials, WORLD health

Abstract

The current SARS‐CoV‐2 pandemic is wreaking havoc throughout the world and has rapidly become a global health emergency. A central question concerning COVID‐19 is why some individuals become sick and others not. Many have pointed already at variation in risk factors between individuals. However, the variable outcome of SARS‐CoV‐2 infections may, at least in part, be due also to differences between the viral subspecies with which individuals are infected. A more pertinent question is how we are to overcome the current pandemic. A vaccine against SARS‐CoV‐2 would offer significant relief, although vaccine developers have warned that design, testing and production of vaccines may take a year if not longer. Vaccines are based on a handful of different designs (i), but the earliest vaccines were based on the live, attenuated virus. As has been the case for other viruses during earlier pandemics, SARS‐CoV‐2 will mutate and may naturally attenuate over time (ii). What makes the current pandemic unique is that, thanks to state‐of‐the‐art nucleic acid sequencing technologies, we can follow in detail how SARS‐CoV‐2 evolves while it spreads. We argue that knowledge of naturally emerging attenuated SARS‐CoV‐2 variants across the globe should be of key interest in our fight against the pandemic. [ABSTRACT FROM AUTHOR]

Published

2020

14. No evidence for cell‐to‐cell transmission of the unfolded protein response in cell culture.

Author

Ziel, Anna M., Wolzak, Kimberly, Nölle, Anna, Hoetjes, Petrus J., Berenjeno‐Correa, Ernesto, Anken, Eelco, Struys, Eduard A., and Scheper, Wiep

Subjects

CELL culture, IMMUNOGLOBULIN heavy chains, HELA cells, NEURODEGENERATION, PROTEIN expression, IMMUNOGLOBULIN M

Abstract

The unfolded protein response (UPR) is one of the major cell‐autonomous proteostatic stress responses. The UPR has been implicated in the pathogenesis of neurodegenerative diseases and is therefore actively investigated as therapeutic target. In this respect, cell non‐autonomous effects of the UPR including the reported cell‐to‐cell transmission of UPR activity may be highly important. A pharmaca‐based UPR induction was employed to generate conditioned media (CM) from CM‐donating neuronal ('donor') cells (SK‐N‐SH and primary mouse neurons). As previously reported, upon subsequent transfer of CM to naive neuronal 'acceptor' cells, we confirmed UPR target mRNA and protein expression by qPCR and automated microscopy. However, UPR target gene expression was also induced in the absence of donor cells, indicating carry‐over of pharmaca. Genetic induction of single pathways of the UPR in donor cells did not result in UPR transmission to acceptor cells. Moreover, no transmission was detected upon full UPR activation by nutrient deprivation or inducible expression of the heavy chain of immunoglobulin M in donor HeLa cells. In addition, in direct co‐culture of donor cells expressing the immunoglobulin M heavy chain and fluorescent UPR reporter acceptor HeLa cells, UPR transmission was not observed. In conclusion, carry‐over of pharmaca is a major confounding factor in pharmaca‐based UPR transmission protocols that are therefore unsuitable to study cell‐to‐cell UPR transmission. In addition, the absence of UPR transmission in non‐pharmaca‐based models of UPR activation indicates that cell‐to‐cell UPR transmission does not occur in cell culture. [ABSTRACT FROM AUTHOR]

Published

2020

15. Advanced Fluorescent Polymer Probes for the Site-Specific Labeling of Proteins in Live Cells Using the HaloTag Technology.

Author

Berki, Thomas, Bakunts, Anush, Duret, Damien, Fabre, Laura, Ladavière, Catherine, Orsi, Andrea, Charreyre, Marie-Thérèse, Raimondi, Andrea, van Anken, Eelco, and Favier, Arnaud

Published

2019

16. ER‐to‐lysosome‐associated degradation of proteasome‐resistant ATZ polymers occurs via receptor‐mediated vesicular transport.

