Your search keyword '"EFFECTOR FUNCTIONS"' showing total 843 results

1. Protective effect and molecular mechanisms of human non-neutralizing cross-reactive spike antibodies elicited by SARS-CoV-2 mRNA vaccination

Author

Clark, Jordan J., Hoxie, Irene, Adelsberg, Daniel C., Sapse, Iden A., Andreata-Santos, Robert, Yong, Jeremy S., Amanat, Fatima, Tcheou, Johnstone, Raskin, Ariel, Singh, Gagandeep, González-Domínguez, Irene, Edgar, Julia E., Bournazos, Stylianos, Sun, Weina, Carreño, Juan Manuel, Simon, Viviana, Ellebedy, Ali H., Bajic, Goran, and Krammer, Florian

Published

2024

2. Serum immunoglobulin and the threshold of Fc receptor-mediated immune activation

Author

Bauer-Smith, Hannah, Sudol, Abigail S.L., Beers, Stephen A., and Crispin, Max

Published

2023

3. Identification of potential new T cell activation molecules: a Bioinformatic Approach

Author

Mario Morales-Martínez, David Andón-García, Karla Aimee Patiño-Santiago, Jesús Miguel Parga-Ortega, Abrahan Hernández-Hernández, Guillermo Aquino-Jarquin, and Genaro Patino-Lopez

Subjects

T-cell activation, Signaling Proteins, Immune Response, Lymphocytes, Effector functions, Medicine, Science

Abstract

Abstract T-cell activation is central for the initiation of T cell mediated adaptive immune response and is the result of the close communication between the Antigen Presenting Cell (APC) and the T lymphocyte. Although T-cell activation is currently well understood, and many intracellular pathways are well characterized, nevertheless new players are constantly identified, and this complements the known protein interactome. In this work we aimed to identify new proteins involved in T cell activation. We reviewed and analyzed results of microarray gene expression datasets reported in the public database GEO-NCBI. Using data from GSE136625, GSE50971, GSE13887, GSE11989 and GSE902 we performed different comparisons using R and other bioinformatic tools including GEO2R and we report here upregulated genes that have no previous reports in immune related functions and with potential participation upon T-cell activation. Our results indicate that RND3, SYT10, IgSF6 and PIN1 are potential new T-cell activation molecules.

Published

2024

4. CRISPR Screens Identify Toxoplasma Genes That Determine Parasite Fitness in Interferon Gamma-Stimulated Human Cells

Author

Krishnamurthy, Shruthi, Maru, Parag, Wang, Yifan, Bitew, Mebratu A, Mukhopadhyay, Debanjan, Yamaryo-Botté, Yoshiki, Paredes-Santos, Tatiana C, Sangaré, Lamba O, Swale, Christopher, Botté, Cyrille Y, and Saeij, Jeroen PJ

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Genetics, Infectious Diseases, Emerging Infectious Diseases, Human Genome, Biodefense, Prevention, 2.1 Biological and endogenous factors, Infection, Humans, Animals, Mice, Toxoplasma, Parasites, Interferon-gamma, Clustered Regularly Interspaced Short Palindromic Repeats, Virulence, Protozoan Proteins, CRISPR screen, Toxoplasma gondii, effector functions, host-pathogen interactions, interferons, Microbiology, Biochemistry and cell biology, Medical microbiology

Abstract

Toxoplasma virulence depends on its ability to evade or survive the toxoplasmacidal mechanisms induced by interferon gamma (IFNγ). While many Toxoplasma genes involved in the evasion of the murine IFNγ response have been identified, genes required to survive the human IFNγ response are largely unknown. In this study, we used a genome-wide loss-of-function screen to identify Toxoplasma genes important for parasite fitness in IFNγ-stimulated primary human fibroblasts. We generated gene knockouts for the top six hits from the screen and confirmed their importance for parasite growth in IFNγ-stimulated human fibroblasts. Of these six genes, three have homology to GRA32, localize to dense granules, and coimmunoprecipitate with each other and GRA32, suggesting they might form a complex. Deletion of individual members of this complex leads to early parasite egress in IFNγ-stimulated cells. Thus, prevention of early egress is an important Toxoplasma fitness determinant in IFNγ-stimulated human cells. IMPORTANCE Toxoplasma infection causes serious complications in immunocompromised individuals and in the developing fetus. During infection, certain immune cells release a protein called interferon gamma that activates cells to destroy the parasite or inhibit its growth. While most Toxoplasma parasites are cleared by this immune response, some can survive by blocking or evading the IFNγ-induced restrictive environment. Many Toxoplasma genes that determine parasite survival in IFNγ-activated murine cells are known but parasite genes conferring fitness in IFNγ-activated human cells are largely unknown. Using a Toxoplasma adapted genome-wide loss-of-function screen, we identified many Toxoplasma genes that determine parasite fitness in IFNγ-activated human cells. The gene products of four top hits play a role in preventing early parasite egress in IFNγ-stimulated human cells. Understanding how IFNγ-stimulated human cells inhibit Toxoplasma growth and how Toxoplasma counteracts this, could lead to the development of novel therapeutics.

Published

2023

5. Identification of potential new T cell activation molecules: a Bioinformatic Approach.

Author

Morales-Martínez, Mario, Andón-García, David, Patiño-Santiago, Karla Aimee, Parga-Ortega, Jesús Miguel, Hernández-Hernández, Abrahan, Aquino-Jarquin, Guillermo, and Patino-Lopez, Genaro

Abstract

T-cell activation is central for the initiation of T cell mediated adaptive immune response and is the result of the close communication between the Antigen Presenting Cell (APC) and the T lymphocyte. Although T-cell activation is currently well understood, and many intracellular pathways are well characterized, nevertheless new players are constantly identified, and this complements the known protein interactome. In this work we aimed to identify new proteins involved in T cell activation. We reviewed and analyzed results of microarray gene expression datasets reported in the public database GEO-NCBI. Using data from GSE136625, GSE50971, GSE13887, GSE11989 and GSE902 we performed different comparisons using R and other bioinformatic tools including GEO2R and we report here upregulated genes that have no previous reports in immune related functions and with potential participation upon T-cell activation. Our results indicate that RND3, SYT10, IgSF6 and PIN1 are potential new T-cell activation molecules. [ABSTRACT FROM AUTHOR]

Published

2024

6. Multivariate quantitative analysis of glycan impact on IgG1 effector functions

Author

Tamara Cvijić, Matej Horvat, Jakob Plahutnik, Ana Golob, and Jaka Marušič

Subjects

Antibody therapeutic, BLI, effector functions, glycoengineering, IgG1, multivariate analysis, Therapeutics. Pharmacology, RM1-950, Immunologic diseases. Allergy, RC581-607

Abstract

Development of novel therapeutic proteins and biosimilars requires a thorough understanding of the relationship between their structure and function. Particularly, how IgG glycosylation affects its effector functions is a point increasingly underscored in guidelines by the World Health Organization and regulatory agencies. Our results show that just a 1% decrease in Fc fucosylation can lead to a more than 25% increase in antibody-dependent cell-mediated cytotoxicity. The intercorrelated nature of glycan patterns, combined with the low variability and lack of well-defined glycan patterns in process development and manufacture samples, makes studying the effects of individual glycan structures challenging. The conventional approach to structure-function studies often relies on a suboptimal set of tools, such as the one-factor-at-a-time method for experimental planning and univariate data analysis. Here, we introduce a systematic approach to understanding and prediction of the impact of Fc glycans on effector functions, using a combination of the design of experiment, multivariate data analysis, and in-vitro glycoengineering. This approach adheres to quality-by-design principles and aligns with regulatory agency guidelines. A variety of analytical assays, including binding and cell-based assays, were applied to investigate the effect of individual glycans of the IgG1 molecule. The regression models developed here provide a quantitative explanation and prediction of the impact of individual glycan features on the binding to FcγRs and bioactivity of the therapeutic protein. To the best of our knowledge, this is the first report of a systematic approach to quantitatively understand the multivariate impact of glycosylation on the effector functionality of therapeutic monoclonal antibodies, providing valuable tools for advancing therapeutic protein development.

Published

2024

7. Effector Functions of Dendritic Cells in Cancer: Role of Cytotoxicity and Growth Inhibition

Author

Pratima Chaudhary, Prateek Srivastava, and Partha Pratim Manna

Subjects

cancer, dendritic cells, cytotoxicity, effector functions, immunosuppression, metastasis, anti-cancer drugs, combination therapy, tumor microenvironment, cross-priming, regulatory t cells, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

The tumor microenvironment plays a critical role in modulating immune responses associated with tumorigenesis, tumor progression, and metastasis. Dendritic cells (DC) play a key role in preventing and progression of metastatic neoplasia by driving and restoring dysfunctional immune systems and obliterating immunosuppression, thus obstructing tumor evasion. In this review, we will discuss the functions of tumor-infiltrating DC in anti-tumor resistance, prevention of tumor recurrence, and immunosuppression. We will also describe DC metabolism, differentiation, and plasticity, which are essential for its function. Cancers like Lymphomas may be able to corrupt immune surveillance by reducing natural killer cell numbers. Thus, interactions between lymphoma and DC with reference to cytotoxicity may be an important event, likely to be mediated via activation with interferon-γ (IFN-γ) and Toll like receptors (TLR) ligands. Mechanisms of DC-mediated cytotoxicity and the role of apoptosis and death receptors, including the role played by nitric oxide, etc., are of immense significance. We will also look into the molecular mechanisms in the tumor microenvironment, reduced drug sensitivity, and tumor relapse, as well as methods for combating drug resistance and focusing on immunosuppressive tumor networks. We will address how DC mediated cytotoxicity in combination with drugs affects tumor growth and expansion in relation to checkpoint inhibitors and regulatory T cells. Innovative approaches for therapeutic modulation of this immunosuppressive adoptive DC immunotherapy will be highlighted, which is necessary for future personalized therapeutic applications.

