Your search keyword '"Ali Salanti"' showing total 207 results

1. Broadly potent spike-specific human monoclonal antibodies inhibit SARS-CoV-2 Omicron sub-lineages

Author

Melanie R. Walker, Alexander Underwood, Kasper H. Björnsson, Sai Sundar Rajan Raghavan, Maria R. Bassi, Alekxander Binderup, Long V. Pham, Santseharay Ramirez, Mette Pinholt, Robert Dagil, Anne S. Knudsen, Manja Idorn, Max Soegaard, Kaituo Wang, Andrew B. Ward, Ali Salanti, Jens Bukh, and Lea Barfod

Subjects

Biology (General), QH301-705.5

Abstract

Abstract The continuous emergence of SARS-CoV-2 variants of concern has rendered many therapeutic monoclonal antibodies (mAbs) ineffective. To date, there are no clinically authorized therapeutic antibodies effective against the recently circulating Omicron sub-lineages BA.2.86 and JN.1. Here, we report the isolation of broad and potent neutralizing human mAbs (HuMabs) from a healthcare worker infected with SARS-CoV-2 early in the pandemic. These include a genetically unique HuMab, named K501SP6, which can neutralize different Omicron sub-lineages, including BQ.1, XBB.1, BA.2.86 and JN.1, by targeting a highly conserved epitope on the N terminal domain, as well as an RBD-specific HuMab (K501SP3) with high potency towards earlier circulating variants that was escaped by the more recent Omicron sub-lineages through spike F486 and E484 substitutions. Characterizing SARS-CoV-2 spike-specific HuMabs, including broadly reactive non-RBD-specific HuMabs, can give insight into the immune mechanisms involved in neutralization and immune evasion, which can be a valuable addition to already existing SARS-CoV-2 therapies.

Published

2024

2. Tumor-agnostic cancer therapy using antibodies targeting oncofetal chondroitin sulfate

Author

Elena Ethel Vidal-Calvo, Anne Martin-Salazar, Swati Choudhary, Robert Dagil, Sai Sundar Rajan Raghavan, Lara Duvnjak, Mie Anemone Nordmaj, Thomas Mandel Clausen, Ann Skafte, Jan Oberkofler, Kaituo Wang, Mette Ø Agerbæk, Caroline Løppke, Amalie Mundt Jørgensen, Daria Ropac, Joana Mujollari, Shona Willis, Agnès Garcias López, Rebecca Louise Miller, Richard Torbjörn Gustav Karlsson, Felix Goerdeler, Yen-Hsi Chen, Ana R. Colaço, Yong Wang, Thomas Lavstsen, Agnieszka Martowicz, Irina Nelepcu, Mona Marzban, Htoo Zarni Oo, Maj Sofie Ørum-Madsen, Yuzhuo Wang, Morten A. Nielsen, Henrik Clausen, Michael Wierer, Dominik Wolf, Ismail Gögenur, Thor G. Theander, Nader Al-Nakouzi, Tobias Gustavsson, Mads Daugaard, and Ali Salanti

Subjects

Science

Abstract

Abstract Molecular similarities between embryonic and malignant cells can be exploited to target tumors through specific signatures absent in healthy adult tissues. One such embryonic signature tumors express is oncofetal chondroitin sulfate (ofCS), which supports disease progression and dissemination in cancer. Here, we report the identification and characterization of phage display-derived antibody fragments recognizing two distinct ofCS epitopes. These antibody fragments show binding affinity to ofCS in the low nanomolar range across a broad selection of solid tumor types in vitro and in vivo with minimal binding to normal, inflamed, or benign tumor tissues. Anti-ofCS antibody drug conjugates and bispecific immune cell engagers based on these targeting moieties disrupt tumor progression in animal models of human and murine cancers. Thus, anti-ofCS antibody fragments hold promise for the development of broadly effective therapeutic and diagnostic applications targeting human malignancies.

Published

2024

3. CTC-derived pancreatic cancer models serve as research tools and are suitable for precision medicine approaches

Author

Jiajia Tang, Quan Zheng, Qi Wang, Yaru Zhao, Preeta Ananthanarayanan, Chiara Reina, Berina Šabanović, Ke Jiang, Ming-Hsin Yang, Clara Csilla Meny, Huimin Wang, Mette Ø. Agerbaek, Thomas Mandel Clausen, Tobias Gustavsson, Chenlei Wen, Felice Borghi, Alfredo Mellano, Elisabetta Fenocchio, Vanesa Gregorc, Anna Sapino, Thor G. Theander, Da Fu, Alexandra Aicher, Ali Salanti, Baiyong Shen, and Christopher Heeschen

Subjects

pancreatic cancer, liquid biopsy, circulating cancer stem cells, CXCR4, metabolism, compound screening, Medicine (General), R5-920

Abstract

Summary: Pancreatic ductal adenocarcinoma (PDAC) poses significant clinical challenges, often presenting as unresectable with limited biopsy options. Here, we show that circulating tumor cells (CTCs) offer a promising alternative, serving as a “liquid biopsy” that enables the generation of in vitro 3D models and highly aggressive in vivo models for functional and molecular studies in advanced PDAC. Within the retrieved CTC pool (median 65 CTCs/5 mL), we identify a subset (median content 8.9%) of CXCR4+ CTCs displaying heightened stemness and metabolic traits, reminiscent of circulating cancer stem cells. Through comprehensive analysis, we elucidate the importance of CTC-derived models for identifying potential targets and guiding treatment strategies. Screening of stemness-targeting compounds identified stearoyl-coenzyme A desaturase (SCD1) as a promising target for advanced PDAC. These results underscore the pivotal role of CTC-derived models in uncovering therapeutic avenues and ultimately advancing personalized care in PDAC.

Published

2024

4. Combining rVAR2 and Anti-EpCAM to Increase the Capture Efficiency of Non-Small-Cell Lung Cancer Cell Lines in the Flow Enrichment Target Capture Halbach (FETCH) Magnetic Separation System

Author

Sitian He, Peng Liu, Yongjun Wu, Mette Ø. Agerbæk, Ali Salanti, Leon W. M. M. Terstappen, Pascal Jonkheijm, and Michiel Stevens

Subjects

circulating tumor cells (CTCs), non-small-cell lung cancer (NSCLC), immunomagnetic enrichment, rVAR2, EpCAM, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Circulating tumor cells (CTCs) are detected in approximately 30% of metastatic non-small-cell lung cancer (NSCLC) cases using the CellSearch system, which relies on EpCAM immunomagnetic enrichment and Cytokeratin detection. This study evaluated the effectiveness of immunomagnetic enrichment targeting oncofetal chondroitin sulfate (ofCS) using recombinant VAR2CSA proteins (rVAR2) to improve the recovery of different NSCLC cell lines spiked into lysed blood samples. Four NSCLC cell lines—NCI-H1563, A549, NCI-H1792, and NCI-H661—were used to assess capture efficiency. The results demonstrated that the combined use of anti-EpCAM antibody and rVAR2 significantly enhanced the capture efficiency to an average of 88.2% compared with 40.6% when using only anti-EpCAM and 56.6% when using only rVAR2. These findings suggest that a dual-marker approach using anti-EpCAM and rVAR2 can provide a more robust and sensitive method for CTC enrichment in NSCLC, potentially leading to better diagnostic and prognostic outcomes.

Published

2024

5. Bispecific T cell-engager targeting oncofetal chondroitin sulfate induces complete tumor regression and protective immune memory in mice

Author

Nanna Skeltved, Mie A. Nordmaj, Nicolai T. Berendtsen, Robert Dagil, Emilie M. R. Stormer, Nader Al-Nakouzi, Ke Jiang, Alexandra Aicher, Christopher Heeschen, Tobias Gustavsson, Swati Choudhary, Ismail Gögenur, Jan P. Christensen, Thor G. Theander, Mads Daugaard, Ali Salanti, and Morten A. Nielsen

Subjects

Immunotherapy, Cancer, Bispecific antibodies, Targeted therapy, VAR2CSA, Checkpoint inhibitor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The malaria protein VAR2CSA binds oncofetal chondroitin sulfate (ofCS), a unique chondroitin sulfate, expressed on almost all mammalian cancer cells. Previously, we produced a bispecific construct targeting ofCS and human T cells based on VAR2CSA and anti-CD3 (V-aCD3Hu). V-aCD3Hu showed efficacy against xenografted tumors in immunocompromised mice injected with human immune cells at the tumor site. However, the complex effects potentially exerted by the immune system as a result of the treatment cannot occur in mice without an immune system. Here we investigate the efficacy of V-aCD3Mu as a monotherapy and combined with immune checkpoint inhibitors in mice with a fully functional immune system. Methods We produced a bispecific construct consisting of a recombinant version of VAR2CSA coupled to an anti-murine CD3 single-chain variable fragment. Flow cytometry and ELISA were used to check cell binding capabilities and the therapeutic effect was evaluated in vitro in a killing assay. The in vivo efficacy of V-aCD3Mu was then investigated in mice with a functional immune system and established or primary syngeneic tumors in the immunologically “cold” 4T1 mammary carcinoma, B16-F10 malignant melanoma, the pancreatic KPC mouse model, and in the immunologically “hot” CT26 colon carcinoma model. Results V-aCD3Mu had efficacy as a monotherapy, and the combined treatment of V-aCD3Mu and an immune checkpoint inhibitor showed enhanced effects resulting in the complete elimination of solid tumors in the 4T1, B16-F10, and CT26 models. This anti-tumor effect was abscopal and accompanied by a systemic increase in memory and activated cytotoxic and helper T cells. The combined treatment also led to a higher percentage of memory T cells in the tumor without an increase in regulatory T cells. In addition, we observed partial protection against re-challenge in a melanoma model and full protection in a breast cancer model. Conclusions Our findings suggest that V-aCD3Mu combined with an immune checkpoint inhibitor renders immunologically “cold” tumors “hot” and results in tumor elimination. Taken together, these data provide proof of concept for the further clinical development of V-aCD3 as a broad cancer therapy in combination with an immune checkpoint inhibitor.