Author

Fregno, Ilaria, Fasana, Elisa, Bergmann, Timothy J., Raimondi, Andrea, Loi, Marisa, Soldà, Tatiana, Galli, Carmela, D'Antuono, Rocco, Morone, Diego, Danieli, Alberto, Paganetti, Paolo, van Anken, Eelco, and Molinari, Maurizio

Subjects

ENDOPLASMIC reticulum, LYSOSOMES, ALPHA 1-antitrypsin, PROTEOLYSIS, CYTOSOL

Abstract

Abstract: Maintenance of cellular proteostasis relies on efficient clearance of defective gene products. For misfolded secretory proteins, this involves dislocation from the endoplasmic reticulum (ER) into the cytosol followed by proteasomal degradation. However, polypeptide aggregation prevents cytosolic dislocation and instead activates ill‐defined lysosomal catabolic pathways. Here, we describe an ER‐to‐lysosome‐associated degradation pathway (ERLAD) for proteasome‐resistant polymers of alpha1‐antitrypsin Z (ATZ). ERLAD involves the ER‐chaperone calnexin (CNX) and the engagement of the LC3 lipidation machinery by the ER‐resident ER‐phagy receptor FAM134B, echoing the initiation of starvation‐induced, receptor‐mediated ER‐phagy. However, in striking contrast to ER‐phagy, ATZ polymer delivery from the ER lumen to LAMP1/RAB7‐positive endolysosomes for clearance does not require ER capture within autophagosomes. Rather, it relies on vesicular transport where single‐membrane, ER‐derived, ATZ‐containing vesicles release their luminal content within endolysosomes upon membrane:membrane fusion events mediated by the ER‐resident SNARE STX17 and the endolysosomal SNARE VAMP8. These results may help explain the lack of benefits of pharmacologic macroautophagy enhancement that has been reported for some luminal aggregopathies. [ABSTRACT FROM AUTHOR]

Published

2018

17. Ratiometric sensing of BiP-client versus BiP levels by the unfolded protein response determines its signaling amplitude.

Author

Bakunts, Anush, Orsi, Andrea, Vitale, Milena, Cattaneo, Angela, Lari, Federica, Tadè, Laura, Sitia, Roberto, Raimondi, Andrea, Bachi, Angela, and van Anken, Eelco

Published

2017

18. Iron affects Ire1 clustering propensity and the amplitude of endoplasmic reticulum stress signaling.

Author

Cohen, Nir, Breker, Michal, Bakunts, Anush, Pesek, Kristina, Chas, Ainara, Argemí, Josepmaria, Orsi, Andrea, Gal, Lihi, Chuartzman, Silvia, Wigelman, Yoav, Jonas, Felix, Walter, Peter, Ernst, Robert, Aragón, Tomás, van Anken, Eelco, and Schuldiner, Maya

Subjects

PROTEINS, ENDOPLASMIC reticulum, SACCHAROMYCES cerevisiae

Abstract

The unfolded protein response (UPR) allows cells to adjust secretory pathway capacity according to need. Ire1, the endoplasmic reticulum (ER) stress sensor and central activator of the UPR is conserved from the budding yeast Saccharomyces cerevisiae to humans. Under ER stress conditions, Ire1 clusters into foci that enable optimal UPR activation. To discover factors that affect Ire1 clustering, we performed a high-content screen using a whole-genome yeast mutant library expressing Ire1-mCherry. We imaged the strains following UPR induction and found 154 strains that displayed alterations in Ire1 clustering. The hitswere enriched for iron and heme effectors and binding proteins. By performing pharmacological depletion and repletion, we confirmed that iron (Fe3+) affects UPR activation in both yeast and human cells. We suggest that Ire1 clustering propensity depends on membrane composition, which is governed by hemedependent biosynthesis of sterols. Our findings highlight the diverse cellular functions that feed into the UPR and emphasize the cross-talk between organelles required to concertedly maintain homeostasis. [ABSTRACT FROM AUTHOR]

Published

2017

19. A RIDDle solved: Why an intact IRE1α/XBP-1 signaling relay is key for humoral immune responses.

Author

Anken, Eelco, Orsi, Andrea, and Sitia, Roberto

Abstract

As they commit to plasma cell differentiation, B lymphocytes must swiftly gear up to produce and secrete huge amounts of antibodies. To develop their secretory capacity, B cells exploit a signaling pathway that is employed by all eukaryotic cells in response to endoplasmic reticulum stress. An article by Benhamron et al. in this issue of the European Journal of Immunology, [Eur. J. Immunol. 2014. 44: 867-876] sheds new light on why an intact IRE1/XBP-1 signaling relay is central to orchestrate the full-blown expansion of the secretory machinery needed for massive antibody production [ABSTRACT FROM AUTHOR]

Published

2014

20. Missing Links in Antibody Assembly Control.

Author

Anelli, Tiziana and Anken, Eelco van

Subjects

*IMMUNOGLOBULIN M, *HUMORAL immunity, *B cells, *B cell receptors, *ANTIGENS, *CYSTEINE