Published

2024

8. Mapping Neutralizing and Immunodominant Sites on the SARS-CoV-2 Spike Receptor-Binding Domain by Structure-Guided High-Resolution Serology

Author

Piccoli, Luca, Park, Young-Jun, Tortorici, M Alejandra, Czudnochowski, Nadine, Walls, Alexandra C, Beltramello, Martina, Silacci-Fregni, Chiara, Pinto, Dora, Rosen, Laura E, Bowen, John E, Acton, Oliver J, Jaconi, Stefano, Guarino, Barbara, Minola, Andrea, Zatta, Fabrizia, Sprugasci, Nicole, Bassi, Jessica, Peter, Alessia, De Marco, Anna, Nix, Jay C, Mele, Federico, Jovic, Sandra, Rodriguez, Blanca Fernandez, Gupta, Sneha V, Jin, Feng, Piumatti, Giovanni, Lo Presti, Giorgia, Pellanda, Alessandra Franzetti, Biggiogero, Maira, Tarkowski, Maciej, Pizzuto, Matteo S, Cameroni, Elisabetta, Havenar-Daughton, Colin, Smithey, Megan, Hong, David, Lepori, Valentino, Albanese, Emiliano, Ceschi, Alessandro, Bernasconi, Enos, Elzi, Luigia, Ferrari, Paolo, Garzoni, Christian, Riva, Agostino, Snell, Gyorgy, Sallusto, Federica, Fink, Katja, Virgin, Herbert W, Lanzavecchia, Antonio, Corti, Davide, and Veesler, David

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Coronaviruses Vaccines, Coronaviruses, Prevention, Coronaviruses Therapeutics and Interventions, Vaccine Related, Biotechnology, Immunization, Emerging Infectious Diseases, Infectious Diseases, Infection, Good Health and Well Being, Angiotensin-Converting Enzyme 2, Antibodies, Monoclonal, Antibodies, Neutralizing, Antibodies, Viral, Antigen-Antibody Reactions, Betacoronavirus, Binding Sites, COVID-19, Coronavirus Infections, Epitope Mapping, Epitopes, Humans, Immunoglobulin A, Immunoglobulin G, Immunoglobulin M, Kinetics, Molecular Dynamics Simulation, Pandemics, Peptidyl-Dipeptidase A, Pneumonia, Viral, Protein Binding, Protein Domains, Protein Structure, Quaternary, SARS-CoV-2, Spike Glycoprotein, Coronavirus, coronaviruses, effector functions, immunity, neutralizing antibodies, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Analysis of the specificity and kinetics of neutralizing antibodies (nAbs) elicited by SARS-CoV-2 infection is crucial for understanding immune protection and identifying targets for vaccine design. In a cohort of 647 SARS-CoV-2-infected subjects, we found that both the magnitude of Ab responses to SARS-CoV-2 spike (S) and nucleoprotein and nAb titers correlate with clinical scores. The receptor-binding domain (RBD) is immunodominant and the target of 90% of the neutralizing activity present in SARS-CoV-2 immune sera. Whereas overall RBD-specific serum IgG titers waned with a half-life of 49 days, nAb titers and avidity increased over time for some individuals, consistent with affinity maturation. We structurally defined an RBD antigenic map and serologically quantified serum Abs specific for distinct RBD epitopes leading to the identification of two major receptor-binding motif antigenic sites. Our results explain the immunodominance of the receptor-binding motif and will guide the design of COVID-19 vaccines and therapeutics.

Published

2020

9. An Anaplasma phagocytophilum T4SS effector, AteA, is essential for tick infection

Author

Jason M. Park, Brittany M. Genera, Deirdre Fahy, Kyle T. Swallow, Curtis M. Nelson, Jonathan D. Oliver, Dana K. Shaw, Ulrike G. Munderloh, and Kelly A. Brayton

Subjects

rickettsia, Anaplasma, obligate intracellular, effector functions, vector-borne diseases, actin, Microbiology, QR1-502

Abstract

ABSTRACT Pathogens must adapt to disparate environments in permissive host species, a feat that is especially pronounced for vector-borne microbes, which transition between vertebrate hosts and arthropod vectors to complete their lifecycles. Most knowledge about arthropod-vectored bacterial pathogens centers on their life in the mammalian host, where disease occurs. However, disease outbreaks are driven by the arthropod vectors. Adapting to the arthropod is critical for obligate intracellular rickettsial pathogens, as they depend on eukaryotic cells for survival. To manipulate the intracellular environment, these bacteria use type IV secretion systems (T4SS) to deliver effectors into the host cell. To date, few rickettsial T4SS translocated effectors have been identified and have only been examined in the context of mammalian infection. We identified an effector from the tick-borne rickettsial pathogen Anaplasma phagocytophilum, HGE1_02492, as critical for survival in tick cells and acquisition by ticks in vivo. Conversely, HGE1_02492 was dispensable during mammalian cell culture and murine infection. We show that HGE1_02492 is translocatable in a T4SS-dependent manner to the host cell cytosol. In eukaryotic cells, the HGE1_02492 localized with cortical actin filaments, which is dependent on multiple sub-domains of the protein. HGE1_02492 is the first arthropod-vector specific T4SS translocated effector identified from a rickettsial pathogen. Moreover, the subcellular target of HGE1_02492 suggests that A. phagocytophilum is manipulating actin to enable arthropod colonization. Based on these findings, we propose the name AteA for Anaplasma (phagocytophilum) tick effector A. Altogether, we show that A. phagocytophilum uses distinct strategies to cycle between mammals and arthropods. IMPORTANCE Ticks are the number one vector of pathogens for livestock worldwide and for humans in the United States. The biology of tick transmission is an understudied area. Understanding this critical interaction could provide opportunities to affect the course of disease spread. In this study, we examined the zoonotic tick-borne agent Anaplasma phagocytophilum and identified a secreted protein, AteA, which is expressed in a tick-specific manner. These secreted proteins, termed effectors, are the first proteins to interact with the host environment. AteA is essential for survival in ticks and appears to interact with cortical actin. Most effector proteins are studied in the context of the mammalian host; however, understanding how this unique set of proteins affects tick transmission is critical to developing interventions.

Published

2023

10. Harnessing Autophagy to Overcome Antigen-Specific T-Cell Dysfunction: Implication for People Living with HIV-1.

Author

Ghahari, Nazanin, Telittchenko, Roman, Loucif, Hamza, Isnard, Stephane, Routy, Jean-Pierre, Olagnier, David, and van Grevenynghe, Julien

Subjects

*HIV, *AUTOPHAGY, *T cells, *LYSOSOMES, *VIRUS diseases, *LONG-term non-progressors

Abstract

Like other chronic viral infections, HIV-1 persistence inhibits the development of antigen-specific memory T-cells, resulting in the exhaustion of the immune response and chronic inflammation. Autophagy is a major lysosome-dependent mechanism of intracellular large-target degradation such as lipid and protein aggregates, damaged organelles, and intracellular pathogens. Although it is known that autophagy may target HIV-1 for elimination, knowledge of its function as a metabolic contributor in such viral infection is only in its infancy. Recent data show that elite controllers (EC), who are HIV-1-infected subjects with natural and long-term antigen (Ag)-specific T-cell protection against the virus, are characterized by distinct metabolic autophagy-dependent features in their T-cells compared to other people living with HIV-1 (PLWH). Despite durable viral control with antiretroviral therapy (ART), HIV-1-specific immune dysfunction does not normalize in non-controller PLWH. Therefore, the hypothesis of inducing autophagy to strengthen their Ag-specific T-cell immunity against HIV-1 starts to be an enticing concept. The aim of this review is to critically analyze promises and potential limitations of pharmacological and dietary interventions to activate autophagy in an attempt to rescue Ag-specific T-cell protection among PLWH. [ABSTRACT FROM AUTHOR]

Published

2023

11. Brucella abortus Infection of Placental Trophoblasts Triggers Endoplasmic Reticulum Stress-Mediated Cell Death and Fetal Loss via Type IV Secretion System-Dependent Activation of CHOP

Author

Byndloss, Mariana X, Tsai, April Y, Walker, Gregory T, Miller, Cheryl N, Young, Briana M, English, Bevin C, Seyffert, Núbia, Kerrinnes, Tobias, de Jong, Maarten F, Atluri, Vidya L, Winter, Maria G, Celli, Jean, and Tsolis, Renée M

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Rare Diseases, Infectious Diseases, Pregnancy, Biodefense, Pediatric, Women's Health, Emerging Infectious Diseases, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, 1.1 Normal biological development and functioning, Infection, Reproductive health and childbirth, Good Health and Well Being, Animals, Brucella abortus, Cell Death, Endoplasmic Reticulum Stress, Female, Mice, Mice, Inbred C57BL, Nod1 Signaling Adaptor Protein, Nod2 Signaling Adaptor Protein, Placenta, Transcription Factor CHOP, Trophoblasts, Type IV Secretion Systems, Unfolded Protein Response, Brucella, type IV secretion, effector functions, endoplasmic reticulum, placenta, trophoblast, Microbiology, Biochemistry and cell biology, Medical microbiology

Abstract

Subversion of endoplasmic reticulum (ER) function is a feature shared by multiple intracellular bacteria and viruses, and in many cases this disruption of cellular function activates pathways of the unfolded protein response (UPR). In the case of infection with Brucella abortus, the etiologic agent of brucellosis, the unfolded protein response in the infected placenta contributes to placentitis and abortion, leading to pathogen transmission. Here we show that B. abortus infection of pregnant mice led to death of infected placental trophoblasts in a manner that depended on the VirB type IV secretion system (T4SS) and its effector VceC. The trophoblast death program required the ER stress-induced transcription factor CHOP. While NOD1/NOD2 expression in macrophages contributed to ER stress-induced inflammation, these receptors did not play a role in trophoblast death. Both placentitis and abortion were independent of apoptosis-associated Speck-like protein containing a caspase activation and recruitment domain (ASC). These studies show that B. abortus uses its T4SS to induce cell-type-specific responses to ER stress in trophoblasts that trigger placental inflammation and abortion. Our results suggest further that in B. abortus the T4SS and its effectors are under selection as bacterial transmission factors.IMPORTANCEBrucella abortus infects the placenta of pregnant cows, where it replicates to high levels and triggers abortion of the calf. The aborted material is highly infectious and transmits infection to both cows and humans, but very little is known about how B. abortus causes abortion. By studying this infection in pregnant mice, we discovered that B. abortus kills trophoblasts, which are important cells for maintaining pregnancy. This killing required an injected bacterial protein (VceC) that triggered an endoplasmic reticulum (ER) stress response in the trophoblast. By inhibiting ER stress or infecting mice that lack CHOP, a protein induced by ER stress, we could prevent death of trophoblasts, reduce inflammation, and increase the viability of the pups. Our results suggest that B. abortus injects VceC into placental trophoblasts to promote its transmission by abortion.

