Your search keyword '"Chan KR"' showing total 22 results

1. Machine-learning-assisted high-throughput identification of potent and stable neutralizing antibodies against all four dengue virus serotypes.

Author

Natsrita, Piyatida, Charoenkwan, Phasit, Shoombuatong, Watshara, Mahalapbutr, Panupong, Faksri, Kiatichai, Chareonsudjai, Sorujsiri, Rungrotmongkol, Thanyada, and Pipattanaboon, Chonlatip

Subjects

DENGUE viruses, MACHINE learning, IMMUNOGLOBULINS, SEROTYPES, MOLECULAR docking, DYNAMIC simulation, COMPUTATIONAL neuroscience, FENITROTHION

Abstract

Several computational methods have been developed to identify neutralizing antibodies (NAbs) covering four dengue virus serotypes (DENV-1 to DENV-4); however, limitations of the dataset and the resulting performance remain. Here, we developed a new computational framework to predict potent and stable NAbs against DENV-1 to DENV-4 using only antibody (CDR-H3) and epitope sequences as input. Specifically, our proposed computational framework employed sequence-based ML and molecular dynamic simulation (MD) methods to achieve more accurate identification. First, we built a novel dataset (n = 1108) by compiling the interactions of CDR-H3 and epitope sequences with the half maximum inhibitory concentration (IC50) values, which represent neutralizing activities. Second, we achieved an accurately predictive ML model that showed high AUC values of 0.879 and 0.885 by tenfold cross-validation and independent tests, respectively. Finally, our computational framework could be applied to filter approximately 2.5 million unseen antibodies into two final candidates that showed strong and stable binding to all four serotypes. In addition, the most potent and stable candidate (1B3B9_V21) was evaluated for its development potential as a therapeutic agent by molecular docking and MD simulations. This study provides an antibody computational approach to facilitate the high-throughput identification of NAbs and accelerate the development of therapeutic antibodies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Nanobodies: a promising approach to treatment of viral diseases.

Author

Minatel, Vitória Meneghetti, Prudencio, Carlos Roberto, Barraviera, Benedito, and Ferreira Jr, Rui Seabra

Subjects

VIRUS diseases, IMMUNOGLOBULINS, RECOMBINANT antibodies, THERAPEUTICS, LLAMAS

Abstract

Since their discovery in the 1990s, heavy chain antibodies have garnered significant interest in the scientific community. These antibodies, found in camelids such as llamas and alpacas, exhibit distinct characteristics from conventional antibodies due to the absence of a light chain in their structure. Furthermore, they possess a single antigen-binding domain known as VHH or Nanobody (Nb). With a small size of approximately 15 kDa, these Nbs demonstrate improved characteristics compared to conventional antibodies, including greater physicochemical stability and enhanced biodistribution, enabling them to bind inaccessible epitopes more effectively. As a result, Nbs have found numerous applications in various medical and veterinary fields, particularly in diagnostics and therapeutics. Advances in biotechnology have made the production of recombinant antibodies feasible and compatible with large-scale manufacturing. Through the construction of immune phage libraries that display VHHs and subsequent selection through biopanning, it has become possible to isolate specific Nbs targeting pharmaceutical targets of interest, such as viruses. This review describes the processes involved in nanobody production, from hyperimmunization to purification, with the aim of their application in the pharmaceutical industry. [ABSTRACT FROM AUTHOR]

Published

2024

3. DENV-specific IgA contributes protective and non-pathologic function during antibody-dependent enhancement of DENV infection.

Author

Wegman, Adam D., Waldran, Mitchell J., Bahr, Lauren E., Lu, Joseph Q., Baxter, Kristen E., Thomas, Stephen J., and Waickman, Adam T.