Abstract

Fidelity of the humoral immune response requires that quiescent B lymphocytes display membrane bound immunoglobulin M (IgM) on B lymphocytes surface as part of the B cell receptor, whose function is to recognize an antigen. At the same time B lymphocytes should not secrete IgM until recognition of the antigen has occurred. The heavy chains of the secretory IgM have a C-terminal tail with a cysteine instead of a membrane anchor, which serves to covalently link the IgM subunits by disulfide bonds to form "pentamers" or "hexamers." By virtue of the same cysteine, unassembled secretory IgM subunits are recognized and retained (via mixed disulfide bonds) by members of the protein disulfide isomerase family, in particular ERp44. This so-called "thiol-mediated retention" bars assembly intermediates from prematurely leaving the cell and thereby exerts quality control on the humoral immune response. In this essay we discuss recent findings on how ERp44 governs such assembly control in a pH dependent manner, shuttling between the cisGolgi and endoplasmic reticulum, and finally on how pERp1/MZB1, possibly as a co-chaperone of GRP94, may help to overrule the thiol-mediated retention in the activated B cell to give way to antibody secretion. [ABSTRACT FROM AUTHOR]

Published

2013

21. Proteostenosis and plasma cell pathophysiology

Author

Cenci, Simone, van Anken, Eelco, and Sitia, Roberto

Subjects

*PLASMA cells, *PATHOLOGICAL physiology, *CELL differentiation, *B cells, *CELLULAR signal transduction, *IMMUNOGLOBULINS, *CELLULAR aging

Abstract

Plasma cells differentiate from B lymphocytes to sustain antibody production. As professional secretors, they allow dissecting proteostasis in the exocytic compartment, the stresses that protein production entails and their possible roles in signaling. Most plasma cells are short-lived to limit antibody responses. After a few days of intense immunoglobulin production, they undergo apoptosis, offering a unique model of cellular senescence. Recent observations reveal that proteotoxic stresses physiologically contribute to regulate their biogenesis, function and lifespan, explaining partly the sensitivity of multiple myeloma cells to proteasome inhibitors. This essay summarizes these plasma cell lessons, and their general implications for the regulation of proteostasis, cell senescence and cancer therapeutics. [Copyright &y& Elsevier]

Published

2011

22. BiP Binding to the ER-Stress Sensor Ire1 Tunes the Homeostatic Behavior of the Unfolded Protein Response.

Author

Pincus, David, Chevalier, Michael W., Aragón, Tomás, van Anken, Eelco, Vidal, Simon E., El-Samad, Hana, and Walter, Peter

Subjects

ENDOPLASMIC reticulum, CELLS, PROTEIN folding, CYTOLOGICAL research, PROTEIN conformation, MOLECULES

Abstract

The unfolded protein response (UPR) is an intracellular signaling pathway that counteracts variable stresses that impair protein folding in the endoplasmic reticulum (ER). As such, the UPR is thought to be a homeostat that finely tunes ER protein folding capacity and ER abundance according to need. The mechanism by which the ER stress sensor Ire1 is activated by unfolded proteins and the role that the ER chaperone protein BiP plays in Ire1 regulation have remained unclear. Here we show that the UPR matches its output to the magnitude of the stress by regulating the duration of Ire1 signaling. BiP binding to Ire1 serves to desensitize Ire1 to low levels of stress and promotes its deactivation when favorable folding conditions are restored to the ER. We propose that, mechanistically, BiP achieves these functions by sequestering inactive Ire1 molecules, thereby providing a barrier to oligomerization and activation, and a stabilizing interaction that facilitates de-oligomerization and deactivation. Thus BiP binding to or release from Ire1 is not instrumental for switching the UPR on and off as previously posed. By contrast, BiP provides a buffer for inactive Ire1 molecules that ensures an appropriate response to restore protein folding homeostasis to the ER by modulating the sensitivity and dynamics of Ire1 activity. [ABSTRACT FROM AUTHOR]

Published

2010

23. Remodelling of Ca2+ homeostasis is linked to enlarged endoplasmic reticulum in secretory cells.

Author

Pick, Tillman, Beck, Andreas, Gamayun, Igor, Schwarz, Yvonne, Schirra, Claudia, Jung, Martin, Krause, Elmar, Niemeyer, Barbara A., Zimmermann, Richard, Lang, Sven, Anken, Eelco van, and Cavalié, Adolfo