Published

2019

12. Single‐Cell Profiling Reveals Functional Heterogeneity and Serial Killing in Human Peripheral and Ex Vivo‐Generated CD34+ Progenitor‐Derived Natural Killer Cells.

Author

Subedi, Nikita, Verhagen, Liesbeth Petronella, de Jonge, Paul, Van Eyndhoven, Laura C., van Turnhout, Mark C., Koomen, Vera, Baudry, Jean, Eyer, Klaus, Dolstra, Harry, and Tel, Jurjen

Subjects

CORD blood, KILLER cells, SERIAL murders, CD34 antigen, CELL populations, CELL physiology

Abstract

Increasing evidence suggests that natural killer (NK) cells are composed of distinct functional subsets. This multifunctional role has made them an attractive choice for anticancer immunotherapy. A functional NK cell repertoire is generated through cellular education, resulting in a heterogeneous NK cell population with distinct capabilities responding to different stimuli. The application of a high‐throughput droplet‐based microfluidic platform allows monitoring of NK cell‐target cell interactions at the single‐cell level and in real‐time. A variable response of single NK cells toward different target cells is observed, and a distinct population of NK cells (serial killers) capable of inducing multiple target lysis is identified. By assessing the cytotoxic dynamics, it is shown that single umbilical cord blood‐derived CD34+ hematopoietic progenitor (HPC)‐NK cells display superior antitumor cytotoxicity. With an integrated analysis of cytotoxicity and cytokine secretion, it is shown that target cell interactions augment cytotoxic as well as secretory behavior of NK cells. By providing an integrated assessment of NK cell functions by microfluidics, this study paves the way to further functionally characterize NK cells ultimately aimed to improve cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

13. CRISPR Screens Identify Toxoplasma Genes That Determine Parasite Fitness in Interferon Gamma-Stimulated Human Cells

Author

Shruthi Krishnamurthy, Parag Maru, Yifan Wang, Mebratu A. Bitew, Debanjan Mukhopadhyay, Yoshiki Yamaryo-Botté, Tatiana C. Paredes-Santos, Lamba O. Sangaré, Christopher Swale, Cyrille Y. Botté, and Jeroen P. J. Saeij

Subjects

CRISPR screen, Toxoplasma gondii, effector functions, host-pathogen interactions, interferons, Microbiology, QR1-502

Abstract

ABSTRACT Toxoplasma virulence depends on its ability to evade or survive the toxoplasmacidal mechanisms induced by interferon gamma (IFNγ). While many Toxoplasma genes involved in the evasion of the murine IFNγ response have been identified, genes required to survive the human IFNγ response are largely unknown. In this study, we used a genome-wide loss-of-function screen to identify Toxoplasma genes important for parasite fitness in IFNγ-stimulated primary human fibroblasts. We generated gene knockouts for the top six hits from the screen and confirmed their importance for parasite growth in IFNγ-stimulated human fibroblasts. Of these six genes, three have homology to GRA32, localize to dense granules, and coimmunoprecipitate with each other and GRA32, suggesting they might form a complex. Deletion of individual members of this complex leads to early parasite egress in IFNγ-stimulated cells. Thus, prevention of early egress is an important Toxoplasma fitness determinant in IFNγ-stimulated human cells. IMPORTANCE Toxoplasma infection causes serious complications in immunocompromised individuals and in the developing fetus. During infection, certain immune cells release a protein called interferon gamma that activates cells to destroy the parasite or inhibit its growth. While most Toxoplasma parasites are cleared by this immune response, some can survive by blocking or evading the IFNγ-induced restrictive environment. Many Toxoplasma genes that determine parasite survival in IFNγ-activated murine cells are known but parasite genes conferring fitness in IFNγ-activated human cells are largely unknown. Using a Toxoplasma adapted genome-wide loss-of-function screen, we identified many Toxoplasma genes that determine parasite fitness in IFNγ-activated human cells. The gene products of four top hits play a role in preventing early parasite egress in IFNγ-stimulated human cells. Understanding how IFNγ-stimulated human cells inhibit Toxoplasma growth and how Toxoplasma counteracts this, could lead to the development of novel therapeutics.

Published

2023

14. Target Antigen Attributes and Their Contributions to Clinically Approved Antibody-Drug Conjugates (ADCs) in Haematopoietic and Solid Cancers.

Author

Esapa, Benjamina, Jiang, Jiexuan, Cheung, Anthony, Chenoweth, Alicia, Thurston, David E., and Karagiannis, Sophia N.

Subjects

*THERAPEUTIC use of monoclonal antibodies, *THERAPEUTIC use of antineoplastic agents, *DRUG approval, *DRUG efficacy, *IMMUNE checkpoint inhibitors, *MONOCLONAL antibodies, *ANTINEOPLASTIC agents, *HEMATOLOGIC malignancies, *TUMOR antigens, *DRUG development, *IMMUNOTHERAPY, *PATIENT safety, *PHARMACODYNAMICS

Abstract

Simple Summary: Antibody-Drug Conjugates (ADCs) provide effective anti-cancer treatments. ADC development requires the identification of appropriate tumour-associated antigens that can be targeted by the ADC to effectively kill cancer cells while minimising damage to healthy cells, thus limiting systemic toxicities. In this review, we examine the attributes of the antigens targeted by the anticancer ADCs that are clinically approved, and consider how these features may contribute to the safety and effectiveness of ADC therapeutics. Antibody drug conjugates (ADCs) are powerful anti-cancer therapies comprising an antibody joined to a cytotoxic payload through a chemical linker. ADCs exploit the specificity of antibodies for their target antigens, combined with the potency of cytotoxic drugs, to selectively kill target antigen-expressing tumour cells. The recent rapid advancement of the ADC field has so far yielded twelve and eight ADCs approved by the US and EU regulatory bodies, respectively. These serve as effective targeted treatments for several haematological and solid tumour types. In the development of an ADC, the judicious choice of an antibody target antigen with high expression on malignant cells but restricted expression on normal tissues and immune cells is considered crucial to achieve selectivity and potency while minimising on-target off-tumour toxicities. Aside from this paradigm, the selection of an antigen for an ADC requires consideration of several factors relating to the expression pattern and biological features of the target antigen. In this review, we discuss the attributes of antigens selected as targets for antibodies used in clinically approved ADCs for the treatment of haematological and solid malignancies. We discuss target expression, functions, and cellular kinetics, and we consider how these factors might contribute to ADC efficacy. [ABSTRACT FROM AUTHOR]

Published

2023

15. Intrabacterial Regulation of a Cytotoxic Effector by Its Cognate Metaeffector Promotes Legionella pneumophila Virulence

Author

Deepika Chauhan, Ashley M. Joseph, and Stephanie R. Shames

Subjects

Legionella pneumophila, metaeffector, effector functions, virulence, Microbiology, QR1-502

Abstract

ABSTRACT Legionella pneumophila is a natural pathogen of unicellular protozoa that can opportunistically infect macrophages and cause Legionnaires’ Disease. Intracellular replication is driven by hundreds of bacterial effector proteins that are translocated into infected host cells by a Dot/Icm type IV secretion system. L. pneumophila effectors are temporally regulated in part by a unique family of translocated regulatory effectors, termed metaeffectors, which bind and modulate the function of a cognate effector in host cells. Regulation of the cytotoxic effector SidI by its cognate metaeffector, MesI, is critical for L. pneumophila virulence in natural and opportunistic hosts. MesI binds and negatively regulates SidI activity in vitro, but how impaired regulation of SidI impairs L. pneumophila intracellular replication is unclear. Using a chromosomally encoded inducible expression system, we found that SidI was toxic to L. pneumophila when uncoupled from MesI. SidI enzymatic activity was required for intrabacterial toxicity since L. pneumophila growth was unaffected by induced expression of a catalytically inactive sidI allele. We also found that MesI translocation into host cells was dispensable for intracellular replication and that MesI-deficient bacteria were rapidly degraded within host cells. These data suggest that MesI promotes L. pneumophila intracellular replication by regulating SidI within the bacterium and reveal a unique role for intrabacterial effector regulation by a translocated metaeffector in L. pneumophila virulence. IMPORTANCE Legionella pneumophila replicates within phagocytic host cells using hundreds of effector protein virulence factors, which canonically subvert the function of host proteins and pathways. L. pneumophila encodes a unique family of translocated effectors called metaeffectors, which bind and regulate the function of a cognate effector in host cells. The metaeffector MesI promotes L. pneumophila virulence by regulating the cytotoxic effector SidI; however, the MesI regulatory mechanism is poorly understood. We discovered a unique intrabacterial role for MesI in L. pneumophila virulence. When uncoupled from MesI, SidI was toxic to L. pneumophila in vitro and triggered robust bacterial degradation in host cells. Furthermore, translocation of MesI was dispensable for intracellular replication, demonstrating that intrabacterial regulation of SidI contributes to L. pneumophila virulence. These data show a novel and important role for translocated effector activity within the bacterium, which challenges the dogma that L. pneumophila effectors function exclusively within host cells.