Subjects

FC receptors, IMMUNOGLOBULIN A, IMMUNOGLOBULINS, IMMUNE complexes, IMMUNOGLOBULIN M, DENGUE viruses, PROGNOSIS, DISEASE risk factors

Abstract

Dengue represents a growing public health burden worldwide, accounting for approximately 100 million symptomatic cases and tens of thousands of fatalities yearly. Prior infection with one serotype of dengue virus (DENV) is the greatest known risk factor for severe disease upon secondary infection with a heterologous serotype, a risk which increases as serotypes co-circulate in endemic regions. This disease risk is thought to be mediated by IgG-isotype antibodies raised during a primary infection, which poorly neutralize heterologous DENV serotypes and instead opsonize virions for uptake by FcγR-bearing cells. This antibody-dependent enhancement (ADE) of infection leads to a larger proportion of susceptible cells infected, higher viremia and greater immunopathology. We have previously characterized the induction of a serum IgA response, along with the typical IgM and IgG responses, during dengue infection, and have shown that DENV-reactive IgA can neutralize DENV and competitively antagonize IgG-mediated ADE. Here, we evaluate the potential for IgA itself to cause ADE. We show that IgG, but not IgA, mediated ADE of infection in cells expressing both FcαR and FcγRs. IgG-mediated ADE stimulated significantly higher pro-inflammatory cytokine production by primary human macrophages, while IgA did not affect, or slightly suppressed, this production. Mechanistically, we show that DENV/IgG immune complexes bind susceptible cells significantly more efficiently than DENV/IgA complexes or virus alone. Finally, we show that over the course of primary dengue infection, the expression of FcγRI (CD64) increases during the period of acute viremia, while FcγRIIa (CD32) and FcαR (CD89) expression decreases, thereby further limiting the ability of IgA to facilitate ADE in the presence of DENV. Overall, these data illustrate the distinct protective role of IgA during ADE of dengue infection and highlight the potential therapeutic and prognostic value of DENV-specific IgA. Author summary: Dengue virus is a widespread and growing public health challenge, causing an estimated 100 million symptomatic infections every year. A unique feature of dengue is that sub-neutralizing levels of virion-specific antibodies generated by a prior infection can increase the severity of a subsequent infection through a mechanism known as antibody-dependent enhancement (ADE). This is thought to be mediated by IgG isotype antibodies that bind the virus and facilitate its uptake via antibody receptors expressed on immune cells. However, IgG is not the only antibody isotype elicited by dengue virus. Our group and others have described a significant IgA response following dengue infection, especially following primary infections and mild secondary infections. It is currently unclear how dengue virus specific IgA contributes to the anti-dengue immune response. Our results here demonstrate that IgA is incapable of facilitating ADE due to the low affinity of IgA for its cognate Fc receptor. This positions IgA as a potential biomarker of dengue severity and highlights the potential therapeutic value of DENV-specific IgA. [ABSTRACT FROM AUTHOR]

Published

2023

4. Presence of Japanese Encephalitis Virus Specific IgM and IgG Antibodies in Suspected Pediatric Febrile Illness Cases in South Western Saudi Arabia - A Transitory Experience.

Author

Al-Qahtani, Saleh M., Shati, Ayed A., Al-Moosa, Riyad, Asseri, Ali Alsuheel, Alqahtani, Youssef A., Muhyi, Asma, Al-Hakami, Ahmed M., Asiri, Ibrahim Al zaydani, and Chandramoorthy, Harish C.

Subjects

JAPANESE encephalitis viruses, VIRAL encephalitis, IMMUNOGLOBULIN G, JAPANESE B encephalitis, CEREBROSPINAL fluid, IMMUNOGLOBULINS

Abstract

Presence of Japanese encephalitis (JE) have not been documented in Saudi Arabia. There has been no systemic screening of JE in both vectors (Mosquito) and vulnerable populations. In the current study for the first time in southern Saudi Arabia, JE virus specific IgM and IgG antibodies were evaluated in blood samples from children attending emergency room, Abha Maternity and Children hospital. The results showed 20% seropositivity for JE with 19 (17.7%) IgM and 2(1.8%) IgG. There was no double positivity of IgM or IgG reported. The mean age for JE seropositive were 3 and 2 for male and female respectively. Convulsion was one single statistically significant clinical presentation that was observed in JE seropositive cases compared to the un-known viral etiology group. Paralysis and altered consciousness were only observed in JE seropositive individuals with majority of cases showing JE positivity from 1 to 3 days' date of illness compared to 1 day to 4 weeks among un-known viral etiology individuals. From the results it is evident that there is presence of JE among the community causing febrile illness and can be escalated to be screened in suspected viral meningitis and encephalitis cases. Further investigation including cerebrospinal fluid (CSF) and larger seroprevalence study can throw light on the incidence and prevalence of the JE in this part of the Kingdom. [ABSTRACT FROM AUTHOR]