Abstract

• High Ca2+ turnover is distinctive for the Ca2+ homeostasis in secretory cells. • The Ca2+ leak from ER is enhanced in secretory cells. • High expression of Sec61 translocons enhances the Ca2+ leak from ER. • Massive Ca2+ entry backs up the large Sec61-mediated Ca2+ leak in secretory cells. The endoplasmic reticulum (ER) is extensively remodelled during the development of professional secretory cells to cope with high protein production. Since ER is the principal Ca2+ store in the cell, we characterised the Ca2+ homeostasis in NALM-6 and RPMI 8226 cells, which are commonly used as human pre-B and antibody secreting plasma cell models, respectively. Expression levels of Sec61 translocons and the corresponding Sec61-mediated Ca2+ leak from ER, Ca2+ storage capacity and store-operated Ca2+ entry were significantly enlarged in the secretory RPMI 8226 cell line. Using an immunoglobulin M heavy chain producing HeLa cell model, we found that the enlarged Ca2+ storage capacity and Ca2+ leak from ER are linked to ER expansion. Our data delineates a developmental remodelling of Ca2+ homeostasis in professional secretory cells in which a high Sec61-mediated Ca2+ leak and, thus, a high Ca2+ turnover in the ER is backed up by enhanced store-operated Ca2+ entry. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

24. The carbohydrate at asparagine 386 on HIV-1 gp120 is not essential for protein folding and function but is involved in immune evasion.

Author

Sanders, Rogier W., van Anken, Eelco, Nabatov, Alexei A., Liscaljet, I. Marije, Bontjer, Ilja, Eggink, Dirk, Melchers, Mark, Busser, Els, Dankers, Martijn M., Groot, Fedde, Braakman, Ineke, Berkhout, Ben, and Paxton, William A.

Subjects

*CARBOHYDRATES, *GLYCOPROTEINS, *PROTEIN folding, *CD4 antigen, *IMMUNOGLOBULINS

Abstract

Background: The HIV-1 envelope glycoprotein gp120, which mediates viral attachment to target cells, consists for ~50% of sugar, but the role of the individual sugar chains in various aspects of gp120 folding and function is poorly understood. Here we studied the role of the carbohydrate at position 386. We identified a virus variant that had lost the 386 glycan in an evolution study of a mutant virus lacking the disulfide bond at the base of the V4 domain. Results: The 386 carbohydrate was not essential for folding of wt gp120. However, its removal improved folding of a gp120 variant lacking the 385-418 disulfide bond, suggesting that it plays an auxiliary role in protein folding in the presence of this disulfide bond. The 386 carbohydrate was not critical for gp120 binding to dendritic cells (DC) and DC-mediated HIV-1 transmission to T cells. In accordance with previous reports, we found that N386 was involved in binding of the mannose-dependent neutralizing antibody 2G12. Interestingly, in the presence of specific substitutions elsewhere in gp120, removal of N386 did not result in abrogation of 2G12 binding, implying that the contribution of N386 is context dependent. Neutralization by soluble CD4 and the neutralizing CD4 binding site (CD4BS) antibody b12 was significantly enhanced in the absence of the 386 sugar, indicating that this glycan protects the CD4BS against antibodies. Conclusion: The carbohydrate at position 386 is not essential for protein folding and function, but is involved in the protection of the CD4BS from antibodies. Removal of this sugar in the context of trimeric Env immunogens may therefore improve the elicitation of neutralizing CD4BS antibodies. [ABSTRACT FROM AUTHOR]

Published

2008

25. Endoplasmic Reticulum Stress and the Making of a Professional Secretory Cell.

Author

Anken, Eelco van and Braakman, Ineke

Subjects

*PROTEIN folding, *ENDOPLASMIC reticulum, *HOMEOSTASIS, *PHYSIOLOGICAL control systems, *PROTEIN conformation

Abstract

Homeostasis of the protein folding machinery in the endoplasmic reticulum (ER) is maintained via several parallel unfolded protein response pathways that are remarkably conserved from yeast to man. Together, these pathways are integrated into a complex circuitry that can be modulated in various ways, not only to cope with various stress conditions, but also to fine-tune the capacity of the ER folding machinery when precursor cells differentiate into professional secretory cells. [ABSTRACT FROM AUTHOR]

Published

2005

26. Versatility of the Endoplasmic Reticulum Protein Folding Factory.

Author

Anken, Eelco van and Braakman, Ineke

Subjects

*PROTEIN folding, *MOLECULAR chaperones, *ENDOPLASMIC reticulum, *ORGANELLES, *EUKARYOTIC cells