Published

2023

16. Editorial: Effector functions of therapeutic antibodies

Author

Peter Boross, Matthias Peipp, and Falk Nimmerjahn

Subjects

antibodies, glycosylation, IgA, effector functions, Fc receptors, complement, Immunologic diseases. Allergy, RC581-607

Published

2023

17. Building a better antibody through the Fc: advances and challenges in harnessing antibody Fc effector functions for antiviral protection

Author

Bronwyn M. Gunn and Shuangyi Bai

Subjects

antibodies, effector functions, innate immunity, antibody engineering, antibody fc domain, virus, antiviral, immuno-therapeutics, ebola virus, sars-cov-2, influenza, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Antibodies can provide antiviral protection through neutralization and recruitment of innate effector functions through the Fc domain. While neutralization has long been appreciated for its role in antibody-mediated protection, a growing body of work indicates that the antibody Fc domain also significantly contributes to antiviral protection. Recruitment of innate immune cells such as natural killer cells, neutrophils, monocytes, macrophages, dendritic cells and the complement system by antibodies can lead to direct restriction of viral infection as well as promoting long-term antiviral immunity. Monoclonal antibody therapeutics against viruses are increasingly incorporating Fc-enhancing features to take advantage of the Fc domain, uncovering a surprising breadth of mechanisms through which antibodies can control viral infection. Here, we review the recent advances in our understanding of antibody-mediated innate immune effector functions in protection from viral infection and review the current approaches and challenges to effectively leverage innate immune cells via antibodies.

Published

2021

18. Heterogeneity in IgG-CD16 signaling in infectious disease outcomes.

Author

Gonzalez, Joseph C., Chakraborty, Saborni, Thulin, Natalie K., and Wang, Taia T.

Subjects

*DENGUE hemorrhagic fever, *COMMUNICABLE diseases, *VIRUS diseases, *IMMUNE complexes, *COVID-19, *HETEROGENEITY

Abstract

In this review, we discuss how IgG antibodies can modulate inflammatory signaling during viral infections with a focus on CD16a-mediated functions. We describe the structural heterogeneity of IgG antibody ligands, including subclass and glycosylation that impact binding by and downstream activity of CD16a, as well as the heterogeneity of CD16a itself, including allele and expression density. While inflammation is a mechanism required for immune homeostasis and resolution of acute infections, we focus here on two infectious diseases that are driven by pathogenic inflammatory responses during infection. Specifically, we review and discuss the evolving body of literature showing that afucosylated IgG immune complex signaling through CD16a contributes to the overwhelming inflammatory response that is central to the pathogenesis of severe forms of dengue disease and coronavirus disease 2019 (COVID-19). [ABSTRACT FROM AUTHOR]

Published

2022

19. The C(H)1 domain of IgG is not essential for C3 covalent binding: importance of the other constant domains as targets for C3.

Author

Munoz, E., Vidarte, L., Casado, M.T., Pastor Vargas, Carlos, Vivanco Martínez, Fernando, Munoz, E., Vidarte, L., Casado, M.T., Pastor Vargas, Carlos, and Vivanco Martínez, Fernando

Abstract

The covalent binding of C3 to antigen-antibody complexes [immune complexes (IC)] plays a pivotal role in the elimination of antigens. C3 prevents the formation of large IC lattices promoting their solubilization. Subsequently, bound C3 fragments determine the efficacy of antigen presentation, and the generation of antibody responses and immunological memory. C3 binding to IgG-IC generates IgG-C3b-C3b complexes which are detected by SDS-PAGE as two major bands: C3alpha65-heavy chain and C3alpha65-C3alpha43 covalent complexes. Using human heat-aggregated IgG1 as a model of IC, a C3b binding site was localized only in the Cgamma1 domain. However, with true IC of ovalbumin and rabbit IgG anti-ovalbumin, C3b binds to both the Fab and Fc regions of IgG. To study the binding of C3b to the different domains of IgG and particularly to evaluate the involvement of the Cgamma1 domain, we have constructed recombinant single-chain antibodies without Cgamma1, which have the structure: V(H)-linker-V(L)-hinge-Cgamma2-Cgamma3 (scAb). The variable domains were from a mouse mAb anti-HSA and the constant region (hinge-C(H)2-C(H)3) from human IgG1 or rabbit IgG. C3 binds very efficiently to IC formed with human (h-scAb) or rabbit (r-scAb) recombinant antibodies (scAb-HSA) and generates also two bands on SDS-PAGE (C3alpha65-scAb and C3alpha65-C3alpha43), which are the counterparts of those of the complete antibody. In addition, IC formed with scAb activate the alternative pathway to a similar extent as IC of the entire IgG. These data indicate that the Cgamma1 domain is a dispensable region for C3b binding and that the remaining constant domains are as efficient as Cgamma1 in C3b binding. Overall these results support the view that C3 does not specifically recognize a unique site in the Cgamma1 domain. Rather it seems to be able to attach along the antibody molecule. Probably this implies an advantage for effective processing of C3b-IC and elimination of antigens in vivo., Ministerio de Educacion, Comunidad de Madrid, Depto. de Bioquímica y Biología Molecular, Fac. de Ciencias Químicas, TRUE, pub

Published

2024

20. A type VI secretion system in Burkholderia species cenocepacia and orbicola triggers distinct macrophage death pathways independent of the pyrin inflammasome.

Author

Loeven NA, Dabi C, Pennington JP, Reuven AD, McGee AP, Mwaura BW, and Bliska JB

Subjects

Animals, Mice, Caspase 1 metabolism, Caspase 1 genetics, Cell Death, Caspases metabolism, Burkholderia pathogenicity, Burkholderia genetics, Mice, Inbred C57BL, Mice, Knockout, Bacterial Proteins metabolism, Bacterial Proteins genetics, Macrophages microbiology, Macrophages metabolism, Inflammasomes metabolism, Burkholderia cenocepacia metabolism, Burkholderia cenocepacia genetics, Type VI Secretion Systems metabolism, Type VI Secretion Systems genetics, Pyrin metabolism, Pyrin genetics, Burkholderia Infections microbiology, Burkholderia Infections immunology, Caspases, Initiator metabolism

Abstract

The Burkholderia cepacia complex contains opportunistic pathogens that cause chronic infections and inflammation in the lungs of people with cystic fibrosis. Two closely related species within this complex are Burkholderia cenocepacia and the recently classified Burkholderia orbicola. B. cenocepacia and B. orbicola encode a type VI secretion system and the effector TecA, which is detected by the pyrin/caspase-1 inflammasome, and triggers macrophage inflammatory death. We previously showed that the pyrin inflammasome was dispensable for lung inflammation in mice infected with B. orbicola AU1054 , indicating this species activates an alternative pathway of macrophage inflammatory death. Notably, B. cenocepacia strains J2315 and K56-2 can damage macrophage phagosomes, and K56-2 triggers activation of the caspase-11 inflammasome, which detects cytosolic lipopolysaccharide. Here, we investigated inflammatory cell death in pyrin- ( Mefv -/- ) or caspase-1/caspase-11- ( Casp1/11 -/- ) deficient mouse macrophages infected with B. cenocepacia J2315 or K56-2 or B. orbicola AU1054 or PC184. Macrophage inflammatory death was measured by cleavage of gasdermin D protein, the release of cytokines IL-1α and IL-1β, and plasma membrane rupture. We found that J2315 and K56-2 are detected by the caspase-11 inflammasome in Mefv -/- macrophages, resulting in IL-1β release. By contrast, inflammasome activation was not detected in Mefv -/- macrophages infected with AU1054 or PC184. Instead, AU1054 triggered an alternative macrophage inflammatory death pathway that required TecA and resulted in plasma membrane rupture and IL-1α release. Structural modeling of TecA orthologs in B. cenocepacia and B. orbicola suggested that amino acid changes in the latter may underlie its ability to trigger a non-inflammasome macrophage death pathway., Competing Interests: The authors declare no conflict of interest.

Published

2024

21. crANKing up the infection: ankyrin domains in Rickettsiales and their role in host manipulation.

Author

Hamilton WC and Newton ILG

Subjects

Humans, Animals, Ankyrin Repeat, Rickettsiaceae genetics, Rickettsiaceae metabolism, Host-Pathogen Interactions, Bacterial Proteins metabolism, Bacterial Proteins genetics

Abstract

Intracellular bacteria use secreted effector proteins to modify host biology and facilitate infection. For many of these microbes, a particular eukaryotic domain-the ankyrin repeat (ANK)-plays a central role in specifying the host proteins and pathways targeted by the microbe. While we understand much of how some ANKs function in model organisms like Legionella and Coxiella , the understudied Rickettsiales species harbor many proteins with ANKs, some of which play critical roles during infection. This minireview is meant to organize and summarize the research progress made in understanding some of these Rickettsiales ANKs as well as document some of the techniques that have driven much of this progress., Competing Interests: The authors declare no conflict of interest.

Published

2024

22. Editorial: Effector functions of therapeutic antibodies.

Author

Boross, Peter, Peipp, Matthias, and Nimmerjahn, Falk

Subjects

IMMUNE response, IMMUNOGLOBULINS, FC receptors

Published

2023

23. The interplay of protein engineering and glycoengineering to fine‐tune antibody glycosylation and its impact on effector functions.

Author

Wang, Qiong, Wang, Tiexin, Zhang, Roushu, Yang, Shuang, McFarland, Kevin S., Chung, Cheng‐Yu, Jia, Hongpeng, Wang, Lai‐Xi, Cipollo, John F., and Betenbaugh, Michael J.