Published

2023

5. Paired immunoglobulin-like receptor B is an entry receptor for mammalian orthoreovirus.

Author

Shang, Pengcheng, Simpson, Joshua D., Taylor, Gwen M., Sutherland, Danica M., Welsh, Olivia L., Aravamudhan, Pavithra, Natividade, Rita Dos Santos, Schwab, Kristina, Michel, Joshua J., Poholek, Amanda C., Wu, Yijen, Rajasundaram, Dhivyaa, Koehler, Melanie, Alsteens, David, and Dermody, Terence S.

Subjects

SINGLE molecules, CELIAC disease, BRAIN diseases, CRISPRS, ENDOCYTOSIS, KILLER cell receptors, IMMUNOGLOBULINS

Abstract

Mammalian orthoreovirus (reovirus) infects most mammals and is associated with celiac disease in humans. In mice, reovirus infects the intestine and disseminates systemically to cause serotype-specific patterns of disease in the brain. To identify receptors conferring reovirus serotype-dependent neuropathogenesis, we conducted a genome-wide CRISPRa screen and identified paired immunoglobulin-like receptor B (PirB) as a receptor candidate. Ectopic expression of PirB allowed reovirus binding and infection. PirB extracelluar D3D4 region is required for reovirus attachment and infectivity. Reovirus binds to PirB with nM affinity as determined by single molecule force spectroscopy. Efficient reovirus endocytosis requires PirB signaling motifs. In inoculated mice, PirB is required for maximal replication in the brain and full neuropathogenicity of neurotropic serotype 3 (T3) reovirus. In primary cortical neurons, PirB expression contributes to T3 reovirus infectivity. Thus, PirB is an entry receptor for reovirus and contributes to T3 reovirus replication and pathogenesis in the murine brain. Mammalian orthoreovirus causes serotype-specific disease in the brain. Here, Shang et al. identify and characterise the role of paired immunoglobulin-like receptor B in reovirus attachment, entry and infectivity in the brain. [ABSTRACT FROM AUTHOR]

Published

2023

6. B-cell epitope discovery: The first protein flexibility-based algorithm–Zika virus conserved epitope demonstration.

Author

Biner, Daniel W., Grosch, Jason S., and Ortoleva, Peter J.

Subjects

B cells, PEPTIDES, MOLECULAR dynamics, IMMUNOGLOBULINS, ZIKA virus, EPITOPES, PROTEINS

Abstract

Antibody-antigen interaction–at antigenic local environments called B-cell epitopes–is a prominent mechanism for neutralization of infection. Effective mimicry, and display, of B-cell epitopes is key to vaccine design. Here, a physical approach is evaluated for the discovery of epitopes which evolve slowly over closely related pathogens (conserved epitopes). The approach is 1) protein flexibility-based and 2) demonstrated with clinically relevant enveloped viruses, simulated via molecular dynamics. The approach is validated against 1) seven structurally characterized enveloped virus epitopes which evolved the least (out of thirty-nine enveloped virus-antibody structures), 2) two structurally characterized non-enveloped virus epitopes which evolved slowly (out of eight non-enveloped virus-antibody structures), and 3) eight preexisting epitope and peptide discovery algorithms. Rationale for a new benchmarking scheme is presented. A data-driven epitope clustering algorithm is introduced. The prediction of five Zika virus epitopes (for future exploration on recombinant vaccine technologies) is demonstrated. For the first time, protein flexibility is shown to outperform solvent accessible surface area as an epitope discovery metric. [ABSTRACT FROM AUTHOR]