Abstract

The endoplasmic reticulum (ER) is dedicated to import, folding and assembly of all proteins that travel along or reside in the secretory pathway of eukaryotic cells. Folding in the ER is special. For instance, newly synthesized proteins are N -glycosylated and by default form disulfide bonds in the ER, but not elsewhere in the cell. In this review, we discuss which features distinguish the ER as an efficient folding factory, how the ER monitors its output and how it disposes of folding failures. [ABSTRACT FROM AUTHOR]

Published

2005

27. Folding of Viral Envelope Glycoproteins in the Endoplasmic Reticulum.

Author

Braakman, Ineke and van Anken, Eelco

Subjects

*GLYCOPROTEINS, *ENDOPLASMIC reticulum, *PROTEIN folding

Abstract

Viral glycoproteins fold and oligomerize in the endoplasmic reticulum of the host cell. They employ the cellular machinery and receive assistance from cellular folding factors. During the folding process, they are retained in the compartment and their structural quality is checked by the quality control system of the endoplasmic reticulum. A special characteristic that distinguishes viral fusion proteins from most cellular proteins is the extensive conformational change they undergo during fusion of the viral and cellular membrane. Many viral proteins fold in conjunction with and dependent on a viral partner protein, sometimes even synthesized from the same mRNA. Relevant for folding is that viral glycoproteins from the same or related virus families may consist of overlapping sets of domain modules. The consequences of these features for viral protein folding are at the heart of this review. [ABSTRACT FROM AUTHOR]

Published

2000

28. The Ire1 Twist that Links Proteostatic with Lipostatic Control of the Endoplasmic Reticulum.

Author

Aragón, Tomás and van Anken, Eelco

Subjects

*ENDOPLASMIC reticulum, *HOMEOSTASIS, *PROTEIN folding, *SACCHAROMYCES cerevisiae, *TRANSCRIPTION factors

Abstract

The unfolded protein response (UPR) governs homeostasis of both luminal content and membrane of the endoplasmic reticulum (ER). In Molecular Cell , Halbleib et al. identified how a twist in the juxta-membrane amphipathic helix of the UPR transducer Ire1 in yeast is essential for responding to both proteostatic and lipostatic ER stress. [ABSTRACT FROM AUTHOR]

Published

2017

29. A selective ER‐phagy exerts procollagen quality control via a Calnexin‐FAM134B complex.

Author

Forrester, Alison, De Leonibus, Chiara, Grumati, Paolo, Fasana, Elisa, Piemontese, Marilina, Staiano, Leopoldo, Fregno, Ilaria, Raimondi, Andrea, Marazza, Alessandro, Bruno, Gemma, Iavazzo, Maria, Intartaglia, Daniela, Seczynska, Marta, Anken, Eelco, Conte, Ivan, De Matteis, Maria Antonietta, Dikic, Ivan, Molinari, Maurizio, and Settembre, Carmine

Subjects

ENDOPLASMIC reticulum, COLLAGEN, CALNEXIN, AUTOPHAGY, LYSOSOMES

Abstract

Autophagy is a cytosolic quality control process that recognizes substrates through receptor‐mediated mechanisms. Procollagens, the most abundant gene products in Metazoa, are synthesized in the endoplasmic reticulum (ER), and a fraction that fails to attain the native structure is cleared by autophagy. However, how autophagy selectively recognizes misfolded procollagens in the ER lumen is still unknown. We performed siRNA interference, CRISPR‐Cas9 or knockout‐mediated gene deletion of candidate autophagy and ER proteins in collagen producing cells. We found that the ER‐resident lectin chaperone Calnexin (CANX) and the ER‐phagy receptor FAM134B are required for autophagy‐mediated quality control of endogenous procollagens. Mechanistically, CANX acts as co‐receptor that recognizes ER luminal misfolded procollagens and interacts with the ER‐phagy receptor FAM134B. In turn, FAM134B binds the autophagosome membrane‐associated protein LC3 and delivers a portion of ER containing both CANX and procollagen to the lysosome for degradation. Thus, a crosstalk between the ER quality control machinery and the autophagy pathway selectively disposes of proteasome‐resistant misfolded clients from the ER. Synopsis: Unfolded procollagen in the endoplasmic reticulum (ER) is an ER‐associated degradation‐resistant substrate that has to be cleared by autophagy. The ER chaperone Calnexin and the ER‐phagy receptor FAM134B recognize misfolded procollagen and mediate its LC3‐dependent delivery to the lysosome for autophagic degradation. A candidate deletion screen shows that calnexin and FAM134B are required for ER quality control of endogenous procollagensCalnexin acts as co‐receptor recognizing misfolded procollagen within the ER lumenFAM134B binds misfolded procollagen through Calnexin and links it to LC3 on autophagosomal membranes Calnexin and the ER‐phagy receptor FAM134B recognize misfolded procollagen in the ER and mediate its LC3‐dependent delivery to the lysosome for autophagic degradation. [ABSTRACT FROM AUTHOR]