Published

2023

6. Comparative analysis of spike-specific IgG Fc glycoprofiles elicited by adenoviral, mRNA, and protein-based SARS-CoV-2 vaccines

Author

Julie Van Coillie, Tamas Pongracz, Tonći Šuštić, Wenjun Wang, Jan Nouta, Mathieu Le Gars, Sofie Keijzer, Federica Linty, Olvi Cristianawati, Jim B.D. Keijser, Remco Visser, Lonneke A. van Vught, Marleen A. Slim, Niels van Mourik, Merel J. Smit, Adam Sander, David E. Schmidt, Maurice Steenhuis, Theo Rispens, Morten A. Nielsen, Benjamin G. Mordmüller, Alexander P.J. Vlaar, C. Ellen van der Schoot, Ramon Roozendaal, Manfred Wuhrer, Gestur Vidarsson, Brent Appelman, Diederik van de Beek, Marije K. Bomers, Justin de Brabander, Matthijs C. Brouwer, David T.P. Buis, Nora Chekrouni, Marit J. van Gils, Menno D. de Jong, Ayesha H.A. Lavell, Sabine E. Olie, Edgar J.G. Peters, Tom D.Y. Reijnders, Michiel Schinkel, Alex R. Schuurman, Jonne J. Sikkens, Yvo M. Smulders, Joost W. Wiersinga, Antinori Spinello, Cinzia Bassoli, Giovanna Bestetti, Mario Corbellino, Alice Covizzi, Angelica Lupo, Laura Milazzo, Marco Schiuma, Alessandro Torre, Willem A. de Jongh, Ali Salanti, Thor G. Theander, Matthew B.B. McCall, and Meral Esen

Subjects

Immunology, Immune response, Microbiology, Glycomics, Science

Abstract

Summary: IgG antibodies are important mediators of vaccine-induced immunity through complement- and Fc receptor-dependent effector functions. Both are influenced by the composition of the conserved N-linked glycan located in the IgG Fc domain. Here, we compared the anti-Spike (S) IgG1 Fc glycosylation profiles in response to mRNA, adenoviral, and protein-based COVID-19 vaccines by mass spectrometry (MS). All vaccines induced a transient increase of antigen-specific IgG1 Fc galactosylation and sialylation. An initial, transient increase of afucosylated IgG was induced by membrane-encoding S protein formulations. A fucose-sensitive ELISA for antigen-specific IgG (FEASI) exploiting FcγRIIIa affinity for afucosylated IgG was used as an orthogonal method to confirm the LC-MS-based afucosylation readout. Our data suggest that vaccine-induced anti-S IgG glycosylation is dynamic, and although variation is seen between different vaccine platforms and individuals, the evolution of glycosylation patterns display marked overlaps.

Published

2023

7. Two-component vaccine consisting of virus-like particles displaying hepatitis C virus envelope protein 2 oligomers

Author

Jannick Prentoe, Christoph M. Janitzek, Rodrigo Velázquez-Moctezuma, Andreas Soerensen, Thomas Jørgensen, Stine Clemmensen, Vladislav Soroka, Susan Thrane, Thor Theander, Morten A. Nielsen, Ali Salanti, Jens Bukh, and Adam F. Sander

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Development of B-cell-based hepatitis C virus (HCV) vaccines that induce broadly neutralizing antibodies (bNAbs) is hindered by extensive sequence diversity and low immunogenicity of envelope glycoprotein vaccine candidates, most notably soluble E2 (sE2). To overcome this, we employed two-component approaches using self-assembling virus-like particles (cVLPs; component 1), displaying monomeric or oligomeric forms of HCV sE2 (sE2mono or sE2oligo; component 2). Immunization studies were performed in BALB/c mice and the neutralizing capacity of vaccine-induced antibodies was tested in cultured-virus-neutralizations, using HCV of genotypes 1–6. sE2-cVLP vaccines induced significantly higher levels of NAbs (p = 0.0065) compared to corresponding sE2 vaccines. Additionally, sE2oligo-cVLP was superior to sE2mono-cVLP in inducing bNAbs. Interestingly, human monoclonal antibody AR2A had reduced binding in ELISA to sE2oligo-cVLP compared with sE2mono-cVLP and competition ELISA using mouse sera from vaccinated animals indicated that sE2oligo-cVLP induced significantly less non-bNAbs AR2A (p = 0.0043) and AR1B (p = 0.017). Thus, cVLP-displayed oligomeric sE2 shows promise as an HCV vaccine candidate.

Published

2022

8. Characterization of SARS‐CoV‐2 humoral immune response in a subject with unique sampling: A case report

Author

Melanie R. Walker, Manja Idorn, Anja Bennett, Max Søgaard, Ali Salanti, Sisse B. Ditlev, and Lea Barfod

Subjects

antibody, antibody isotypes, antibody subclasses, case report, COVID‐19, humoral immunity, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background The development of vaccine candidates for COVID‐19, and the administration of booster vaccines, has meant a significant reduction in COVID‐19 related deaths world‐wide and the easing of global restrictions. However, new variants of SARS‐CoV‐2 have emerged with less susceptibility to vaccine induced immunity leading to breakthrough infections among vaccinated people. It is generally acknowledged that immunoglobulins play the major role in immune‐protection, primarily through binding to the SARS‐COV‐2 receptor binding domain (RBD) and thereby inhibiting viral binding to the ACE2 receptor. However, there are limited investigations of anti‐RBD isotypes (IgM, IgG, IgA) and IgG subclasses (IgG1–4) over the course of vaccination and breakthrough infection. Method In this study, SARS‐CoV‐2 humoral immunity is examined in a single subject with unique longitudinal sampling. Over a two year period, the subject received three doses of vaccine, had two active breakthrough infections and 22 blood samples collected. Serological testing included anti‐nucleocapsid total antibodies, anti‐RBD total antibodies, IgG, IgA, IgM and IgG subclasses, neutralization and ACE2 inhibition against the wildtype (WT), Delta and Omicron variants. Results Vaccination and breakthrough infections induced IgG, specifically IgG1 and IgG4 as well as IgM and IgA. IgG1 and IgG4 responses were cross reactive and associated with broad inhibition. Conclusion The findings here provide novel insights into humoral immune response characteristics associated with SARS‐CoV‐2 breakthrough infections.

Published

2023

9. Reformation of the chondroitin sulfate glycocalyx enables progression of AR-independent prostate cancer

Author

Nader Al-Nakouzi, Chris Kedong Wang, Htoo Zarni Oo, Irina Nelepcu, Nada Lallous, Charlotte B. Spliid, Nastaran Khazamipour, Joey Lo, Sarah Truong, Colin Collins, Desmond Hui, Shaghayegh Esfandnia, Hans Adomat, Thomas Mandel Clausen, Tobias Gustavsson, Swati Choudhary, Robert Dagil, Eva Corey, Yuzhuo Wang, Anne Chauchereau, Ladan Fazli, Jeffrey D. Esko, Ali Salanti, Peter S. Nelson, Martin E. Gleave, and Mads Daugaard

Subjects

Science

Abstract

Chondroitin sulfate (CS) is one of the most abundant glycosaminoglycans in prostate cancers. Here the authors show that inhibition of the androgen receptor pathway leads to the upregulation of CS, which promotes prostate cancer growth and metastasis.

Published

2022

10. Author Correction: The VAR2CSA malaria protein efficiently retrieves circulating tumor cells in an EpCAM-independent manner

Author

Mette Ø. Agerbæk, Sara R. Bang-Christensen, Ming-Hsin Yang, Thomas M. Clausen, Marina A. Pereira, Shreya Sharma, Sisse B. Ditlev, Morten A. Nielsen, Swati Choudhary, Tobias Gustavsson, Poul H. Sorensen, Tim Meyer, David Propper, Jonathan Shamash, Thor G. Theander, Alexandra Aicher, Mads Daugaard, Christopher Heeschen, and Ali Salanti

Subjects

Science

Published

2022

11. Neoadjuvant intratumoral influenza vaccine treatment in patients with proficient mismatch repair colorectal cancer leads to increased tumor infiltration of CD8+ T cells and upregulation of PD-L1: a phase 1/2 clinical trial

Author

Susanne Brix, Ismail Gögenur, Mustafa Bulut, Lasse Bremholm Hansen, Mikail Gögenur, Lukas Balsevicius, Nesibe Colak, Tobias Freyberg Justesen, Anne-Marie Kanstrup Fiehn, Marianne Bøgevang Jensen, Kathrine Høst-Rasmussen, Britt Cappelen, Shruti Gaggar, Asma Tajik, Jawad Ahmad Zahid, Astrid Louise Bjørn Bennedsen, Tommaso Del Buono D’Ondes, Hans Raskov, Susanne Gjørup Sækmose, and Ali Salanti

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background In colorectal cancer, the effects of immune checkpoint inhibitors are mostly limited to patients with deficient mismatch repair tumors, characterized by a high grade infiltration of CD8+T cells. Interventions aimed at increasing intratumoral CD8+T-cell infiltration in proficient mismatch repair tumors are lacking.Methods We conducted a proof of concept phase 1/2 clinical trial, where patients with non-metastasizing sigmoid or rectal cancer, scheduled for curative intended surgery, were treated with an endoscopic intratumorally administered neoadjuvant influenza vaccine. Blood and tumor samples were collected before the injection and at the time of surgery. The primary outcome was safety of the intervention. Evaluation of pathological tumor regression grade, immunohistochemistry, flow cytometry of blood, tissue bulk transcriptional analyses, and spatial protein profiling of tumor regions were all secondary outcomes.Results A total of 10 patients were included in the trial. Median patient age was 70 years (range 54–78), with 30% women. All patients had proficient mismatch repair Union of International Cancer Control stage I–III tumors. No endoscopic safety events occurred, with all patients undergoing curative surgery as scheduled (median 9 days after intervention). Increased CD8+T-cell tumor infiltration was evident after vaccination (median 73 vs 315 cells/mm2, p

Published

2023

12. Internalization and trafficking of CSPG-bound recombinant VAR2CSA lectins in cancer cells

Author

Chris Kedong Wang, Irina Nelepcu, Desmond Hui, Htoo Zarni Oo, Sarah Truong, Sarah Zhao, Zakir Tahiry, Shaghayegh Esfandnia, Fariba Ghaidi, Hans Adomat, Robert Dagil, Tobias Gustavsson, Swati Choudhary, Ali Salanti, Poul H. Sorensen, Nader Al Nakouzi, and Mads Daugaard

Subjects

Medicine, Science

Abstract

Abstract Proteoglycans are proteins that are modified with glycosaminoglycan chains. Chondroitin sulfate proteoglycans (CSPGs) are currently being exploited as targets for drug-delivery in various cancer indications, however basic knowledge on how CSPGs are internalized in tumor cells is lacking. In this study we took advantage of a recombinant CSPG-binding lectin VAR2CSA (rVAR2) to track internalization and cell fate of CSPGs in tumor cells. We found that rVAR2 is internalized into cancer cells via multiple internalization mechanisms after initial docking on cell surface CSPGs. Regardless of the internalization pathway used, CSPG-bound rVAR2 was trafficked to the early endosomes in an energy-dependent manner but not further transported to the lysosomal compartment. Instead, internalized CSPG-bound rVAR2 proteins were secreted with exosomes to the extracellular environment in a strictly chondroitin sulfate-dependent manner. In summary, our work describes the cell fate of rVAR2 proteins in tumor cells after initial binding to CSPGs, which can be further used to inform development of rVAR2-drug conjugates and other therapeutics targeting CSPGs.