Abstract

The N‐glycan pattern of an IgG antibody, attached at a conserved site within the fragment crystallizable (Fc) region, is a critical antibody quality attribute whose structural variability can also impact antibody function. For tailoring the Fc glycoprofile, glycoengineering in cell lines as well as Fc amino acid mutations have been applied. Multiple glycoengineered Chinese hamster ovary cell lines were generated, including defucosylated (FUT8KO), α‐2,6‐sialylated (ST6KI), and defucosylated α‐2,6‐sialylated (FUT8KOST6KI), expressing either a wild‐type anti‐CD20 IgG (WT) or phenylalanine to alanine (F241A) mutant. Matrix‐assisted laser desorption ionization‐time of flight mass spectrometry characterization of antibody N‐glycans revealed that the F241A mutation significantly increased galactosylation and sialylation content and glycan branching. Furthermore, overexpression of recombinant human α‐2,6‐sialyltransferase resulted in a predominance of α‐2,6‐sialylation rather than α‐2,3‐sialylation for both WT and heavily sialylated F241A antibody N‐glycans. Interestingly, knocking out α‐1,6‐fucosyltransferase (FUT8KO), which removed core fucose, lowered the content of N‐glycans with terminal Gal and increased levels of terminal GlcNAc and Man5 groups on WT antibody. Further complement‐dependent cytotoxicity (CDC) analysis revealed that, regardless of the production cells, WT antibody samples have higher cytotoxic CDC activity with more exposed Gal residues compared to their individual F241A mutants. However, the FUT8KO WT antibody, with a large fraction of bi‐GlcNAc structures (G0), displayed the lowest CDC activity of all WT antibody samples. Furthermore, for the F241A mutants, a higher CDC activity was observed for α‐2,6‐ compared to α‐2,3‐sialylation. Antibody‐dependent cellular cytotoxicity (ADCC) analysis revealed that the defucosylated WT and F241A mutants showed enhanced in vitro ADCC performance compared to their fucosylated counterparts, with the defucosylated WT antibodies displaying the highest overall ADCC activity, regardless of sialic acid substitution. Moreover, the FcγRIIIA receptor binding by antibodies did not always correspond directly with ADCC result. This study demonstrates that glycoengineering and protein engineering can both promote and inhibit antibody effector functions and represent practical approaches for varying glycan composition and functionalities during antibody development. [ABSTRACT FROM AUTHOR]

Published

2022

24. Insights into the effector functions of human IgG3 in the context of an antibody targeting transferrin receptor 1

Author

Leoh, Lai Sum, Daniels-Wells, Tracy R, Martínez-Maza, Otoniel, and Penichet, Manuel L

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Biotechnology, Immunization, Cancer, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Antibody-Dependent Cell Cytotoxicity, Antigens, CD, Cell Line, Tumor, Complement C1q, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Humans, Immunoglobulin G, Mutant Proteins, Protein Binding, Receptors, IgG, Receptors, Transferrin, Antibodies, Effector functions, ADCC, CDC, Human IgG3, TfR1, Immunology, Biochemistry and cell biology

Abstract

The transferrin receptor 1 (TfR1) is involved in cellular iron uptake and regulation of cell proliferation. The increased expression of TfR1 observed in malignant cells, compared to normal cells, together with its extracellular accessibility, make this receptor an attractive target for antibody-mediated cancer therapy. We have developed a mouse/human chimeric IgG3 specific for human TfR1 (ch128.1), which shows anti-tumor activity against certain malignant B cells in vitro through TfR1 degradation and iron deprivation, and in vivo through a mechanism yet to be defined. To further explore potential mechanisms of action of ch128.1, we examined its ability to induce antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-mediated cytotoxicity (CDC). We now report that ch128.1 is capable of mediating ADCC and CDC against malignant B cells, which is consistent with its ability to bind FcγRI, FcγRIIIa, and the complement component C1q. To delineate the residues involved in these effector functions, we developed a panel of three constructs with mutations in the lower hinge region and CH2 domain: 1) L234A/L235A, 2) P331S, and 3) L234A/L235A/P331S. The triple mutant consistently displayed a significant reduction in ADCC, while the L234A/L235A mutant exhibited less reduction in ADCC, and the P331S mutant did not show reduced ADCC. However, all three mutants exhibited impaired binding to FcγRI and FcγRIIIa. These results suggest that all three residues contribute to ADCC, although to different degrees. The P331S mutant showed drastically decreased C1q binding and abolished CDC, confirming the critical role of this residue in complement activation, while the other residues play a less important role in CDC. Our study provides insights into the effector functions of human IgG3 in the context of an antibody targeting TfR1.

Published

2015

25. SARS-CoV-2 infection prior to vaccination amplifies Fc-mediated humoral profiles in an age-dependent manner.

Author

Jung, Wonyeong, Abdelnour, Arturo, Kaplonek, Paulina, Herrero, Rolando, Shih-Lu Lee, Jessica, Barbati, Domenic R., Chicz, Taras M., Levine, Kate S., Fantin, Romain Clement, Loria, Viviana, Porras, Carolina, Lauffenburger, Douglas A., Gail, Mitchell H., Aparicio, Amada, Hildesheim, Allan, Alter, Galit, and McNamara, Ryan P.

Abstract

Immunity acquired by vaccination following infection, termed hybrid immunity, has been shown to confer enhanced protection against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) by enhancing the breadth and potency of immune responses. Here, we assess Fc-mediated humoral profiles in hybrid immunity and their association with age and vaccine type. Participants are divided into three groups: infection only, vaccination only, and vaccination following infection (i.e., hybrid immunity). Using systems serology, we profile humoral immune responses against spikes and subdomains of SARS-CoV-2 variants. We find that hybrid immunity is characterized by superior Fc receptor binding and natural killer (NK) cell-, neutrophil-, and complement-activating antibodies, which is higher than what can be expected from the sum of the vaccination and infection. These differences between hybrid immunity and vaccine-induced immunity are more pronounced in aged adults, especially for immunoglobulin (Ig)G1, IgG2, and Fcγ receptor-binding antibodies. Our findings suggest that vaccination strategies that aim to mimic hybrid immunity should consider age as an important modifier. [Display omitted] • Hybrid immunity elicits antibodies with stronger Fc-mediated effector functions • Effects of hybrid immunity are more than the sum of infection and vaccination • Differences between hybrid immunity and vaccine-induced immunity are age dependent Immunity acquired by vaccination following infection, termed hybrid immunity, has been shown to confer enhanced protection against SARS-CoV-2. Jung et al. identify Fc-mediated humoral profiles that are amplified in hybrid immunity, especially in the elderly. This suggests possible benefits of vaccination strategy mimicking hybrid immunity in the elderly. [ABSTRACT FROM AUTHOR]

Published

2024

26. Neutrophil Extracellular Traps Activate Proinflammatory Functions of Human Neutrophils

Author

Daniel Dömer, Tabea Walther, Sonja Möller, Martina Behnen, and Tamás Laskay

Subjects

neutrophil extracellular traps, neutrophils, inflammation, effector functions, NET formation, ROS production, Immunologic diseases. Allergy, RC581-607

Abstract

Neutrophil extracellular traps (NETs) consist of decondensed nuclear chromatin that is associated with proteins and are released by neutrophils during an inflammatory response. Released NETs are able to capture pathogens, prevent their dissemination and potentially kill them via antimicrobial peptides and proteins that are associated with the decondensed chromatin. In addition to their antimicrobial functions, NETs have also been shown to exert immunomodulatory effects by activation and differentiation of macrophages, dendritic cells and T cells. However, the effect of NETs on neutrophil functions is poorly understood. Here we report the first comprehensive study regarding the effects of NETs on human primary neutrophils in vitro. NETs were isolated from cultures of PMA-exposed neutrophils. Exposure of neutrophils to isolated NETs resulted in the activation of several neutrophil functions in a concentration-dependent manner. NETs induced exocytosis of granules, the production of reactive oxygen species (ROS) by the NADPH oxidase NOX2, NOX2-dependent NET formation, increased the phagocytosis and killing of microbial pathogens. Furthermore, NETs induced the secretion of the proinflammatory chemokine IL-8 and the B-cell-activating cytokine BAFF. We could show that the NET-induced activation of neutrophils occurs by pathways that involve the phosphorylation of Akt, ERK1/2 and p38. Taken together our results provide further insights into the proinflammatory role of NETs by activating neutrophil effector function and further supports the view that NETs can amplify inflammatory events. On the one hand the amplified functions enhance the antimicrobial defense. On the other hand, NET-amplified neutrophil functions can be involved in the pathophysiology of NET-associated diseases. In addition, NETs can connect the innate and adaptive immune system by inducing the secretion of the B-cell-activating cytokine BAFF.

Published

2021

27. T Cell-Mediated Immune Responses to AAV and AAV Vectors

Author

Hildegund C. J. Ertl

Subjects

CD8+ T cells, memory, immunosuppression, effector functions, animal models, clinical trials, Immunologic diseases. Allergy, RC581-607

Abstract

Adeno-associated virus (AAV)-mediated gene transfer has benefited patients with inherited diseases, such as hemophilia B, by achieving long-term expression of the therapeutic transgene. Nevertheless, challenges remain due to rejection of AAV-transduced cells, which in some, but not all, patients can be prevented by immunosuppression. It is assumed that CD8+ T cells induced by natural infections with AAVs are recalled by the AAV vector’s capsid and upon activation eliminate cells expressing the degraded capsid antigens. Alternatively, it is feasible that AAV vectors, especially if given at high doses, induce de novo capsid- or transgene product-specific T cell responses. This chapter discusses CD8+ T cell responses to AAV infections and AAV gene transfer and avenues to prevent their activation or block their effector functions.