Published

2023

7. Immune gene expression analysis indicates the potential of a self-amplifying Covid-19 mRNA vaccine.

Author

Ong, Eugenia Z., Yee, Jia Xin, Ooi, Justin S. G., Syenina, Ayesa, de Alwis, Ruklanthi, Chen, Shiwei, Sim, Jean X. Y., Kalimuddin, Shirin, Leong, Yan Shan, Chan, Yvonne F. Z., Sekulovich, Rose, Sullivan, Brian M., Lindert, Kelly, Sullivan, Sean B., Chivukula, Pad, Hughes, Steven G., Low, Jenny G., Ooi, Eng Eong, and Chan, Kuan Rong

Subjects

COVID-19 vaccines, MATERNALLY acquired immunity, GENE expression, VIRAL vaccines, IMMUNOGLOBULINS, VACCINE effectiveness, GENETIC vectors, ANTIBODY titer, T cells

Abstract

Remarkable potency has been demonstrated for mRNA vaccines in reducing the global burden of the ongoing COVID-19 pandemic. An alternative form of the mRNA vaccine is the self-amplifying mRNA (sa-mRNA) vaccine, which encodes an alphavirus replicase that self-amplifies the full-length mRNA and SARS-CoV-2 spike (S) transgene. However, early-phase clinical trials of sa-mRNA COVID-19 vaccine candidates have questioned the potential of this platform to develop potent vaccines. We examined the immune gene response to a candidate sa-mRNA vaccine against COVID-19, ARCT-021, and compared our findings to the host response to other forms of vaccines. In blood samples from healthy volunteers that participated in a phase I/II clinical trial, greater induction of transcripts involved in Toll-like receptor (TLR) signalling, antigen presentation and complement activation at 1 day post-vaccination was associated with higher anti-S antibody titers. Conversely, transcripts involved in T-cell maturation at day 7 post-vaccination informed the magnitude of eventual S-specific T-cell responses. The transcriptomic signature for ARCT-021 vaccination strongly correlated with live viral vector vaccines, adjuvanted vaccines and BNT162b2 1 day post-vaccination. Moreover, the ARCT-021 signature correlated with day 7 YF17D live-attenuated vaccine transcriptomic responses. Altogether, our findings show that sa-mRNA vaccination induces innate immune responses that are associated with the development of adaptive immunity from other forms of vaccines, supporting further development of this vaccine platform for clinical application. [ABSTRACT FROM AUTHOR]

Published

2022

8. Complexity of Viral Epitope Surfaces as Evasive Targets for Vaccines and Therapeutic Antibodies.

Author

Miller, Nathaniel L., Raman, Rahul, Clark, Thomas, and Sasisekharan, Ram

Subjects

QUATERNARY structure, IMMUNOGLOBULINS, VIRAL antigens, ANTIBODY formation, EPITOPES

Abstract

The dynamic interplay between virus and host plays out across many interacting surfaces as virus and host evolve continually in response to one another. In particular, epitope-paratope interactions (EPIs) between viral antigen and host antibodies drive much of this evolutionary race. In this review, we describe a series of recent studies examining aspects of epitope complexity that go beyond two interacting protein surfaces as EPIs are typically understood. To structure our discussion, we present a framework for understanding epitope complexity as a spectrum along a series of axes, focusing primarily on 1) epitope biochemical complexity (e.g., epitopes involving N-glycans) and 2) antigen conformational/dynamic complexity (e.g., epitopes with differential properties depending on antigen state or fold-axis). We highlight additional epitope complexity factors including epitope tertiary/quaternary structure, which contribute to epistatic relationships between epitope residues within- or adjacent-to a given epitope, as well as epitope overlap resulting from polyclonal antibody responses, which is relevant when assessing antigenic pressure against a given epitope. Finally, we discuss how these different forms of epitope complexity can limit EPI analyses and therapeutic antibody development, as well as recent efforts to overcome these limitations. [ABSTRACT FROM AUTHOR]