Published

2022

13. Afucosylated Plasmodium falciparum-specific IgG is induced by infection but not by subunit vaccination

Author

Mads Delbo Larsen, Mary Lopez-Perez, Emmanuel Kakra Dickson, Paulina Ampomah, Nicaise Tuikue Ndam, Jan Nouta, Carolien A. M. Koeleman, Agnes L. Hipgrave Ederveen, Benjamin Mordmüller, Ali Salanti, Morten Agertoug Nielsen, Achille Massougbodji, C. Ellen van der Schoot, Michael F. Ofori, Manfred Wuhrer, Lars Hviid, and Gestur Vidarsson

Subjects

Science

Abstract

Here, Larsen et al. describe differences in Fc fucosylation of P. falciparum PfEMP1-specific IgG produced in response to natural infection versus VAR2CSA-type subunit vaccination, which leads to differences in the ability to induce FcγRIIIa-dependent natural killer cell degranulation.

Published

2021

14. Cryo-EM reveals the conformational epitope of human monoclonal antibody PAM1.4 broadly reacting with polymorphic malarial protein VAR2CSA.

Author

Sai Sundar Rajan Raghavan, Robert Dagil, Mary Lopez-Perez, Julian Conrad, Maria Rosaria Bassi, Maria Del Pilar Quintana, Swati Choudhary, Tobias Gustavsson, Yong Wang, Pontus Gourdon, Michael Fokuo Ofori, Sebastian Boje Christensen, Daniel Thomas Remias Minja, Christentze Schmiegelow, Morten Agertoug Nielsen, Lea Barfod, Lars Hviid, Ali Salanti, Thomas Lavstsen, and Kaituo Wang

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Malaria during pregnancy is a major global health problem caused by infection with Plasmodium falciparum parasites. Severe effects arise from the accumulation of infected erythrocytes in the placenta. Here, erythrocytes infected by late blood-stage parasites adhere to placental chondroitin sulphate A (CS) via VAR2CSA-type P. falciparum erythrocyte membrane protein 1 (PfEMP1) adhesion proteins. Immunity to placental malaria is acquired through exposure and mediated through antibodies to VAR2CSA. Through evolution, the VAR2CSA proteins have diversified in sequence to escape immune recognition but retained their overall macromolecular structure to maintain CS binding affinity. This structural conservation may also have allowed development of broadly reactive antibodies to VAR2CSA in immune women. Here we show the negative stain and cryo-EM structure of the only known broadly reactive human monoclonal antibody, PAM1.4, in complex with VAR2CSA. The data shows how PAM1.4's broad VAR2CSA reactivity is achieved through interactions with multiple conserved residues of different sub-domains forming conformational epitope distant from the CS binding site on the VAR2CSA core structure. Thus, while PAM1.4 may represent a class of antibodies mediating placental malaria immunity by inducing phagocytosis or NK cell-mediated cytotoxicity, it is likely that broadly CS binding-inhibitory antibodies target other epitopes at the CS binding site. Insights on both types of broadly reactive monoclonal antibodies may aid the development of a vaccine against placental malaria.

Published

2022

15. Cryo-EM reveals the architecture of placental malaria VAR2CSA and provides molecular insight into chondroitin sulfate binding

Author

Kaituo Wang, Robert Dagil, Thomas Lavstsen, Sandeep K. Misra, Charlotte B. Spliid, Yong Wang, Tobias Gustavsson, Daniel R. Sandoval, Elena Ethel Vidal-Calvo, Swati Choudhary, Mette Ø Agerbaek, Kresten Lindorff-Larsen, Morten A. Nielsen, Thor G. Theander, Joshua S. Sharp, Thomas Mandel Clausen, Pontus Gourdon, and Ali Salanti

Subjects

Science

Abstract

In placental malaria, interactions between parasite protein VAR2CSA and human glycosaminoglycan chondroitin sulfate A (CS) sequesters infected red blood cells in the placenta. Here, the authors provide cryo-EM structures of VAR2CSA and placental CS, identifying molecular interactions that could guide design of placental malaria vaccines.

Published

2021

16. Development of a bispecific immune engager using a recombinant malaria protein

Author

Mie A. Nordmaj, Morgan E. Roberts, Emilie S. Sachse, Robert Dagil, Anne Poder Andersen, Nanna Skeltved, Kaare V. Grunddal, Sayit Mahmut Erdoğan, Swati Choudhary, Tobias Gustsavsson, Maj Sofie Ørum-Madsen, Igor Moskalev, Weihua Tian, Zhang Yang, Thomas M. Clausen, Thor G. Theander, Mads Daugaard, Morten A. Nielsen, and Ali Salanti

Subjects

Cytology, QH573-671

Abstract

Abstract As an immune evasion and survival strategy, the Plasmodium falciparum malaria parasite has evolved a protein named VAR2CSA. This protein mediates sequestration of infected red blood cells in the placenta through the interaction with a unique carbohydrate abundantly and exclusively present in the placenta. Cancer cells were found to share the same expression of this distinct carbohydrate, termed oncofetal chondroitin sulfate on their surface. In this study we have used a protein conjugation system to produce a bispecific immune engager, V-aCD3, based on recombinant VAR2CSA as the cancer targeting moiety and an anti-CD3 single-chain variable fragment linked to a single-chain Fc as the immune engager. Conjugation of these two proteins resulted in a single functional moiety that induced immune mediated killing of a broad range of cancer cells in vitro and facilitated tumor arrest in an orthotopic bladder cancer xenograft model.

Published

2021

17. Antibody mediated activation of natural killer cells in malaria exposed pregnant women

Author

Timon Damelang, Elizabeth H. Aitken, Wina Hasang, Ester Lopez, Martin Killian, Holger W. Unger, Ali Salanti, Alexis Shub, Elizabeth McCarthy, Katherine Kedzierska, Martha Lappas, Stephen J. Kent, Stephen J. Rogerson, and Amy W. Chung

Subjects

Medicine, Science

Abstract

Abstract Immune effector responses against Plasmodium falciparum include antibody-mediated activation of innate immune cells, which can induce Fc effector functions, including antibody-dependent cellular cytotoxicity, and the secretion of cytokines and chemokines. These effector functions are regulated by the composition of immunoglobulin G (IgG) Fc N-linked glycans. However, a role for antibody-mediated natural killer (NK) cells activation or Fc N-linked glycans in pregnant women with malaria has not yet been established. Herein, we studied the capacity of IgG antibodies from pregnant women, with placental malaria or non-placental malaria, to induce NK cell activation in response to placental malaria-associated antigens DBL2 and DBL3. Antibody-mediated NK cell activation was observed in pregnant women with malaria, but no differences were associated with susceptibility to placental malaria. Elevated anti-inflammatory glycosylation patterns of IgG antibodies were observed in pregnant women with or without malaria infection, which were not seen in healthy non-pregnant controls. This suggests that pregnancy-associated anti-inflammatory Fc N-linked glycans may dampen the antibody-mediated activation of NK cells in pregnant women with malaria infection. Overall, although anti-inflammatory glycans and antibody-dependent NK cell activation were detected in pregnant women with malaria, a definitive role for these antibody features in protecting against placental malaria remains to be proven.

Published

2021

18. Capsid-like particles decorated with the SARS-CoV-2 receptor-binding domain elicit strong virus neutralization activity

Author

Cyrielle Fougeroux, Louise Goksøyr, Manja Idorn, Vladislav Soroka, Sebenzile K. Myeni, Robert Dagil, Christoph M. Janitzek, Max Søgaard, Kara-Lee Aves, Emma W. Horsted, Sayit Mahmut Erdoğan, Tobias Gustavsson, Jerzy Dorosz, Stine Clemmensen, Laurits Fredsgaard, Susan Thrane, Elena E. Vidal-Calvo, Paul Khalifé, Thomas M. Hulen, Swati Choudhary, Michael Theisen, Susheel K. Singh, Asier Garcia-Senosiain, Linda Van Oosten, Gorben Pijlman, Bettina Hierzberger, Tanja Domeyer, Blanka W. Nalewajek, Anette Strøbæk, Magdalena Skrzypczak, Laura F. Andersson, Søren Buus, Anette Stryhn Buus, Jan Pravsgaard Christensen, Tim J. Dalebout, Kasper Iversen, Lene H. Harritshøj, Benjamin Mordmüller, Henrik Ullum, Line S. Reinert, Willem Adriaan de Jongh, Marjolein Kikkert, Søren R. Paludan, Thor G. Theander, Morten A. Nielsen, Ali Salanti, and Adam F. Sander

Subjects

Science

Abstract

Here the authors generate a capsid-like particle based vaccine candidate displaying the receptor-binding domain of the SARS-CoV-2 spike protein and show induction of neutralizing antibodies after intramuscular prime-boost immunization in mice.

Published

2021

19. A cVLP-Based Vaccine Displaying Full-Length PCSK9 Elicits a Higher Reduction in Plasma PCSK9 Than Similar Peptide-Based cVLP Vaccines

Author

Louise Goksøyr, Magdalena Skrzypczak, Maureen Sampson, Morten A. Nielsen, Ali Salanti, Thor G. Theander, Alan T. Remaley, Willem A. De Jongh, and Adam F. Sander

Subjects

vaccine, virus-like particle (VLP), PCSK9, immune complex, cholesterol-lowering vaccine, SpyTag, Medicine

Abstract

Administration of PCSK9-specific monoclonal antibodies, as well as peptide-based PCSK9 vaccines, can lower plasma LDL cholesterol by blocking PCSK9. However, these treatments also cause an increase in plasma PCSK9 levels, presumably due to the formation of immune complexes. Here, we utilize a versatile capsid virus-like particle (cVLP)-based vaccine platform to deliver both full-length (FL) PCSK9 and PCSK9-derived peptide antigens, to investigate whether induction of a broader polyclonal anti-PCSK9 antibody response would mediate more efficient clearance of plasma PCSK9. This head-to-head immunization study reveals a significantly increased capacity of the FL PCSK9 cVLP vaccine to opsonize and clear plasma PCSK9. These findings may have implications for the design of PCSK9 and other vaccines that should effectively mediate opsonization and immune clearance of target antigens.

Published

2022

20. Two-Component Nanoparticle Vaccine Displaying Glycosylated Spike S1 Domain Induces Neutralizing Antibody Response against SARS-CoV-2 Variants

Author

Linda van Oosten, Jort J. Altenburg, Cyrielle Fougeroux, Corinne Geertsema, Fred van den End, Wendy A. C. Evers, Adrie H. Westphal, Simon Lindhoud, Willy van den Berg, Daan C. Swarts, Laurens Deurhof, Andreas Suhrbier, Thuy T. Le, Shessy Torres Morales, Sebenzile K. Myeni, Marjolein Kikkert, Adam F. Sander, Willem Adriaan de Jongh, Robert Dagil, Morten A. Nielsen, Ali Salanti, Max Søgaard, Timo M. P. Keijzer, Dolf Weijers, Michel H. M. Eppink, René H. Wijffels, Monique M. van Oers, Dirk E. Martens, and Gorben P. Pijlman

Subjects

Microbiology, QR1-502

Abstract

Vaccines pave the way out of the SARS-CoV-2 pandemic. We have developed a virus-like particle (VLP)-based vaccine using the baculovirus-insect cell expression system, a robust production platform known for its scalability, low cost, and safety. Baculoviruses were constructed encoding SARS-CoV-2 spike proteins: full-length S, stabilized secreted S, or the S1 domain. This two-component nanoparticle vaccine can now be further developed to help alleviate the burden of COVID-19.