Published

2021

28. Neutrophil Extracellular Traps Activate Proinflammatory Functions of Human Neutrophils.

Author

Dömer, Daniel, Walther, Tabea, Möller, Sonja, Behnen, Martina, and Laskay, Tamás

Subjects

NEUTROPHILS, NADPH oxidase, REACTIVE oxygen species, ANTIMICROBIAL peptides, T cells

Abstract

Neutrophil extracellular traps (NETs) consist of decondensed nuclear chromatin that is associated with proteins and are released by neutrophils during an inflammatory response. Released NETs are able to capture pathogens, prevent their dissemination and potentially kill them via antimicrobial peptides and proteins that are associated with the decondensed chromatin. In addition to their antimicrobial functions, NETs have also been shown to exert immunomodulatory effects by activation and differentiation of macrophages, dendritic cells and T cells. However, the effect of NETs on neutrophil functions is poorly understood. Here we report the first comprehensive study regarding the effects of NETs on human primary neutrophils in vitro. NETs were isolated from cultures of PMA-exposed neutrophils. Exposure of neutrophils to isolated NETs resulted in the activation of several neutrophil functions in a concentration-dependent manner. NETs induced exocytosis of granules, the production of reactive oxygen species (ROS) by the NADPH oxidase NOX2, NOX2-dependent NET formation, increased the phagocytosis and killing of microbial pathogens. Furthermore, NETs induced the secretion of the proinflammatory chemokine IL-8 and the B-cell-activating cytokine BAFF. We could show that the NET-induced activation of neutrophils occurs by pathways that involve the phosphorylation of Akt, ERK1/2 and p38. Taken together our results provide further insights into the proinflammatory role of NETs by activating neutrophil effector function and further supports the view that NETs can amplify inflammatory events. On the one hand the amplified functions enhance the antimicrobial defense. On the other hand, NET-amplified neutrophil functions can be involved in the pathophysiology of NET-associated diseases. In addition, NETs can connect the innate and adaptive immune system by inducing the secretion of the B-cell-activating cytokine BAFF. [ABSTRACT FROM AUTHOR]

Published

2021

29. Differential Impacts on Host Transcription by ROP and GRA Effectors from the Intracellular Parasite Toxoplasma gondii

Author

Suchita Rastogi, Yuan Xue, Stephen R. Quake, and John C. Boothroyd

Subjects

Toxoplasma, effector functions, host-parasite relationship, parasitology, single-cell RNA sequencing, Microbiology, QR1-502

Abstract

ABSTRACT The intracellular parasite Toxoplasma gondii employs a vast array of effector proteins from the rhoptry and dense granule organelles to modulate host cell biology; these effectors are known as ROPs and GRAs, respectively. To examine the individual impacts of ROPs and GRAs on host gene expression, we developed a robust, novel protocol to enrich for ultrapure populations of a naturally occurring and reproducible population of host cells called uninfected-injected (U-I) cells, which Toxoplasma injects with ROPs but subsequently fails to invade. We then performed single-cell transcriptomic analysis at 1 to 3 h postinfection on U-I cells (as well as on uninfected and infected controls) arising from infection with either wild-type parasites or parasites lacking the MYR1 protein, which is required for soluble GRAs to cross the parasitophorous vacuole membrane (PVM) and reach the host cell cytosol. Based on comparisons of infected and U-I cells, the host’s earliest response to infection appears to be driven primarily by the injected ROPs, which appear to induce immune and cellular stress pathways. These ROP-dependent proinflammatory signatures appear to be counteracted by at least some of the MYR1-dependent GRAs and may be enhanced by the MYR-independent GRAs (which are found embedded within the PVM). Finally, signatures detected in uninfected bystander cells from the infected monolayers suggest that MYR1-dependent paracrine effects also counteract inflammatory ROP-dependent processes. IMPORTANCE This work performs transcriptomic analysis of U-I cells, captures the earliest stage of a host cell’s interaction with Toxoplasma gondii, and dissects the effects of individual classes of parasite effectors on host cell biology.

Published

2020

30. In Vitro Characterization of Protein Effector Export in the Bradyzoite Stage of Toxoplasma gondii

Author

Joshua Mayoral, Peter Shamamian, and Louis M. Weiss

Subjects

GRA proteins, TgIST, Toxoplasma gondii, bradyzoite, effector functions, interferon gamma, Microbiology, QR1-502

Abstract

ABSTRACT The ubiquitous parasite Toxoplasma gondii exhibits an impressive ability to maintain chronic infection of its host for prolonged periods. Despite this, little is known regarding whether and how T. gondii bradyzoites, a quasi-dormant life stage residing within intracellular cysts, manipulate the host cell to maintain persistent infection. A previous proteomic study of the cyst wall, an amorphous layer of proteins that forms underneath the cyst membrane, identified MYR1 as a putative cyst wall protein in vitro. Because MYR1 is known to be involved in the translocation of parasite-derived effector proteins into the host cell, we sought to determine whether parasites transitioning toward the bradyzoite life stage retain the capacity to translocate proteins via this pathway. By epitope tagging the endogenous loci of four known effectors that translocate from the parasitophorous vacuole into the host cell nucleus, we show, by immunofluorescence assays, that most effectors accumulate in the host nucleus at early but not late time points after infection, during the tachyzoite-to-bradyzoite transition and when parasites further along the bradyzoite differentiation continuum invade a new host cell. We demonstrate that the suppression of interferon gamma signaling, which was previously shown to be mediated by the effector TgIST, also occurs in the context of prolonged infection with bradyzoites and that TgIST export is a process that occurs beyond the early stages of host cell infection. These findings have important implications regarding how this highly successful parasite maintains persistent infection of its host. IMPORTANCE Toxoplasma bradyzoites persist within tissue cysts and are refractory to current treatments, serving as a reservoir for acute complications in settings of compromised immunity. Much remains to be understood regarding how this life stage successfully establishes and maintains persistent infection. In this study, we investigated whether the export of parasite effector proteins into the host cell occurs during the development of in vitro tissue cysts. We quantified the presence of four previously described effectors in host cell nuclei at different time points after bradyzoite differentiation and found that they accumulated largely during the early stages of infection. Despite a decline in nuclear accumulation, we found that one of these effectors still mediated its function after prolonged infection with bradyzoites, and we provide evidence that this effector is exported beyond early infection stages. These findings suggest that effector export from within developing tissue cysts provides one potential mechanism by which this parasite achieves chronic infection.

Published

2020

31. Isotype selection for antibody‐based cancer therapy.

Author

Vukovic, N., Elsas, A., Verbeek, J. S., and Zaiss, D. M. W.

Subjects

*CANCER treatment, *CELL receptors, *FC receptors, *LYSIS, *MONOCLONAL antibodies

Abstract

Summary: The clinical application of monoclonal antibodies (mAbs) has revolutionized the field of cancer therapy, as it has enabled the successful treatment of previously untreatable types of cancer. Different mechanisms play a role in the anti‐tumour effect of mAbs. These include blocking of tumour‐specific growth factor receptors or of immune modulatory molecules as well as complement and cell‐mediated tumour cell lysis. Thus, for many mAbs, Fc‐mediated effector functions critically contribute to the efficacy of treatment. As immunoglobulin (Ig) isotypes differ in their ability to bind to Fc receptors on immune cells as well as in their ability to activate complement, they differ in the immune responses they activate. Therefore, the choice of antibody isotype for therapeutic mAbs is dictated by its intended mechanism of action. Considering that clinical efficacy of many mAbs is currently achieved only in subsets of patients, optimal isotype selection and Fc optimization during antibody development may represent an important step towards improved patient outcome. Here, we discuss the current knowledge of the therapeutic effector functions of different isotypes and Fc‐engineering strategies to improve mAbs application. [ABSTRACT FROM AUTHOR]

Published

2021

32. Neutrophil-derived granule cargoes: paving the way for tumor growth and progression.

Author

Rawat, Kavita, Syeda, Saima, and Shrivastava, Anju

Abstract

Neutrophils are the key cells of our innate immune system mediating host defense via a range of effector functions including phagocytosis, degranulation, and NETosis. For this, they employ an arsenal of anti-microbial cargoes packed in their readily mobilizable granule subsets. Notably, the release of granule content is tightly regulated; however, under certain circumstances, their unregulated release can aggravate tissue damage and could be detrimental to the host. Several constituents of neutrophil granules have also been associated with various inflammatory diseases including cancer. In cancer setting, their excessive release may modulate tissue microenvironment which ultimately leads the way for tumor initiation, growth and metastasis. Neutrophils actively infiltrate within tumor tissues, wherein they show diverse phenotypic and functional heterogeneity. While most studies are focused at understanding the phenotypic heterogeneity of neutrophils, their functional heterogeneity, much of which is likely orchestrated by their granule cargoes, is beginning to emerge. Therefore, a better understanding of neutrophil granules and their cargoes will not only shed light on their diverse role in cancer but will also reveal them as novel therapeutic targets. This review provides an overview on existing knowledge of neutrophil granules and detailed insight into the pathological relevance of their cargoes in cancer. In addition, we also discuss the therapeutic approach for targeting neutrophils or their microenvironment in disease setting that will pave the way forward for future research. [ABSTRACT FROM AUTHOR]

Published

2021

33. Quantifying the contribution of Fc-mediated effector functions to the antiviral activity of anti-HIV-1 IgG1 antibodies in vivo.

Author

Wang, Pengfei, Gajjar, Mili R., Yu, Jian, Padte, Neal N., Gettie, Agegnehu, Blanchard, James L., Russell-Lodrigue, Kasi, Liao, Laura E., Perelson, Alan S., Huang, Yaoxing, and Ho, David D.