Published

2022

9. Sequential immunization induces strong and broad immunity against all four dengue virus serotypes.

Author

Hou, Jue, Shrivastava, Shubham, Loo, Hooi Linn, Wong, Lan Hiong, Ooi, Eng Eong, and Chen, Jianzhu

Subjects

IMMUNIZATION, DENGUE, VACCINE development, PLASMIDS, IMMUNOGLOBULINS

Abstract

A major challenge in dengue vaccine development is the need to induce immunity against four dengue (DENV) serotypes. Dengvaxia®, the only licensed dengue vaccine, consists of four variant dengue antigens, one for each serotype. Three doses of immunization with the tetravalent vaccine induced only suboptimal protection against DENV1 and DENV2. Furthermore, vaccination paradoxically and adversely primes dengue naïve subjects to more severe dengue. Here, we have tested whether sequential immunization induces stronger and broader immunity against four DENV serotypes than tetravalent-formulated immunization. Mice were immunized with four DNA plasmids, each encoding the pre-membrane and envelope from one DENV serotype, either sequentially or simultaneously. The sequential immunization induced significantly higher levels of interferon (IFN)γ- or tumor necrosis factor (TNF)α-expressing CD4+ and CD8+ T cells to both serotype-specific and conserved epitopes than tetravalent immunization. Moreover, sequential immunization induced higher levels of neutralizing antibodies to all four DENV serotypes than tetravalent vaccination. Consistently, sequential immunization resulted in more diversified immunoglobulin repertoire, including increased complementarity determining region 3 (CDR3) length and more robust germinal center reactions. These results show that sequential immunization offers a simple approach to potentially overcome the current challenges encountered with tetravalent-formulated dengue vaccines. [ABSTRACT FROM AUTHOR]

Published

2020

10. Antiviral and immunomodulatory effects of polyphenols on macrophages infected with dengue virus serotypes 2 and 3 enhanced or not with antibodies.

Author

Jasso-Miranda, Carolina, Herrera-Camacho, Irma, Flores-Mendoza, Lilian Karem, Dominguez, Fabiola, Vallejo-Ruiz, Veronica, Sanchez-Burgos, Gilma Guadalupe, Pando-Robles, Victoria, Santos-Lopez, Gerardo, and Reyes-Leyva, Julio

Subjects

ARBOVIRUS diseases, DENGUE viruses, IMMUNOGLOBULINS, MACROPHAGES

Abstract

Background: There is a lack of specific antiviral therapy against dengue virus (DENV) in current use. Therefore, a great proportion of dengue cases progress to severe clinical forms due to a complex interplay between virus and host immune response. It has been hypothesized that heterotypic non-neutralizing antibodies enhance DENV infection in phagocytic cells, and this induces an inflammatory response that is involved in the pathogenesis of severe dengue. Purpose: To identify the antiviral and immunomodulatory effects of polyphenols on dengue virus infection. Methods: Human U937-DC-SIGN macrophages were infected with DENV serotypes 2 or 3 in the presence or not of enhancing antibody 4G2. Viral titers and the secretion of tumor necrosis factor-alpha, IL-6, IL-10 and interferon-alpha were analyzed timely. Results: DENV infection alone induced high production of IL-6 and TNF-α, but in the presence of 4G2 antibody, viral titers and TNF-α secretion were potentiated. Based on anti-inflammatory antecedents, the polyphenols curcumin, fisetin, resveratrol, apigenin, quercetin and rutin were tested for antiviral and immunomodulatory properties. Only quercetin and fisetin inhibited DENV-2 and DENV-3 infection in the absence or presence of enhancing antibody (>90%, p<0.001); they also inhibited TNF-α and IL-6 secretion (p<0.001). Conclusion: Quercetin and fisetin down-regulate the production of proinflammatory cytokines induced by DENV infection enhanced by antibodies a mechanism involved in severe dengue. [ABSTRACT FROM AUTHOR]