Published

2021

21. Developing a multivariate prediction model of antibody features associated with protection of malaria-infected pregnant women from placental malaria

Author

Elizabeth H Aitken, Timon Damelang, Amaya Ortega-Pajares, Agersew Alemu, Wina Hasang, Saber Dini, Holger W Unger, Maria Ome-Kaius, Morten A Nielsen, Ali Salanti, Joe Smith, Stephen Kent, P Mark Hogarth, Bruce D Wines, Julie A Simpson, Amy W Chung, and Stephen J Rogerson

Subjects

immunity, pregnancy, Plasmodium falciparum, VAR2CSA, functional antibody, placenta, Medicine, Science, Biology (General), QH301-705.5

Abstract

Background: Plasmodium falciparum causes placental malaria, which results in adverse outcomes for mother and child. P. falciparum-infected erythrocytes that express the parasite protein VAR2CSA on their surface can bind to placental chondroitin sulfate A. It has been hypothesized that naturally acquired antibodies towards VAR2CSA protect against placental infection, but it has proven difficult to identify robust antibody correlates of protection from disease. The objective of this study was to develop a prediction model using antibody features that could identify women protected from placental malaria. Methods: We used a systems serology approach with elastic net-regularized logistic regression, partial least squares discriminant analysis, and a case-control study design to identify naturally acquired antibody features mid-pregnancy that were associated with protection from placental malaria at delivery in a cohort of 77 pregnant women from Madang, Papua New Guinea. Results: The machine learning techniques selected 6 out of 169 measured antibody features towards VAR2CSA that could predict (with 86% accuracy) whether a woman would subsequently have active placental malaria infection at delivery. Selected features included previously described associations with inhibition of placental binding and/or opsonic phagocytosis of infected erythrocytes, and network analysis indicated that there are not one but multiple pathways to protection from placental malaria. Conclusions: We have identified candidate antibody features that could accurately identify malaria-infected women as protected from placental infection. It is likely that there are multiple pathways to protection against placental malaria. Funding: This study was supported by the National Health and Medical Research Council (Nos. APP1143946, GNT1145303, APP1092789, APP1140509, and APP1104975).

Published

2021

22. SARS-CoV-2 RBD-Specific Antibodies Induced Early in the Pandemic by Natural Infection and Vaccination Display Cross-Variant Binding and Inhibition

Author

Melanie R. Walker, Daria Podlekareva, Stine Johnsen, Bonna Leerhøy, Cyrielle Fougeroux, Max Søgaard, Ali Salanti, Sisse Bolm Ditlev, and Lea Barfod

Subjects

COVID-19, SARS-CoV-2, antibody, inhibition, variants of concern, Microbiology, QR1-502

Abstract

The development of vaccine candidates for COVID-19 has been rapid, and those that are currently approved display high efficacy against the original circulating strains. However, recently, new variants of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have emerged with increased transmission rates and less susceptibility to vaccine induced immunity. A greater understanding of protection mechanisms, including antibody longevity and cross-reactivity towards the variants of concern (VoCs), is needed. In this study, samples collected in Denmark early in the pandemic from paucisymptomatic subjects (n = 165) and symptomatic subjects (n = 57) infected with SARS-CoV-2 were used to assess IgG binding and inhibition in the form of angiotensin-converting enzyme 2 receptor (ACE2) competition against the wild-type and four SARS-CoV-2 VoCs (Alpha, Beta, Gamma, and Omicron). Antibodies induced early in the pandemic via natural infection were cross-reactive and inhibited ACE2 binding of the VoC, with reduced inhibition observed for the Omicron variant. When examined longitudinally, sustained cross-reactive inhibitory responses were found to exist in naturally infected paucisymptomatic subjects. After vaccination, receptor binding domain (RBD)-specific IgG binding increased by at least 3.5-fold and inhibition of ACE2 increased by at least 2-fold. When vaccination regimens were compared (two doses of Pfizer-BioNTech BNT162b2 (n = 50), or one dose of Oxford-AstraZeneca ChAdOx1 nCoV-19 followed by Pfizer-BioNTech BNT162b2 (ChAd/BNT) (n = 15)), higher levels of IgG binding and inhibition were associated with mix and match (ChAd/BNT) prime-boosting and time since vaccination. These results are particularly relevant for countries where vaccination levels are low.

Published

2022

23. The Development, Fine Specificity, and Importance of High-Avidity Antibodies to VAR2CSA in Pregnant Cameroonian Women Living in Yaoundé, an Urban City

Author

Koko Vanda, Naveen Bobbili, Masako Matsunaga, John J. Chen, Ali Salanti, Rose F. G. Leke, and Diane Wallace Taylor

Subjects

Plasmodium falciparum, pregnant women, placental malaria, VAR2CSA, antibody avidity, urban cities, Immunologic diseases. Allergy, RC581-607

Abstract

Pregnant women infected with Plasmodium falciparum often produce antibodies (Abs) to VAR2CSA, a ligand that binds to placental chondroitin sulfate A causing placental malaria (PM). Antibodies to VAR2CSA are associated with improved pregnancy outcomes. Antibody avidity is a surrogate marker for the extent of maturation of the humoral immune response. Little is known about high avidity Abs to VAR2CSA for women living in urban African cities. Therefore, this study sought to determine: i) if high avidity Abs to full-length VAR2CSA (FV2) increase with gravidity in women in Yaoundé, Cameroon exposed to ~ 0.3-1.1 infectious mosquito bites per month, ii) if high avidity Abs to FV2 are directed against a specific region of VAR2CSA, and iii) if having high avidity Abs to FV2 improve pregnancy outcomes. Plasma samples collected at delivery from 695 women who had Abs to FV2 were evaluated. Ab levels and the Avidity Index (AI), defined as the percent Abs remaining bound to FV2 after incubation with 3M NH4SCN, were determined. Similar Ab levels to FV2 were present in women of all gravidities (G1 through 6+; p=0.80), except significantly lower levels were detected in PM−negative (PM−) primigravidae (p

Published

2021

24. The Role of Proteoglycans in Cancer Metastasis and Circulating Tumor Cell Analysis

Author

Theresa D. Ahrens, Sara R. Bang-Christensen, Amalie M. Jørgensen, Caroline Løppke, Charlotte B. Spliid, Nicolai T. Sand, Thomas M. Clausen, Ali Salanti, and Mette Ø. Agerbæk

Subjects

cancer, circulating tumor cells, diagnostic, glycosaminoglycan, liquid biopsy, metastasis, Biology (General), QH301-705.5

Abstract

Circulating tumor cells (CTCs) are accessible by liquid biopsies via an easy blood draw. They represent not only the primary tumor site, but also potential metastatic lesions, and could thus be an attractive supplement for cancer diagnostics. However, the analysis of rare CTCs in billions of normal blood cells is still technically challenging and novel specific CTC markers are needed. The formation of metastasis is a complex process supported by numerous molecular alterations, and thus novel CTC markers might be found by focusing on this process. One example of this is specific changes in the cancer cell glycocalyx, which is a network on the cell surface composed of carbohydrate structures. Proteoglycans are important glycocalyx components and consist of a protein core and covalently attached long glycosaminoglycan chains. A few CTC assays have already utilized proteoglycans for both enrichment and analysis of CTCs. Nonetheless, the biological function of proteoglycans on clinical CTCs has not been studied in detail so far. Therefore, the present review describes proteoglycan functions during the metastatic cascade to highlight their importance to CTCs. We also outline current approaches for CTC assays based on targeting proteoglycans by their protein cores or their glycosaminoglycan chains. Lastly, we briefly discuss important technical aspects, which should be considered for studying proteoglycans.

Published

2020

25. Antibodies to full-length and the DBL5 domain of VAR2CSA in pregnant women after long-term implementation of intermittent preventive treatment in Etoudi, Cameroon.

Author

Jean Claude Djontu, Yukie Michelle Lloyd, Rosette Megnekou, Reine Medouen Ndeumou Seumko'o, Ali Salanti, Diane Wallace Taylor, and Rose Gana Fomban Leke

Subjects

Medicine, Science

Abstract

In high malaria transmission settings, the use of sulfadoxine-pyrimethamine-based intermittent preventive treatment during pregnancy (IPTp-SP) has resulted in decreased antibody (Ab) levels to VAR2CSA. However, information of Ab levels in areas of low or intermediate malaria transmission after long-term implementation of IPTp-SP is still lacking. The present study sought to evaluate antibody prevalence and levels in women at delivery in Etoudi, a peri-urban area in the capital of Yaoundé, Cameroon, that is a relatively low-malaria transmission area. Peripheral plasma samples from 130 pregnant women were collected at delivery and tested for IgG to the full-length recombinant VAR2CSA (FV2) and its most immunogenic subdomain, DBL5. The study was conducted between 2013 and 2015, approximately ten years after implementation of IPTp-SP in Cameroon. About 8.6% of the women attending the clinic had placental malaria (PM). One, two or 3 doses of SP did not impact significantly on either the percentage of women with Ab to FV2 and DBL5 or Ab levels in Ab-positive women compared to women not taking SP. The prevalence of Ab to FV2 and DBL5 was only 36.9% and 36.1%, respectively. Surprisingly, among women who had PM at delivery, only 61.5% and 57.7% had Ab to FV2 and DBL5, respectively, with only 52.9% and 47.1% in PM-positive paucigravidae and 77.7% of multigravidae having Ab to both antigens. These results suggest that long-term implementation of IPTp-SP in a low-malaria transmission area results in few women having Ab to VAR2CSA.