Subjects

*IMMUNOGLOBULINS, *VIRUS diseases, *RHESUS monkeys, *INFECTION control, *VIRAL load

Abstract

In combating viral infections, the Fab portion of an antibody could mediate virus neutralization, whereas Fc engagement of Fc-Y receptors (FcYRs) could mediate an array of effector functions. Evidence abounds that effector functions are important in controlling infections by influenza, Ebola, or HIV-1 in animal models. However, the relative contribution of virus neutralization versus effector functions to the overall antiviral activity of an antibody remains unknown. To address this fundamental question in immunology, we utilized our knowledge of HIV-1 dynamics to compare the kinetics of the viral load decline (ΔVL) in infected animals given a wild-type (WT) anti–HIV-1 immunoglobulin G1 (IgG1) versus those given a Fc- Null variant of the same antibody. In three independent experiments in HIV-1–infected humanized mice and one pivotal experiment in simian–human immunodeficiency virus (SHIV)-infected rhesus macaques, an earlier and sharper decline in viral load was consistently detected for the WT antibody. Quantifications of the observed differences indicate that Fc-mediated effector functions accounted for 25–45% of the total antiviral activity in these separate experiments. In this study, Fc-mediated effector functions have been quantified in vivo relative to the contribution of virus neutralization mediated by the Fab. [ABSTRACT FROM AUTHOR]

Published

2020

34. Monocyte Gene and Molecular Expression Profiles Suggest Distinct Effector and Regulatory Functions in Beninese HIV Highly Exposed Seronegative Female Commercial Sex Workers

Author

Laurence Blondin-Ladrie, Lyvia Fourcade, Alessandro Modica, Matheus Aranguren, Nicolas de Montigny, Annie-Claude Labbé, Michel Alary, Fernand Guédou, Johanne Poudrier, and Michel Roger

Subjects

HIV, resistance, highly exposed seronegative (HESN), commercial sex workers, monocytes, effector functions, Microbiology, QR1-502

Abstract

We have previously reported that the female genital tract (FGT) of Beninese HIV highly-exposed seronegative (HESN) commercial sex workers (CSWs), presented elevated frequencies of a myeloid HLA-DR+CD14+CD11c+ population presenting “tolerogenic” monocyte derived dendritic cells (MoDC) features. In order to assess whether a differential profile of monocytes may be involved in the generation of these genital MoDCs, we have herein characterized the blood monocyte compartment of Beninese HESNs (HIV-uninfected ≥ 10 years CSWs) and relevant controls (HIV-uninfected 2.5–5 years CSWs herein termed “early HESNs”), HIV-infected CSWs, and low-risk HIV-uninfected women from the general population. Transcriptomic analyses by RNA-Seq of total sorted blood monocytes demonstrate that in comparison to the control groups, HESNs present increased expression levels of FCGR2C, FCAR, ITGAX, ITGAM, CR2, CD68, and CD163 genes, associated with effector functions. Moreover, we found increased expression levels of genes associated with protection/control against SHIV/HIV such as CCL3, CCL4, CCL5, BHLHE40, and TNFSF13, as well as with immune regulation such as IL-10, Ahr, CD83, and the orphan nuclear receptor (NR)4A1, NR4A2, and NR4A3. Through multicolor flow cytometry analyses, we noticed that the frequencies of intermediate and non-classical monocyte populations tended to be elevated in the blood of HESNs, and exhibited increased expression levels of effector CD16, CD11c, CD11b, as well as regulatory HLA-G, IL-10, and IFN-α markers when compared to HIV-uninfected women and/or HIV-infected CSWs. This profile is compatible with that previously reported in the FGT of HESNs, and likely confers an enormous advantage in their resistance to HIV infection.

Published

2022

35. Respirasome assembly in Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

1D-BNE showing OXPHOS complexes I to IV (CI-CIV) and SCs. Western blot analysis was performed using antibodies against CI (NDUFA9), CIII (Core 2), CIV (COX5A), and CV (ATP5A). Asterisks (*) indicate lower molecular weight SC. Loading control, CII subunit SDHA.

Published

2023

36. CI activity in Ndufs4−/− as assessed by IGA [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

Native gels were incubated with NADH (as a substrate), and nitro blue tetrazolium (NBT, as the electron acceptor). CI activity is shown in purple.

Published

2023

37. Primer sequences [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

Increasing evidence demonstrate that the electron transfer chain plays a critical role in controlling the effector functions of macrophages. In this work, we have generated a Ndufs4−/− murine macrophage cell lines. The Ndufs4 gene, which encodes a supernumerary subunit of complex I, is a mutational hotspot in Leigh syndrome patients. Ndufs4−/− macrophages showed decreased complex I activity, altered complex I assembly, and lower levels of maximal respiration and ATP production. These mitochondrial respiration alterations were associated with a shift towards a pro-inflammatory cytokine profile after lipopolysaccharide challenge and improved ability to phagocytose Gram-negative bacteria.

Published

2023

38. Cytokine profile and phagocytic capacity of Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

(A, B) Parental (Par), and Ndufs4−/− RAW 264.7 cells were left untreated or treated with LPS (100 ng/ml). Supernatants were collected at 8 hours for measurement of cytokine concentrations by ELISA (A). Cells were collected at 4 hours for quantification of cytokine transcripts using real-time PCR (expressed as fold increases versus untreated parental cells) (B). (C) Representative flow cytometry plots (left) showing phagocytosis of FITC labeled heat killed E. coli (HKEC) and bar graph representing % of fluorescent cells and the MFI values (right). Ctrl, control. Ns, not significant; *, P <0.05; **, P <0.01; ***, P<0.005; ****, P<0.001. Each point represents a biological replicate. In all experiments, 4 to 5 different Ndufs4−/− clones were used. Data are shown as the mean ± SEM.

Published

2023

39. S1 Raw images [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

Increasing evidence demonstrate that the electron transfer chain plays a critical role in controlling the effector functions of macrophages. In this work, we have generated a Ndufs4−/− murine macrophage cell lines. The Ndufs4 gene, which encodes a supernumerary subunit of complex I, is a mutational hotspot in Leigh syndrome patients. Ndufs4−/− macrophages showed decreased complex I activity, altered complex I assembly, and lower levels of maximal respiration and ATP production. These mitochondrial respiration alterations were associated with a shift towards a pro-inflammatory cytokine profile after lipopolysaccharide challenge and improved ability to phagocytose Gram-negative bacteria.

Published

2023

40. NAD/NADH ratio in Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

The NAD/NADH ratio was measured through colorimetric detection in deproteinized cell extracts from parental (Par) and Ndufs4−/− RAW 264.7 cells. *, P <0.05; **, P <0.01; ***, P<0.005; ****, P<0.001. Each point represents a biological replicate. Data are shown as the mean ± SEM.

Published

2023

41. Detection of CI subunits in Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

Left panel, Western blot for NDUFV1 (N module) and NDUFA9 (Q module). ATP5B and Coomassie staining were used as loading controls. Right panel, schematic representation of CI. The N module contains an NADH oxidation site, while the Q module contains a ubiquinone reduction site. P module is involved in proton-pumping activity. The positions of NDUFV1 and NDUFA9 are indicated. IMM, inner mitochondrial membrane; IMS, intermembrane space.

Published

2023

42. Role of Ndufs4 in the proliferation of macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, Marí, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, Marí

Abstract

Parental and Ndufs4−/− RAW 264.7 cells (1,000) were plated on 96-well plates. The number of viable cells was determined at the indicated time points. Each point represents a biological replicate. Data are shown as the mean ± SD.

Published

2023

43. Role of Ndufs4 in the proliferation of macrophages in galactose media [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

Parental and Ndufs4−/− RAW 264.7 cells (40,000) were plated on 6-well plates. The cells were cultured in media containing galactose in the complete absence of glucose. The number of viable cells was determined at the indicated time points. Each point represents a biological replicate. Data are shown as the mean ± SD.

Published

2023

44. CI activity in Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

The data shown in Fig 2A were reanalyzed and CI activity is shown as CI/CII (left panel) and CI/CIV (right panel). *, P <0.05; **, P <0.01; ***, P<0.005; ****, P<0.001. Each point represents a biological replicate. Data are shown as the mean ± SEM.

Published

2023

45. mitoROS levels and MMP in Ndufs4−/− macrophages [Dataset]

Author

Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, Simarro-Grande, María, Serrano-Lorenzo, Pablo, Gobelli, Dino, Garrido-Moraga, Rocío, Esteban-Amo, María J., López-López, José R., Orduña, Antonio, Fuente, Miguel A. de la, Martín, Miguel Ángel, and Simarro-Grande, María

Abstract

(A) Representative flow cytometry histograms of MitoSOX staining (left) and graph showing relative mitoROS levels (right). (B) Representative flow cytometry histograms (left) of MitoTracker Red CMXRos staining (for MMP) and MitoTracker Green staining (for total mitochondrial mass) and graph showing the ratio of MMP over mitochondrial mass to more accurately determine the potential differences per unit of mitochondrial mass (right). *, P <0.05; **, P <0.01; ***, P<0.005; ****, P<0.001. Each point represents a biological replicate. Data are shown as the mean ± SEM.

Published

2023

46. Engineered Fc-glycosylation switch to eliminate antibody effector function

Author

Qun Zhou, Julie Jaworski, Yanfeng Zhou, Delphine Valente, Joanne Cotton, Denise Honey, Ekaterina Boudanova, Jochen Beninga, Ercole Rao, Ronnie Wei, Christine Mauriac, Clark Pan, Anna Park, and Huawei Qiu

Subjects

Effector functions, silencing, antibody, glycosylation switch, Fc engineering, Therapeutics. Pharmacology, RM1-950, Immunologic diseases. Allergy, RC581-607

Abstract

Antibodies mediate effector functions through Fcγ receptor (FcγR) interactions and complement activation, causing cytokine release, degranulation, phagocytosis, and cell death. They are often undesired for development of therapeutic antibodies where only antigen binding or neutralization would be ideal. Effector elimination has been successful with extensive mutagenesis, but these approaches can potentially lead to manufacturability and immunogenicity issues. By switching the native glycosylation site from position 297 to 298, we created alternative antibody glycosylation variants in the receptor interaction interface as a novel strategy to eliminate the effector functions. The engineered glycosylation site at Asn298 was confirmed by SDS-PAGE, mass spectrometry, and X-ray crystallography (PDB code 6X3I). The lead NNAS mutant (S298N/T299A/Y300S) shows no detectable binding to mouse or human FcγRs by surface plasmon resonance analyses. The effector functions of the mutant are completely eliminated when measured in antibody-dependent cell-meditated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) assays. In vivo, the NNAS mutant made on an antibody against a human lymphocyte antigen does not deplete T cells or B cells in transgenic mice, in contrast to wild-type antibody. Structural study confirms the successful glycosylation switch to the engineered Asn298 site. The engineered glycosylation would clash with approaching FcγRs based on reported Fc-FcγR co-crystal structures. In addition, the NNAS mutants of multiple antibodies retain binding to antigens and neonatal Fc receptor, exhibit comparable purification yields and thermal stability, and display normal circulation half-life in mice and non-human primate. Our work provides a novel approach for generating therapeutic antibodies devoid of any ADCC and CDC activities with potentially lower immunogenicity.