Published

2019

11. Antibody-Dependent Cellular Phagocytosis in Antiviral Immune Responses.

Author

Tay, Matthew Zirui, Wiehe, Kevin, and Pollara, Justin

Subjects

PHAGOCYTOSIS, IMMUNE response, IMMUNOGLOBULINS, VIRION, FC receptors

Abstract

Antiviral activities of antibodies may either be dependent only on interactions between the antibody and cognate antigen, as in binding and neutralization of an infectious virion, or instead may require interactions between antibody–antigen immune complexes and immunoproteins or Fc receptor expressing immune effector cells. These Fc receptor-dependent antibody functions provide a direct link between the innate and adaptive immune systems by combining the potent antiviral activity of innate effector cells with the diversity and specificity of the adaptive humoral response. The Fc receptor-dependent function of antibody-dependent cellular phagocytosis (ADCP) provides mechanisms for clearance of virus and virus-infected cells, as well as for stimulation of downstream adaptive immune responses by facilitating antigen presentation, or by stimulating the secretion of inflammatory mediators. In this review, we discuss the properties of Fc receptors, antibodies, and effector cells that influence ADCP. We also provide and interpret evidence from studies that support a potential role for ADCP in either inhibiting or enhancing viral infection. Finally, we describe current approaches used to measure antiviral ADCP and discuss considerations for the translation of studies performed in animal models. We propose that additional investigation into the role of ADCP in protective viral responses, the specific virus epitopes targeted by ADCP antibodies, and the types of phagocytes and Fc receptors involved in ADCP at sites of virus infection will provide insight into strategies to successfully leverage this important immune response for improved antiviral immunity through rational vaccine design. [ABSTRACT FROM AUTHOR]

Published

2019

12. Asymmetric antiviral effects of ebolavirus antibodies targeting glycoprotein stem and glycan cap.

Author

Ilinykh, Philipp A., Santos, Rodrigo I., Gunn, Bronwyn M., Kuzmina, Natalia A., Shen, Xiaoli, Huang, Kai, Gilchuk, Pavlo, Flyak, Andrew I., Younan, Patrick, Alter, Galit, JrCrowe, James E., and Bukreyev, Alexander

Subjects

VIRAL envelope proteins, GLYCANS, PHAGOCYTOSIS, KILLER cells, ANTIBODY formation, IMMUNOGLOBULINS, FLUORESCENCE resonance energy transfer, MONOCLONAL antibodies

Abstract

Recent studies suggest that some monoclonal antibodies (mAbs) specific for ebolavirus glycoprotein (GP) can protect experimental animals against infections. Most mAbs isolated from ebolavirus survivors appeared to target the glycan cap or the stalk region of the viral GP, which is the envelope protein and the only antigen inducing virus-neutralizing antibody response. Some of the mAbs were demonstrated to be protective in vivo. Here, a panel of mAbs from four individual survivors of ebolavirus infection that target the glycan cap or stem region were selected for investigation of the mechanisms of their antiviral effect. Comparative characterization of the inhibiting effects on multiple steps of viral replication was performed, including attachment, post-attachment, entry, binding at low pH, post-cleavage neutralization of virions, viral trafficking to endosomes, cell-to-cell transmission, viral egress, and inhibition when added early at various time points post-infection. In addition, Fc-domain related properties were characterized, including activation and degranulation of NK cells, antibody-dependent cellular phagocytosis and glycan content. The two groups of mAbs (glycan cap versus stem) demonstrated very different profiles of activities suggesting usage of mAbs with different epitope specificity could coordinate inhibition of multiple steps of filovirus infection through Fab- and Fc-mediated mechanisms, and provide a reliable therapeutic approach. [ABSTRACT FROM AUTHOR]

Published

2018

13. Anti-Tumor Necrosis Factor α Therapeutics Differentially Affect Leishmania Infection of Human Macrophages.

Author

Arens, Katharina, Filippis, Christodoulos, Kleinfelder, Helen, Goetzee, Arthur, Reichmann, Gabriele, Crauwels, Peter, Waibler, Zoe, Bagola, Katrin, and Van Zandbergen, Ger