Published

2020

26. The VAR2CSA malaria protein efficiently retrieves circulating tumor cells in an EpCAM-independent manner

Author

Mette Ø. Agerbæk, Sara R. Bang-Christensen, Ming-Hsin Yang, Thomas M. Clausen, Marina A. Pereira, Shreya Sharma, Sisse B. Ditlev, Morten A. Nielsen, Swati Choudhary, Tobias Gustavsson, Poul H. Sorensen, Tim Meyer, David Propper, Jonathan Shamash, Thor G. Theander, Alexandra Aicher, Mads Daugaard, Christopher Heeschen, and Ali Salanti

Subjects

Science

Abstract

Isolation of circulating tumor cells (CTCs) allows for non-invasive disease monitoring and characterization. Here the authors describe an alternative CTC isolation method based on the ability of the malaria rVAR2 protein to specifically bind oncofetal chondroitin sulfate, which is expressed by all cancer cells

Published

2018

27. Statistical prediction of immunity to placental malaria based on multi-assay antibody data for malarial antigens

Author

Chathura Siriwardhana, Rui Fang, Ali Salanti, Rose G. F. Leke, Naveen Bobbili, Diane Wallace Taylor, and John J. Chen

Subjects

Predictive models, Placental malaria, Multiplex assays, VAR2CSA, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Plasmodium falciparum infections are especially severe in pregnant women because infected erythrocytes (IE) express VAR2CSA, a ligand that binds to placental trophoblasts, causing IE to accumulate in the placenta. Resulting inflammation and pathology increases a woman’s risk of anemia, miscarriage, premature deliveries, and having low birthweight (LBW) babies. Antibodies (Ab) to VAR2CSA reduce placental parasitaemia and improve pregnancy outcomes. Currently, no single assay is able to predict if a woman has adequate immunity to prevent placental malaria (PM). This study measured Ab levels to 28 malarial antigens and used the data to develop statistical models for predicting if a woman has sufficient immunity to prevent PM. Methods Archival plasma samples from 1377 women were screened in a bead-based multiplex assay for Ab to 17 VAR2CSA-associated antigens (full length VAR2CSA (FV2), DBL 1-6 of the FCR3, 3D7 and 7G8 lines, ID1-ID2a (FCR3 and 3D7) and 11 antigens that have been reported to be associated with immunity to P. falciparum (AMA-1, CSP, EBA-175, LSA1, MSP1, MSP2, MSP3, MSP11, Pf41, Pf70 and RESA)). Ab levels along with clinical variables (age, gravidity) were used in the following seven statistical approaches: logistic regression full model, logistic regression reduced model, recursive partitioning, random forests, linear discriminant analysis, quadratic discriminant analysis, and support vector machine. Results The best and simplest model proved to be the logistic regression reduced model. AMA-1, MSP2, EBA-175, Pf41, and MSP11 were found to be the top five most important predictors for the PM status based on overall prediction performance. Conclusions Not surprising, significant differences were observed between PM positive (PM+) and PM negative (PM−) groups for Ab levels to the majority of malaria antigens. Individually though, these malarial antigens did not achieve reasonably high performances in terms of predicting the PM status. Utilizing multiple antigens in predictive models considerably improved discrimination power compared to individual assays. Among seven different classifiers considered, the reduced logistic regression model produces the best overall predictive performance.

Published

2017

28. Pre-clinical and clinical development of the first placental malaria vaccine

Author

Caroline Pehrson, Ali Salanti, Thor G. Theander, and Morten A. Nielsen

Subjects

placental malaria, plasmodium falciparum, pregnancy, vaccine, var2csa, Internal medicine, RC31-1245

Abstract

Introduction: Malaria during pregnancy is a massive health problem in endemic areas. Placental malaria infections caused by Plasmodium falciparum are responsible for up to one million babies being born with a low birth weight every year. Significant efforts have been invested into preventing the condition. Areas covered: Pub Med was searched using the broad terms ‘malaria parasite placenta’ to identify studies of interactions between parasite and host, ‘prevention of placental malaria’ to identify current strategies to prevent placental malaria, and ‘placental malaria vaccine’ to identify pre-clinical vaccine development. However, all papers from these searches were not systematically included. Expert commentary: The first phase I clinical trials of vaccines are well underway. Trials testing efficacy are more complicated to carry out as only women that are exposed to parasites during pregnancy will contribute to endpoint measurements, further it may require extensive follow-up to establish protection. Future second generation vaccines may overcome the inherent challenges in making an effective placental malaria vaccine.

Published

2017

29. Antibodies to Cryptic Epitopes in Distant Homologues Underpin a Mechanism of Heterologous Immunity between Plasmodium vivax PvDBP and Plasmodium falciparum VAR2CSA

Author

Catherine J. Mitran, Angie Mena, Sedami Gnidehou, Shanna Banman, Eliana Arango, Barbara A. S. Lima, Hazel Lugo, Aravindhan Ganesan, Ali Salanti, Anthony K. Mbonye, Francis Ntumngia, Khaled Barakat, John H. Adams, Flora S. Kano, Luzia H. Carvalho, Amanda E. Maestre, Michael F. Good, and Stephanie K. Yanow

Subjects

Plasmodium, vivax, falciparum, VAR2CSA, PvDBP, heterologous immunity, Microbiology, QR1-502

Abstract

ABSTRACT Many pathogens evolve extensive genetic variation in virulence proteins as a strategy to evade host immunity. This poses a significant challenge for the host to develop broadly neutralizing antibodies. In Plasmodium falciparum, we show that a mechanism to circumvent this challenge is to elicit antibodies to cryptic epitopes that are not under immune pressure. We previously discovered that antibodies to the Plasmodium vivax invasion protein, PvDBP, cross-react with P. falciparum VAR2CSA, a distantly related virulence factor that mediates placental malaria. Here, we describe the molecular mechanism underlying this cross-species immunity. We identified an epitope in subdomain 1 (SD1) within the Duffy binding-like (DBL) domain of PvDBP that gives rise to cross-reactive antibodies to VAR2CSA and show that human antibodies affinity purified against a synthetic SD1 peptide block parasite adhesion to chondroitin sulfate A (CSA) in vitro. The epitope in SD1 is subdominant and highly conserved in PvDBP, and in turn, SD1 antibodies target cryptic epitopes in P. falciparum VAR2CSA. The epitopes in VAR2CSA recognized by vivax-derived SD1 antibodies (of human and mouse origin) are distinct from those recognized by VAR2CSA immune serum. We mapped two peptides in the DBL5ε domain of VAR2CSA that are recognized by SD1 antibodies. Both peptides map to regions outside the immunodominant sites, and antibodies to these peptides are not elicited following immunization with VAR2CSA or natural infection with P. falciparum in pregnancy, consistent with the cryptic nature of these target epitopes. IMPORTANCE In this work, we describe a molecular mechanism of heterologous immunity between two distant species of Plasmodium. Our results suggest a mechanism that subverts the classic parasite strategy of presenting highly polymorphic epitopes in surface antigens to evade immunity to that parasite. This alternative immune pathway can be exploited to protect pregnant women from falciparum placental malaria by designing vaccines to cryptic epitopes that elicit broadly inhibitory antibodies against variant parasite strains.

Published

2019

30. Pfs230 and Pfs48/45 Fusion Proteins Elicit Strong Transmission-Blocking Antibody Responses Against Plasmodium falciparum

Author

Susheel K. Singh, Susan Thrane, Bishwanath K. Chourasia, Karina Teelen, Wouter Graumans, Rianne Stoter, Geert-Jan van Gemert, Marga G. van de Vegte-Bolmer, Morten A. Nielsen, Ali Salanti, Adam F. Sander, Robert W. Sauerwein, Matthijs M. Jore, and Michael Theisen

Subjects

malaria, vaccines, multivalent, transmission blocking, Lactococcus lactis, Immunologic diseases. Allergy, RC581-607

Abstract

The Plasmodium falciparum Pfs230 and Pfs48/45 proteins are expressed during transmission from man to mosquito and are leading candidates for a malaria transmission blocking vaccine. Individually they generate transmission blocking (TB) antibodies in rodent models. Whether the single protein vaccines are suitable to use in field settings will primarily depend on their potency to elicit functional antibodies. We hypothesized that a combination of both proteins will be more potent than each protein individually. Therefore we designed chimeric proteins composed of fragments of both Pfs230 and Pfs48/45 as well as single protein fragments, and expressed these in Lactoccus lactis. Both the individual Pfs230 and Pfs48/45 fragments and chimeras elicited high levels of functional antibodies in mice. Importantly, one of the chimeric proteins elicited over threefold higher transmission blocking antibody responses than the single antigens alone. Furthermore the immunogenicity of one of the chimeras could be enhanced through coupling to a virus-like particle (VLP). Altogether these data support further clinical development of these novel constructs.

Published

2019

31. Site-Specific O-Glycosylation Analysis of SARS-CoV-2 Spike Protein Produced in Insect and Human Cells

Author

Ieva Bagdonaite, Andrew J. Thompson, Xiaoning Wang, Max Søgaard, Cyrielle Fougeroux, Martin Frank, Jolene K. Diedrich, John R. Yates, Ali Salanti, Sergey Y. Vakhrushev, James C. Paulson, and Hans H. Wandall

Subjects

SARS-CoV-2, O-glycoproteomics, site-specific glycosylation, molecular modelling, COVID-19, GalNAc, Microbiology, QR1-502

Abstract

Enveloped viruses hijack not only the host translation processes, but also its glycosylation machinery, and to a variable extent cover viral surface proteins with tolerogenic host-like structures. SARS-CoV-2 surface protein S presents as a trimer on the viral surface and is covered by a dense shield of N-linked glycans, and a few O-glycosites have been reported. The location of O-glycans is controlled by a large family of initiating enzymes with variable expression in cells and tissues and hence is difficult to predict. Here, we used our well-established O-glycoproteomic workflows to map the precise positions of O-linked glycosylation sites on three different entities of protein S—insect cell or human cell-produced ectodomains, or insect cell derived receptor binding domain (RBD). In total 25 O-glycosites were identified, with similar patterns in the two ectodomains of different cell origin, and a distinct pattern of the monomeric RBD. Strikingly, 16 out of 25 O-glycosites were located within three amino acids from known N-glycosites. However, O-glycosylation was primarily found on peptides that were unoccupied by N-glycans, and otherwise had low overall occupancy. This suggests possible complementary functions of O-glycans in immune shielding and negligible effects of O-glycosylation on subunit vaccine design for SARS-CoV-2.

Published

2021

32. The Immunogenicity of Capsid-Like Particle Vaccines in Combination with Different Adjuvants Using Different Routes of Administration

Author

Christoph M. Janitzek, Philip H. R. Carlsen, Susan Thrane, Vijansh M. Khanna, Virginie Jakob, Christophe Barnier-Quer, Nicolas Collin, Thor G. Theander, Ali Salanti, Morten A. Nielsen, and Adam F. Sander

Subjects

vaccine, capsid-like particle, virus-like particle, adjuvants, AP205, route of immunization, Medicine

Abstract

Capsid-like particle (CLP) displays can be used to enhance the immunogenicity of vaccine antigens, but a better understanding of how CLP vaccines are best formulated and delivered is needed. This study compared the humoral immune responses in mice elicited against two different vaccine antigens (a bacterial protein and a viral peptide) delivered on an AP205 CLP platform using six different adjuvant formulations. In comparison to antibody responses obtained after immunization with the unadjuvanted CLP vaccine, three of the adjuvant systems (neutral liposomes/monophosphoryl lipid A/quillaja saponaria 21, squalene-in-water emulsion, and monophosphoryl lipid A) caused significantly increased antibody levels, whereas formulation with the three other adjuvants (aluminum hydroxide, cationic liposomes, and cationic microparticles) resulted in similar or even decreased antibody responses. When delivering the soluble bacterial protein in a squalene-in-water emulsion, 4-log lower IgG levels were obtained compared to when the protein was delivered on CLPs without the adjuvant. The AP205 CLP platform promoted induction of both IgG1 and IgG2 subclasses, which could be skewed towards a higher production of IgG1 (aluminum hydroxide). Compared to other routes, intramuscular administration elicited the highest IgG levels. These results indicate that the effect of the external adjuvant does not always synergize with the adjuvant effect of the CLP display, which underscores the need for empirical testing of different extrinsic adjuvants.