Published

2019

30. The intellectual disability protein RAB39B selectively regulates GluA2 trafficking to determine synaptic AMPAR composition.

Author

Mignogna, Maria Lidia, Giannandrea, Maila, Gurgone, Antonia, Fanelli, Francesca, Raimondi, Francesco, Mapelli, Lisa, Bassani, Silvia, Fang, Huaqiang, Van Anken, Eelco, Alessio, Massimo, Passafaro, Maria, Gatti, Silvia, Esteban, José A., Huganir, Richard, and D'Adamo, Patrizia

Published

2015

31. Cutting Edge: IgE Plays an Active Role in Tumor Immunosurveillance in Mice.

Author

Nigro, Elisa A., Brini, Anna T., Yenagi, Vijay A., Ferreira, Lorena M., Achatz-Straussberger, Gertrude, Ambrosi, Alessandro, Sanvito, Francesca, Soprana, Elisa, van Anken, Eelco, Achatz, Gernot, Siccardi, Antonio G., and Vangelista, Luca

Subjects

*IMMUNOGLOBULIN E receptors, *IMMUNOGLOBULIN receptors, *IMMUNOGLOBULIN E, *ANTI-immunoglobulin autoantibodies, *IMMUNOGLOBULINS

Abstract

Exogenous IgE acts as an adjuvant in tumor vaccination in mice, and therefore a direct role of endogenous IgE in tumor immunosurveillance was investigated. By using genetically engineered mice, we found that IgE ablation rendered mice more susceptible to the growth of transplantable tumors. Conversely, a strengthened IgE response provided mice with partial or complete resistance to tumor growth, depending on the tumor type. By genetic crosses, we showed that IgE-mediated tumor protection was mostly lost in mice lacking FcεRI. Tumor protection was also lost after depletion of CD8+ T cells, highlighting a cross-talk between IgE and T cell–mediated tumor immunosurveillance. Our findings provide the rationale for clinical observations that relate atopy with a lower risk for developing cancer and open new avenues for the design of immunotherapeutics relevant for clinical oncology. [ABSTRACT FROM AUTHOR]

Published

2016

32. A pH-Regulated Quality Control Cycle for Surveillance of Secretory Protein Assembly.

Author

Vavassori, Stefano, Cortini, Margherita, Masui, Shoji, Sannino, Sara, Anelli, Tiziana, Caserta, Imma?R., Fagioli, Claudio, Mossuto, Maria?F., Fornili, Arianna, van?Anken, Eelco, Degano, Massimo, Inaba, Kenji, and Sitia, Roberto

Subjects

*ENDOPLASMIC reticulum, *QUALITY control, *GOLGI apparatus, *HYDROGEN-ion concentration, *THIOREDOXIN-interacting protein, *ADIPONECTIN, *IMMUNOGLOBULIN M

Abstract

Summary: To warrant the quality of the secretory proteome, stringent control systems operate at the endoplasmic reticulum (ER)-Golgi interface, preventing the release of nonnative products. Incompletely assembled oligomeric proteins that are deemed correctly folded must rely on additional quality control mechanisms dedicated to proper assembly. Here we unveil how ERp44 cycles between cisGolgi and ER in a pH-regulated manner, patrolling assembly of disulfide-linked oligomers such as IgM and adiponectin. At neutral, ER-equivalent pH, the ERp44 carboxy-terminal tail occludes the substrate-binding site. At the lower pH of the cisGolgi, conformational rearrangements of this peptide, likely involving protonation of ERp44’s active cysteine, simultaneously unmask the substrate binding site and −RDEL motif, allowing capture of orphan secretory protein subunits and ER retrieval via KDEL receptors. The ERp44 assembly control cycle couples secretion fidelity and efficiency downstream of the calnexin/calreticulin and BiP-dependent quality control cycles. [Copyright &y& Elsevier]

Published

2013