Published

2020

47. Selective Engagement of FcγRIV by a M2e-Specific Single Domain Antibody Construct Protects Against Influenza A Virus Infection

Author

Dorien De Vlieger, Katja Hoffmann, Inge Van Molle, Wim Nerinckx, Lien Van Hoecke, Marlies Ballegeer, Sarah Creytens, Han Remaut, Hartmut Hengel, Bert Schepens, and Xavier Saelens

Subjects

influenza, matrix protein 2 ectodomain, single domain antibody, Fcγ receptor, effector functions, Immunologic diseases. Allergy, RC581-607

Abstract

Lower respiratory tract infections, such as infections caused by influenza A viruses, are a constant threat for public health. Antivirals are indispensable to control disease caused by epidemic as well as pandemic influenza A. We developed a novel anti-influenza A virus approach based on an engineered single-domain antibody (VHH) construct that can selectively recruit innate immune cells to the sites of virus replication. This protective construct comprises two VHHs. One VHH binds with nanomolar affinity to the conserved influenza A matrix protein 2 (M2) ectodomain (M2e). Co-crystal structure analysis revealed that the complementarity determining regions 2 and 3 of this VHH embrace M2e. The second selected VHH specifically binds to the mouse Fcγ Receptor IV (FcγRIV) and was genetically fused to the M2e-specific VHH, which resulted in a bi-specific VHH-based construct that could be efficiently expressed in Pichia pastoris. In the presence of M2 expressing or influenza A virus-infected target cells, this single domain antibody construct selectively activated the mouse FcγRIV. Moreover, intranasal delivery of this bispecific FcγRIV-engaging VHH construct protected wild type but not FcγRIV−/− mice against challenge with an H3N2 influenza virus. These results provide proof of concept that VHHs directed against a surface exposed viral antigen can be readily armed with effector functions that trigger protective antiviral activity beyond direct virus neutralization.

Published

2019

48. Brucella abortus Infection of Placental Trophoblasts Triggers Endoplasmic Reticulum Stress-Mediated Cell Death and Fetal Loss via Type IV Secretion System-Dependent Activation of CHOP

Author

Mariana X. Byndloss, April Y. Tsai, Gregory T. Walker, Cheryl N. Miller, Briana M. Young, Bevin C. English, Núbia Seyffert, Tobias Kerrinnes, Maarten F. de Jong, Vidya L. Atluri, Maria G. Winter, Jean Celli, and Renée M. Tsolis

Subjects

Brucella, type IV secretion, effector functions, endoplasmic reticulum, placenta, trophoblast, Microbiology, QR1-502

Abstract

ABSTRACT Subversion of endoplasmic reticulum (ER) function is a feature shared by multiple intracellular bacteria and viruses, and in many cases this disruption of cellular function activates pathways of the unfolded protein response (UPR). In the case of infection with Brucella abortus, the etiologic agent of brucellosis, the unfolded protein response in the infected placenta contributes to placentitis and abortion, leading to pathogen transmission. Here we show that B. abortus infection of pregnant mice led to death of infected placental trophoblasts in a manner that depended on the VirB type IV secretion system (T4SS) and its effector VceC. The trophoblast death program required the ER stress-induced transcription factor CHOP. While NOD1/NOD2 expression in macrophages contributed to ER stress-induced inflammation, these receptors did not play a role in trophoblast death. Both placentitis and abortion were independent of apoptosis-associated Speck-like protein containing a caspase activation and recruitment domain (ASC). These studies show that B. abortus uses its T4SS to induce cell-type-specific responses to ER stress in trophoblasts that trigger placental inflammation and abortion. Our results suggest further that in B. abortus the T4SS and its effectors are under selection as bacterial transmission factors. IMPORTANCE Brucella abortus infects the placenta of pregnant cows, where it replicates to high levels and triggers abortion of the calf. The aborted material is highly infectious and transmits infection to both cows and humans, but very little is known about how B. abortus causes abortion. By studying this infection in pregnant mice, we discovered that B. abortus kills trophoblasts, which are important cells for maintaining pregnancy. This killing required an injected bacterial protein (VceC) that triggered an endoplasmic reticulum (ER) stress response in the trophoblast. By inhibiting ER stress or infecting mice that lack CHOP, a protein induced by ER stress, we could prevent death of trophoblasts, reduce inflammation, and increase the viability of the pups. Our results suggest that B. abortus injects VceC into placental trophoblasts to promote its transmission by abortion.

Published

2019

49. Interaction of the Ankyrin H Core Effector of Legionella with the Host LARP7 Component of the 7SK snRNP Complex

Author

Juanita Von Dwingelo, Ivy Yeuk Wah Chung, Christopher T. Price, Lei Li, Snake Jones, Miroslaw Cygler, and Yousef Abu Kwaik

Subjects

AnkH, Dot/Icm type IVB secretion system, LARP7, Legionella pneumophila, effector functions, transcriptional regulation, Microbiology, QR1-502

Abstract

ABSTRACT Species of the Legionella genus encode at least 18,000 effector proteins that are translocated through the Dot/Icm type IVB translocation system into macrophages and protist hosts to enable intracellular growth. Eight effectors, including ankyrin H (AnkH), are common to all Legionella species. The AnkH effector is also present in Coxiella and Rickettsiella. To date, no pathogenic effectors have ever been described that directly interfere with host cell transcription. We determined that the host nuclear protein La-related protein 7 (LARP7), which is a component of the 7SK small nuclear ribonucleoprotein (snRNP) complex, interacts with AnkH in the host cell nucleus. The AnkH-LARP7 interaction partially impedes interactions of the 7SK snRNP components with LARP7, interfering with transcriptional elongation by polymerase (Pol) II. Consistent with that, our data show AnkH-dependent global reprogramming of transcription of macrophages infected by Legionella pneumophila. The crystal structure of AnkH shows that it contains four N-terminal ankyrin repeats, followed by a cysteine protease-like domain and an α-helical C-terminal domain. A substitution within the β-hairpin loop of the third ankyrin repeat results in diminishment of LARP7-AnkH interactions and phenocopies the ankH null mutant defect in intracellular growth. LARP7 knockdown partially suppresses intracellular proliferation of wild-type (WT) bacteria and increases the severity of the defect of the ΔankH mutant, indicating a role for LARP7 in permissiveness of host cells to intracellular bacterial infection. We conclude that the AnkH-LARP7 interaction impedes interaction of LARP7 with 7SK snRNP, which would block transcriptional elongation by Pol II, leading to host global transcriptional reprogramming and permissiveness to L. pneumophila. IMPORTANCE For intracellular pathogens to thrive in host cells, an environment that supports survival and replication needs to be established. L. pneumophila accomplishes this through the activity of the ∼330 effector proteins that are injected into host cells during infection. Effector functions range from hijacking host trafficking pathways to altering host cell machinery, resulting in altered cell biology and innate immunity. One such pathway is the host protein synthesis pathway. Five L. pneumophila effectors have been identified that alter host cell translation, and 2 effectors have been identified that indirectly affect host cell transcription. No pathogenic effectors have been described that directly interfere with host cell transcription. Here we show a direct interaction of the AnkH effector with a host cell transcription complex involved in transcriptional elongation. We identify a novel process by which AnkH interferes with host transcriptional elongation through interference with formation of a functional complex and show that this interference is required for pathogen proliferation.

Published

2019

50. Screening Mycobacterium tuberculosis Secreted Proteins Identifies Mpt64 as a Eukaryotic Membrane-Binding Bacterial Effector

Author

Chelsea E. Stamm, Breanna L. Pasko, Sujittra Chaisavaneeyakorn, Luis H. Franco, Vidhya R. Nair, Bethany A. Weigele, Neal M. Alto, and Michael U. Shiloh

Subjects

Mycobacterium tuberculosis, effector functions, pathogenesis, Microbiology, QR1-502

Abstract

ABSTRACT Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis, is one of the most successful human pathogens. One reason for its success is that Mtb can reside within host macrophages, a cell type that normally functions to phagocytose and destroy infectious bacteria. However, Mtb is able to evade macrophage defenses in order to survive for prolonged periods of time. Many intracellular pathogens secrete virulence factors targeting host membranes and organelles to remodel their intracellular environmental niche. We hypothesized that Mtb secreted proteins that target host membranes are vital for Mtb to adapt to and manipulate the host environment for survival. Thus, we characterized 200 secreted proteins from Mtb for their ability to associate with eukaryotic membranes using a unique temperature-sensitive yeast screen and to manipulate host trafficking pathways using a modified inducible secretion screen. We identified five Mtb secreted proteins that both associated with eukaryotic membranes and altered the host secretory pathway. One of these secreted proteins, Mpt64, localized to the endoplasmic reticulum during Mtb infection of murine and human macrophages and impaired the unfolded protein response in macrophages. These data highlight the importance of secreted proteins in Mtb pathogenesis and provide a basis for further investigation into their molecular mechanisms. IMPORTANCE Advances have been made to identify secreted proteins of Mycobacterium tuberculosis during animal infections. These data, combined with transposon screens identifying genes important for M. tuberculosis virulence, have generated a vast resource of potential M. tuberculosis virulence proteins. However, the function of many of these proteins in M. tuberculosis pathogenesis remains elusive. We have integrated three cell biological screens to characterize nearly 200 M. tuberculosis secreted proteins for eukaryotic membrane binding, host subcellular localization, and interactions with host vesicular trafficking. In addition, we observed the localization of one secreted protein, Mpt64, to the endoplasmic reticulum (ER) during M. tuberculosis infection of macrophages. Interestingly, although Mpt64 is exported by the Sec pathway, its delivery into host cells was dependent upon the action of the type VII secretion system. Finally, we observed that Mpt64 impairs the ER-mediated unfolded protein response in macrophages.

Published

2019