Published

2021

33. Real-time and label free determination of ligand binding-kinetics to primary cancer tissue specimens; a novel tool for the assessment of biomarker targeting

Author

Thomas Mandel Clausen, Marina Ayres Pereira, Htoo Zarni Oo, Mafalda Resende, Tobias Gustavson, Yang Mao, Nobuo Sugiura, Janet Liew, Ladan Fazli, Thor G. Theander, Mads Daugaard, and Ali Salanti

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

In clinical oncology, diagnosis and evaluation of optimal treatment strategies are mostly based on histopathological examination combined with immunohistochemical (IHC) expression analysis of cancer-associated antigens in formalin fixed paraffin-embedded (FFPE) tissue biopsies. However, informative IHC analysis depends on both the specificity and affinity of the binding reagent, which are inherently difficult to quantify in situ. Here we describe a label-free method that allows for the direct and real-time assessment of molecular binding kinetics in situ on FFPE tissue specimens using quartz crystal microbalance (QCM) enabled biosensor technology. We analysed the interaction between the rVAR2 protein and its placental-like chondroitin sulfate (pl-CS) receptor in primary human placenta tissue and in breast and prostate tumour specimens in situ. rVAR2 interacted with FFPE human placenta and cancer tissue with an affinity in the nanomolar range, and showed no detectable interaction with pl-CS negative normal tissue. We further validated the method by including analysis with the androgen receptor N-20 antibody (anti-AR). As the KD value produced by this method is independent of the number of epitopes available, this readout offers a quantitative and unbiased readout for in situ binding-avidity and amount of binding epitopes. In summary, this method adds a new and important dimension to classical IHC-based molecular pathology by adding information about the binding characteristics in biologically relevant conditions. This can potentially be used to select optimal biologics for diagnostic and for therapeutic applications as well as guide the development of novel high affinity binding drugs. Keywords: Quartz crystal microscale, Biomarker, Biosensor, VAR2CSA, Cancer, Malaria

Published

2016

34. A Vaccine Displaying a Trimeric Influenza-A HA Stem Protein on Capsid-Like Particles Elicits Potent and Long-Lasting Protection in Mice

Author

Susan Thrane, Kara-Lee Aves, Ida E. M Uddbäck, Christoph M. Janitzek, Julianna Han, Yuhe R. Yang, Andrew B. Ward, Thor G. Theander, Morten A. Nielsen, Ali Salanti, Allan R. Thomsen, Jan P. Christensen, and Adam F. Sander

Subjects

universal influenza vaccine, HA-stem antigen, capsid-like particles, Virus-like particles, trimer display, IgG2a, Medicine

Abstract

Due to constant antigenic drift and shift, current influenza-A vaccines need to be redesigned and administered annually. A universal flu vaccine (UFV) that provides long-lasting protection against both seasonal and emerging pandemic influenza strains is thus urgently needed. The hemagglutinin (HA) stem antigen is a promising target for such a vaccine as it contains neutralizing epitopes, known to induce cross-protective IgG responses against a wide variety of influenza subtypes. In this study, we describe the development of a UFV candidate consisting of a HAstem trimer displayed on the surface of rigid capsid-like particles (CLP). Compared to soluble unconjugated HAstem trimer, the CLP-HAstem particles induced a more potent, long-lasting immune response and were able to protect mice against both homologous and heterologous H1N1 influenza challenge, even after a single dose.

Published

2020

35. Optimization of rVAR2-Based Isolation of Cancer Cells in Blood for Building a Robust Assay for Clinical Detection of Circulating Tumor Cells

Author

Nicolai T. Sand, Tobias B. Petersen, Sara R. Bang-Christensen, Theresa D. Ahrens, Caroline Løppke, Amalie M. Jørgensen, Tobias Gustavsson, Swati Choudhary, Thor G. Theander, Ali Salanti, and Mette Ø. Agerbæk

Subjects

Circulating tumor cells (CTCs), rVAR2, enrichment technologies, cancer, diagnostics, rare cell isolation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Early detection and monitoring of cancer progression is key to successful treatment. Therefore, much research is invested in developing technologies, enabling effective and valuable use of non-invasive liquid biopsies. This includes the detection and analysis of circulating tumor cells (CTCs) from blood samples. Recombinant malaria protein VAR2CSA (rVAR2) binds a unique chondroitin sulfate modification present on the vast majority of cancers and thereby holds promise as a near-universal tumor cell-targeting reagent to isolate CTCs from complex blood samples. This study describes a technical approach for optimizing the coupling of rVAR2 to magnetic beads and the development of a CTC isolation platform targeting a range of different cancer cell lines. We investigate both direct and indirect approaches for rVAR2-mediated bead retrieval of cancer cells and conclude that an indirect capture approach is most effective for rVAR2-based cancer cell retrieval.

Published

2020

36. Virus-like particle display of HER2 induces potent anti-cancer responses

Author

Arianna Palladini, Susan Thrane, Christoph M. Janitzek, Jessica Pihl, Stine B. Clemmensen, Willem Adriaan de Jongh, Thomas M. Clausen, Giordano Nicoletti, Lorena Landuzzi, Manuel L. Penichet, Tania Balboni, Marianna L. Ianzano, Veronica Giusti, Thor G. Theander, Morten A. Nielsen, Ali Salanti, Pier-Luigi Lollini, Patrizia Nanni, and Adam F. Sander

Subjects

virus-like particle, her2, vaccine, breast cancer, nano-particle, therapeutic vaccination, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Overexpression of human epidermal growth factor receptor-2 (HER2) occurs in 20–30% of invasive breast cancers. Monoclonal antibody therapy is effective in treating HER2-driven mammary carcinomas, but its utility is limited by high costs, side effects and development of resistance. Active vaccination may represent a safer, more effective and cheaper alternative, although the induction of strong and durable autoantibody responses is hampered by immune-tolerogenic mechanisms. Using a novel virus-like particle (VLP) based vaccine platform we show that directional, high-density display of human HER2 on the surface of VLPs, allows induction of therapeutically potent anti-HER2 autoantibody responses. Prophylactic vaccination reduced spontaneous development of mammary carcinomas by 50%-100% in human HER2 transgenic mice and inhibited the growth of HER2-positive tumors implanted in wild-type mice. The HER2-VLP vaccine shows promise as a new cost-effective modality for prevention and treatment of HER2-positive cancer. The VLP platform may represent an effective tool for development of vaccines against other non-communicable diseases.

Published

2018

37. Protective Antibodies against Placental Malaria and Poor Outcomes during Pregnancy, Benin

Author

Nicaise Tuikue Ndam, Lise Denoeud-Ndam, Justin Doritchamou, Firmine Viwami, Ali Salanti, Morten A. Nielsen, Nadine Fievet, Achille Massougbodji, Adrian J.F. Luty, and Philippe Deloron

Subjects

Plasmodium falciparum, parasites, malaria, placental malaria, variant surface antigen 2 chondroitin sulfate, VAR2CSA, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Placental malaria is caused by Plasmodium falciparum–infected erythrocytes that bind to placental tissue. Binding is mediated by VAR2CSA, a parasite antigen coded by the var gene, which interacts with chondroitin sulfate A (CSA). Consequences include maternal anemia and fetal growth retardation. Antibody-mediated immunity to placental malaria is acquired during successive pregnancies, but the target of VAR2CSA-specific protective antibodies is unclear. We assessed VAR2CSA-specific antibodies in pregnant women and analyzed their relationships with protection against placental infection, preterm birth, and low birthweight. Antibody responses to the N-terminal region of VAR2CSA during early pregnancy were associated with reduced risks for infections and low birthweight. Among women infected during pregnancy, an increase in CSA binding inhibition was associated with reduced risks for placental infection, preterm birth, and low birthweight. These data suggest that antibodies against VAR2CSA N-terminal region mediate immunity to placental malaria and associated outcomes. Our results validate current vaccine development efforts with VAR2CSA N-terminal constructs.

Published

2015

38. Capture and Detection of Circulating Glioma Cells Using the Recombinant VAR2CSA Malaria Protein

Author

Sara R. Bang-Christensen, Rasmus S. Pedersen, Marina A. Pereira, Thomas M. Clausen, Caroline Løppke, Nicolai T. Sand, Theresa D. Ahrens, Amalie M. Jørgensen, Yi Chieh Lim, Louise Goksøyr, Swati Choudhary, Tobias Gustavsson, Robert Dagil, Mads Daugaard, Adam F. Sander, Mathias H. Torp, Max Søgaard, Thor G. Theander, Olga Østrup, Ulrik Lassen, Petra Hamerlik, Ali Salanti, and Mette Ø. Agerbæk

Subjects

circulating tumor cells (CTCs), glioma, biomarker, rVAR2, malaria, enrichment and detection technologies, Cytology, QH573-671

Abstract

Diffuse gliomas are the most common primary malignant brain tumor. Although extracranial metastases are rarely observed, recent studies have shown the presence of circulating tumor cells (CTCs) in the blood of glioma patients, confirming that a subset of tumor cells are capable of entering the circulation. The isolation and characterization of CTCs could provide a non-invasive method for repeated analysis of the mutational and phenotypic state of the tumor during the course of disease. However, the efficient detection of glioma CTCs has proven to be challenging due to the lack of consistently expressed tumor markers and high inter- and intra-tumor heterogeneity. Thus, for this field to progress, an omnipresent but specific marker of glioma CTCs is required. In this article, we demonstrate how the recombinant malaria VAR2CSA protein (rVAR2) can be used for the capture and detection of glioma cell lines that are spiked into blood through binding to a cancer-specific oncofetal chondroitin sulfate (ofCS). When using rVAR2 pull-down from glioma cells, we identified a panel of proteoglycans, known to be essential for glioma progression. Finally, the clinical feasibility of this work is supported by the rVAR2-based isolation and detection of CTCs from glioma patient blood samples, which highlights ofCS as a potential clinical target for CTC isolation.

Published

2019

39. Plasmodium falciparum Mutant Haplotype Infection during Pregnancy Associated with Reduced Birthweight, Tanzania

Author

Daniel T. R. Minja, Christentze Schmiegelow, Bruno Mmbando, Stéphanie Boström, Mayke Oesterholt, Pamela Magistrado, Caroline Pehrson, Davis John, Ali Salanti, Adrian J.F. Luty, Martha Lemnge, Thor Theander, John Lusingu, and Michael Alifrangis

Subjects

Plasmodium falciparum, malaria, mutations, haplotype, pregnancy, drug resistance, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Intermittent preventive treatment during pregnancy with sulfadoxine–pyrimethamine (IPTp-SP) is a key strategy in the control of pregnancy-associated malaria. However, this strategy is compromised by widespread drug resistance from single-nucleotide polymorphisms in the Plasmodium falciparum dihydrofolate reductase and dihydropteroate synthetase genes. During September 2008–October 2010, we monitored a cohort of 924 pregnant women in an area of Tanzania with declining malaria transmission. P. falciparum parasites were genotyped, and the effect of infecting haplotypes on birthweight was assessed. Of the genotyped parasites, 9.3%, 46.3%, and 44.4% had quadruple or less, quintuple, and sextuple mutated haplotypes, respectively. Mutant haplotypes were unrelated to SP doses. Compared with infections with the less-mutated haplotypes, infections with the sextuple haplotype mutation were associated with lower (359 g) birthweights. Continued use of the suboptimal IPTp-SP regimen should be reevaluated, and alternative strategies (e.g., intermittent screening and treatment or intermittent treatment with safe and effective alternative drugs) should be evaluated.

Published

2013

40. Placental Sequestration of Plasmodium falciparum Malaria Parasites Is Mediated by the Interaction Between VAR2CSA and Chondroitin Sulfate A on Syndecan-1.

Author

Marina Ayres Pereira, Thomas Mandel Clausen, Caroline Pehrson, Yang Mao, Mafalda Resende, Mads Daugaard, Anders Riis Kristensen, Charlotte Spliid, Line Mathiesen, Lisbeth E Knudsen, Peter Damm, Thor G Theander, Stefan R Hansson, Morten A Nielsen, and Ali Salanti

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

During placental malaria, Plasmodium falciparum infected erythrocytes sequester in the placenta, causing health problems for both the mother and fetus. The specific adherence is mediated by the VAR2CSA protein, which binds to placental chondroitin sulfate (CS) on chondroitin sulfate proteoglycans (CSPGs) in the placental syncytium. However, the identity of the CSPG core protein and the cellular impact of the interaction have remain elusive. In this study we identified the specific CSPG core protein to which the CS is attached, and characterized its exact placental location. VAR2CSA pull-down experiments using placental extracts from whole placenta or syncytiotrophoblast microvillous cell membranes showed three distinct CSPGs available for VAR2CSA adherence. Further examination of these three CSPGs by immunofluorescence and proximity ligation assays showed that syndecan-1 is the main receptor for VAR2CSA mediated placental adherence. We further show that the commonly used placental choriocarcinoma cell line, BeWo, express a different set of proteoglycans than those present on placental syncytiotrophoblast and may not be the most biologically relevant model to study placental malaria. Syncytial fusion of the BeWo cells, triggered by forskolin treatment, caused an increased expression of placental CS-modified syndecan-1. In line with this, we show that rVAR2 binding to placental CS impairs syndecan-1-related Src signaling in forskolin treated BeWo cells, but not in untreated cells.

Published

2016

41. Identification of a Major Dimorphic Region in the Functionally Critical N-Terminal ID1 Domain of VAR2CSA.

Author

Justin Doritchamou, Audrey Sabbagh, Jakob S Jespersen, Emmanuelle Renard, Ali Salanti, Morten A Nielsen, Philippe Deloron, and Nicaise Tuikue Ndam

Subjects

Medicine, Science

Abstract

The VAR2CSA protein of Plasmodium falciparum is transported to and expressed on the infected erythrocyte surface where it plays a key role in placental malaria (PM). It is the current leading candidate for a vaccine to prevent PM. However, the antigenic polymorphism integral to VAR2CSA poses a challenge for vaccine development. Based on detailed analysis of polymorphisms in the sequence of its ligand-binding N-terminal region, currently the main focus for vaccine development, we assessed var2csa from parasite isolates infecting pregnant women. The results reveal for the first time the presence of a major dimorphic region in the functionally critical N-terminal ID1 domain. Parasite isolates expressing VAR2CSA with particular motifs present within this domain are associated with gravidity- and parasite density-related effects. These observations are of particular interest in guiding efforts with respect to optimization of the VAR2CSA-based vaccines currently under development.

Published

2015

42. The Influence of Sub-Unit Composition and Expression System on the Functional Antibody Response in the Development of a VAR2CSA Based Plasmodium falciparum Placental Malaria Vaccine.

Author

Morten A Nielsen, Mafalda Resende, Willem A de Jongh, Sisse B Ditlev, Benjamin Mordmüller, Sophie Houard, Nicaise Tuikue Ndam, Mette Ø Agerbæk, Mette Hamborg, Achille Massougbodji, Saddou Issifou, Anette Strøbæk, Lars Poulsen, Odile Leroy, Peter G Kremsner, Jean-Philippe Chippaux, Adrian J F Luty, Philippe Deloron, Thor G Theander, Charlotte Dyring, and Ali Salanti

Subjects

Medicine, Science

Abstract

The disease caused by Plasmodium falciparum (Pf) involves different clinical manifestations that, cumulatively, kill hundreds of thousands every year. Placental malaria (PM) is one such manifestation in which Pf infected erythrocytes (IE) bind to chondroitin sulphate A (CSA) through expression of VAR2CSA, a parasite-derived antigen. Protection against PM is mediated by antibodies that inhibit binding of IE in the placental intervillous space. VAR2CSA is a large antigen incompatible with large scale recombinant protein expression. Vaccines based on sub-units encompassing the functionally constrained receptor-binding domains may, theoretically, circumvent polymorphisms, reduce the risk of escape-mutants and induce cross-reactive antibodies. However, the sub-unit composition and small differences in the borders, may lead to exposure of novel immuno-dominant antibody epitopes that lead to non-functional antibodies, and furthermore influence the folding, stability and yield of expression. Candidate antigens from the pre-clinical development expressed in High-Five insect cells using the baculovirus expression vector system were transitioned into the Drosophila Schneider-2 cell (S2) expression-system compliant with clinical development. The functional capacity of antibodies against antigens expressed in High-Five cells or in S2 cells was equivalent. This enabled an extensive down-selection of S2 insect cell-expressed antigens primarily encompassing the minimal CSA-binding region of VAR2CSA. In general, we found differential potency of inhibitory antibodies against antigens with the same borders but of different var2csa sequences. Likewise, we found that subtle size differences in antigens of the same sequence gave varying levels of inhibitory antibodies. The study shows that induction of a functional response against recombinant subunits of the VAR2CSA antigen is unpredictable, demonstrating the need for large-scale screening in order to identify antigens that induce a broadly strain-transcending antibody response.

Published

2015

43. A Novel Virus-Like Particle Based Vaccine Platform Displaying the Placental Malaria Antigen VAR2CSA.

Author

Susan Thrane, Christoph M Janitzek, Mette Ø Agerbæk, Sisse B Ditlev, Mafalda Resende, Morten A Nielsen, Thor G Theander, Ali Salanti, and Adam F Sander

Subjects

Medicine, Science

Abstract

Placental malaria caused by Plasmodium falciparum is a major cause of mortality and severe morbidity. Clinical testing of a soluble protein-based vaccine containing the parasite ligand, VAR2CSA, has been initiated. VAR2CSA binds to the human receptor chondroitin sulphate A (CSA) and is responsible for sequestration of Plasmodium falciparum infected erythrocytes in the placenta. It is imperative that a vaccine against malaria in pregnancy, if administered to women before they become pregnant, can induce a strong and long lasting immune response. While most soluble protein-based vaccines have failed during clinical testing, virus-like particle (VLP) based vaccines (e.g., the licensed human papillomavirus vaccines) have demonstrated high efficacy, suggesting that the spatial assembly of the vaccine antigen is a critical parameter for inducing an optimal long-lasting protective immune response. We have developed a VLP vaccine display platform by identifying regions of the HPV16 L1 coat protein where a biotin acceptor site (AviTagTM) can be inserted without compromising VLP-assembly. Subsequent biotinylation of Avi-L1 VLPs allow us to anchor monovalent streptavidin (mSA)-fused proteins to the biotin, thereby obtaining a dense and repetitive VLP-display of the vaccine antigen. The mSA-VAR2CSA antigen was delivered on the Avi-L1 VLP platform and tested in C57BL/6 mice in comparison to two soluble protein-based vaccines consisting of naked VAR2CSA and mSA-VAR2CSA. The mSA-VAR2CSA Avi-L1 VLP and soluble mSA-VAR2CSA vaccines induced higher antibody titers than the soluble naked VAR2CSA vaccine after three immunizations. The VAR2CSA Avi-L1 VLP vaccine induced statistically significantly higher endpoint titres compared to the soluble mSA-VAR2CSA vaccine, after 1st and 2nd immunization; however, this difference was not statistically significant after 3rd immunization. Importantly, the VLP-VAR2CSA induced antibodies were functional in inhibiting the binding of parasites to CSA. This study demonstrates that the described Avi-L1 VLP-platform may serve as a versatile system for facilitating optimal VLP-display of large and complex vaccine antigens.

Published

2015

44. Utilizing nanobody technology to target non-immunodominant domains of VAR2CSA.

Author

Sisse B Ditlev, Raluca Florea, Morten A Nielsen, Thor G Theander, Stefan Magez, Philippe Boeuf, and Ali Salanti

Subjects

Medicine, Science

Abstract

Placental malaria is a major health problem for both pregnant women and their fetuses in malaria endemic regions. It is triggered by the accumulation of Plasmodium falciparum-infected erythrocytes (IE) in the intervillous spaces of the placenta and is associated with foetal growth restriction and maternal anemia. IE accumulation is supported by the binding of the parasite-expressed protein VAR2CSA to placental chondroitin sulfate A (CSA). Defining specific CSA-binding epitopes of VAR2CSA, against which to target the immune response, is essential for the development of a vaccine aimed at blocking IE adhesion. However, the development of a VAR2CSA adhesion-blocking vaccine remains challenging due to (i) the large size of VAR2CSA and (ii) the extensive immune selection for polymorphisms and thereby non-neutralizing B-cell epitopes. Camelid heavy-chain-only antibodies (HcAbs) are known to target epitopes that are less immunogenic to classical IgG and, due to their small size and protruding antigen-binding loop, able to reach and recognize cryptic, conformational epitopes which are inaccessible to conventional antibodies. The variable heavy chain (VHH) domain is the antigen-binding site of camelid HcAbs, the so called Nanobody, which represents the smallest known (15 kDa) intact, native antigen-binding fragment. In this study, we have used the Nanobody technology, an approach new to malaria research, to generate small and functional antibody fragments recognizing unique epitopes broadly distributed on VAR2CSA.

Published

2014

45. The antibody response of pregnant Cameroonian women to VAR2CSA ID1-ID2a, a small recombinant protein containing the CSA-binding site.

Author

Anna Babakhanyan, Rose G F Leke, Ali Salanti, Naveen Bobbili, Philomina Gwanmesia, Robert J I Leke, Isabella A Quakyi, John J Chen, and Diane Wallace Taylor

Subjects

Medicine, Science

Abstract

In pregnant women, Plasmodium falciparum-infected erythrocytes expressing the VAR2CSA antigen bind to chondroitin sulfate A in the placenta causing placental malaria. The binding site of VAR2CSA is present in the ID1-ID2a region. This study sought to determine if pregnant Cameroonian women naturally acquire antibodies to ID1-ID2a and if antibodies to ID1-ID2a correlate with absence of placental malaria at delivery. Antibody levels to full-length VAR2CSA and ID1-ID2a were measured in plasma samples from 745 pregnant Cameroonian women, 144 Cameroonian men, and 66 US subjects. IgM levels and IgG avidity to ID1-ID2a were also determined. As expected, antibodies to ID1-ID2a were absent in US controls. Although pregnant Cameroonian women developed increasing levels of antibodies to full-length VAR2CSA during pregnancy, no increase in either IgM or IgG to ID1-ID2a was observed. Surprisingly, no differences in antibody levels to ID1-ID2a were detected between Cameroonian men and pregnant women. For example, in rural settings only 8-9% of males had antibodies to full-length VAR2CSA, but 90-96% had antibodies to ID1-ID2a. In addition, no significant difference in the avidity of IgG to ID1-ID2a was found between pregnant women and Cameroonian men, and no correlation between antibody levels at delivery and absence of placental malaria was found. Thus, the response to ID1-ID2a was not pregnancy specific, but predominantly against cross-reactivity epitopes, which may have been induced by other PfEMP1 antigens, malarial antigens, or microbes. Currently, ID1-ID2a is a leading vaccine candidate, since it binds to the CSA with the same affinity as the full-length molecule and elicits binding-inhibitory antibodies in animals. Further studies are needed to determine if the presence of naturally acquired cross-reactive antibodies in women living in malaria endemic countries will alter the response to ID1-ID2a following vaccination with ID1-ID2a.

Published

2014

46. Identification and characterization of B-cell epitopes in the DBL4ε domain of VAR2CSA.

Author

Sisse B Ditlev, Morten A Nielsen, Mafalda Resende, Mette Ø Agerbæk, Vera V Pinto, Pernille H Andersen, Pamela Magistrado, John Lusingu, Madeleine Dahlbäck, Thor G Theander, and Ali Salanti

Subjects

Medicine, Science

Abstract

Malaria during pregnancy in Plasmodium falciparum endemic regions is a major cause of mortality and severe morbidity. VAR2CSA is the parasite ligand responsible for sequestration of Plasmodium falciparum infected erythrocytes to the receptor chondroitin sulfate A (CSA) in the placenta and is the leading candidate for a placental malaria vaccine. Antibodies induced in rats against the recombinant DBL4ε domain of VAR2CSA inhibit the binding of a number of laboratory and field parasite isolates to CSA. In this study, we used a DBL4ε peptide-array to identify epitopes targeted by DBL4ε-specific antibodies that inhibit CSA-binding of infected erythrocytes. We identified three regions of overlapping peptides which were highly antigenic. One peptide region distinguished itself particularly by showing a clear difference in the binding profile of highly parasite blocking IgG compared to the IgG with low capacity to inhibit parasite adhesion to CSA. This region was further characterized and together these results suggest that even though antibodies against the synthetic peptides which cover this region did not recognize native protein, the results using the mutant domain suggest that this linear epitope might be involved in the induction of inhibitory antibodies induced by the recombinant DBL4ε domain.

Published

2012

47. High avidity antibodies to full-length VAR2CSA correlate with absence of placental malaria.

Author

Yeung Lo Tutterrow, Ali Salanti, Marion Avril, Joseph D Smith, Ian S Pagano, Simon Ako, Josephine Fogako, Rose G F Leke, and Diane Wallace Taylor

Subjects

Medicine, Science

Abstract

VAR2CSA mediates sequestration of Plasmodium falciparum-infected erythrocytes in the placenta, increasing the risk of poor pregnancy outcomes. Naturally acquired antibodies (Ab) to placental parasites at delivery have been associated with improved pregnancy outcomes, but Ab levels and how early in pregnancy Ab must be present in order to eliminate placental parasites before delivery remains unknown. Antibodies to individual Duffy-binding like domains of VAR2CSA have been studied, but the domains lack many of the conformational epitopes present in full-length VAR2CSA (FV2). Thus, the purpose of this study was to describe the acquisition of Ab to FV2 in women residing in high and low transmission areas and determine how Ab levels during pregnancy correlate with clearance of placental parasites. Plasma samples collected monthly throughout pregnancy from pregnant women living in high and low transmission areas in Cameroon were evaluated for Ab to FV2 and the proportion of high avidity Ab (i.e., Ab that remain bound in the presence of 3M NH(4)SCN) was assessed. Ab levels and proportion of high avidity Ab were compared between women with placental malaria (PM(+)) and those without (PM(-)) at delivery. Results showed that PM(-) women had significantly higher Ab levels (p = 0.0047) and proportion of high avidity Ab (p = 0.0009) than PM(+) women throughout pregnancy. Specifically, women with moderate to high Ab levels (>5,000 MFI) and those with ≥ 35% high avidity Ab at 5-6 months were found to have 2.3 (95% CI, 1.0-4.9) and 7.6-fold (p = 0.0013, 95% CI: 1.2-50.0) reduced risk of placental malaria, respectively. These data show that high levels of Ab to FV2, particularly those with high avidity for FV2, produced by mid-pregnancy are important in clearing parasites from the placenta. Both high Ab levels and proportion of high avidity Ab to FV2 may serve as correlates of protection for assessing immunity against placental malaria.

Published

2012

48. Differential induction of functional IgG using the Plasmodium falciparum placental malaria vaccine candidate VAR2CSA.

Author

Vera V Pinto, Sisse B Ditlev, Kamilla E Jensen, Mafalda Resende, Madeleine Dahlbäck, Gorm Andersen, Pernille Andersen, Thor G Theander, Ali Salanti, and Morten A Nielsen

Subjects

Medicine, Science

Abstract

BackgroundIn Plasmodium falciparum malaria endemic areas placental malaria (PM) is an important complication of malaria. The recurrence of malaria in primigravidae women irrespective of acquired protection during childhood is caused by the interaction between the parasite-expressed VAR2CSA antigen and chondroitin sulfate A (CSA) in the placental intervillous space and lack of protective antibodies. PM impairs fetal development mainly by excessive inflammation processes. After infections during pregnancy women acquire immunity to PM conferred by antibodies against VAR2CSA. Ideally, a vaccine against PM will induce antibody-mediated immune responses that block the adhesion of infected erythrocytes (IE) in the placenta.Principal findingsWe have previously shown that antibodies raised in rat against individual domains of VAR2CSA can block IE binding to CSA. In this study we have immunized mice, rats and rabbits with each individual domain and the full-length protein corresponding to the FCR3 VAR2CSA variant. We found there is an inherently higher immunogenicity of C-terminal domains compared to N-terminally located domains. This was irrespective of whether antibodies were induced against single domains or the full-length protein. Species-specific antibody responses were also found, these were mainly directed against single domains and not the full-length VAR2CSA protein.Conclusions/significanceBinding inhibitory antibodies appeared to be against conformational B-cell epitopes. Non-binding inhibitory antibodies reacted highly against the C-terminal end of the VAR2CSA molecule especially the highly polymorphic DBL6ε domain. Differential species-specific induction of antibody responses may allow for more direct analysis of functional versus non-functional B-cell epitopes.

Published

2011

49. Multiple var2csa-type PfEMP1 genes located at different chromosomal loci occur in many Plasmodium falciparum isolates.

Author

Adam F Sander, Ali Salanti, Thomas Lavstsen, Morten A Nielsen, Pamela Magistrado, John Lusingu, Nicaise Tuikue Ndam, and David E Arnot

Subjects

Medicine, Science

Abstract

BACKGROUND:The var2csa gene encodes a Plasmodium falciparum adhesion receptor which binds chondroitin sulfate A (CSA). This var gene is more conserved than other PfEMP1/var genes and is found in all P. falciparum isolates. In isolates 3D7, FCR3/It4 and HB3, var2csa is transcribed from a sub-telomeric position on the left arm of chromosome 12, but it is not known if this location is conserved in all parasites. Genome sequencing indicates that the var2csa gene is duplicated in HB3, but whether this is true in natural populations is uncertain. METHODOLOGY/PRINCIPAL FINDINGS:To assess global variation in the VAR2CSA protein, sequence variation in the DBL2X region of var2csa genes in 54 P.falciparum samples was analyzed. Chromosome mapping of var2csa loci was carried out and a quantitative PCR assay was developed to estimate the number of var2csa genes in P.falciparum isolates from the placenta of pregnant women and from the peripheral circulation of other malaria patients. Sequence analysis, gene mapping and copy number quantitation in P.falciparum isolates indicate that there are at least two loci and that both var2csa-like genes can be transcribed. All VAR2CSA DBL2X domains fall into one of two distinct phylogenetic groups possessing one or the other variant of a large (approximately 26 amino acid) dimorphic motif, but whether either motif variant is linked to a specific locus is not known. CONCLUSIONS/SIGNIFICANCE:Two or more related but distinct var2csa-type PfEMP1/var genes exist in many P. falciparum isolates. One gene is on chromosome 12 but additional var2csa-type genes are on different chromosomes in different isolates. Multiplicity of var2csa genes appears more common in infected placentae than in samples from non-pregnant donors indicating a possible advantage of this genotype in pregnancy associated malaria.

Published

2009

50. An upstream open reading frame controls translation of var2csa, a gene implicated in placental malaria.

Author

Borko Amulic, Ali Salanti, Thomas Lavstsen, Morten A Nielsen, and Kirk W Deitsch

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Malaria, caused by the parasite Plasmodium falciparum, is responsible for substantial morbidity, mortality and economic losses in tropical regions of the world. Pregnant women are exceptionally vulnerable to severe consequences of the infection, due to the specific adhesion of parasite-infected erythrocytes in the placenta. This adhesion is mediated by a unique variant of PfEMP1, a parasite encoded, hyper-variable antigen placed on the surface of infected cells. This variant, called VAR2CSA, binds to chondroitin sulfate A on syncytiotrophoblasts in the intervillous space of placentas. VAR2CSA appears to only be expressed in the presence of a placenta, suggesting that its expression is actively repressed in men, children or non-pregnant women; however, the mechanism of repression is not understood. Using cultured parasite lines and reporter gene constructs, we show that the gene encoding VAR2CSA contains a small upstream open reading frame that acts to repress translation of the resulting mRNA, revealing a novel form of gene regulation in malaria parasites. The mechanism underlying this translational repression is reversible, allowing high levels of protein translation upon selection, thus potentially enabling parasites to upregulate expression of this variant antigen in the presence of the appropriate host tissue.

Published

2009