Subjects

TUMOR necrosis factors, LEISHMANIA, AUTOIMMUNE diseases, MACROPHAGES, IMMUNOGLOBULINS, THERAPEUTICS

Abstract

Tumor necrosis factor α (TNFα) drives the pathophysiology of human autoimmune diseases and consequently, neutralizing antibodies (Abs) or Ab-derived molecules directed against TNFα are essential therapeutics. As treatment with several TNFα blockers has been reported to entail a higher risk of infectious diseases such as leishmaniasis, we established an in vitro model based on Leishmania -infected human macrophages, co-cultured with autologous T-cells, for the analysis and comparison of anti-TNFα therapeutics. We demonstrate that neutralization of soluble TNFα (sTNFα) by the anti-TNFα Abs Humira®, Remicade®, and its biosimilar Remsima® negatively affects infection as treatment with these agents significantly reduces Leishmania -induced T-cell proliferation and increases the number of infected macrophages. By contrast, we show that blockade of sTNFα by Cimzia® does not affect T-cell proliferation and infection rates. Moreover, compared to Remicade®, treatment with Cimzia® does not impair the expression of cytolytic effector proteins in proliferating T-cells. Our data demonstrate that Cimzia® supports parasite control through its conjugated polyethylene glycol (PEG) moiety as PEGylation of Remicade® improves the clearance of intracellular Leishmania. This effect can be linked to complement activation, with levels of complement component C5a being increased upon treatment with Cimzia® or a PEGylated form of Remicade®. Taken together, we provide an in vitro model of human leishmaniasis that allows direct comparison of different anti-TNFα agents. Our results enhance the understanding of the efficacy and adverse effects of TNFα blockers and they contribute to evaluate anti-TNFα therapy for patients living in countries with a high prevalence of leishmaniasis. [ABSTRACT FROM AUTHOR]

Published

2018

14. Fcγ-receptor IIa-mediated Src Signaling Pathway is Essential for the Antibody-Dependent Enhancement of Ebola Virus Infection.

Author

Furuyama, Wakako, Marzi, Andrea, Carmody, Aaron B., Maruyama, Junki, Kuroda, Makoto, Miyamoto, Hiroko, Nanbo, Asuka, Manzoor, Rashid, Yoshida, Reiko, Igarashi, Manabu, Feldmann, Heinz, and Takada, Ayato

Subjects

SRC gene, ANTIBODY-dependent cell cytotoxicity, TREATMENT of Ebola virus diseases, CELLULAR signal transduction, IMMUNOGLOBULINS, FC receptors, PHAGOCYTOSIS

Abstract

Antibody-dependent enhancement (ADE) of Ebola virus (EBOV) infection has been demonstrated in vitro, raising concerns about the detrimental potential of some anti-EBOV antibodies. ADE has been described for many viruses and mostly depends on the cross-linking of virus-antibody complexes to cell surface Fc receptors, leading to enhanced infection. However, little is known about the molecular mechanisms underlying this phenomenon. Here we show that Fcγ-receptor IIa (FcγRIIa)-mediated intracellular signaling through Src family protein tyrosine kinases (PTKs) is required for ADE of EBOV infection. We found that deletion of the FcγRIIa cytoplasmic tail abolished EBOV ADE due to decreased virus uptake into cellular endosomes. Furthermore, EBOV ADE, but not non-ADE infection, was significantly reduced by inhibition of the Src family protein PTK pathway, which was also found to be important to promote phagocytosis/macropinocytosis for viral uptake into endosomes. We further confirmed a significant increase of the Src phosphorylation mediated by ADE. These data suggest that antibody-EBOV complexes bound to the cell surface FcγRIIa activate the Src signaling pathway that leads to enhanced viral entry into cells, providing a novel perspective for the general understanding of ADE of virus infection. [ABSTRACT FROM AUTHOR]

Published

2016

15. Surveillance of cell and tissue perturbation by receptors in the LRC.

Author

Trowsdale, John, Jones, Des C., Barrow, Alexander D., and Traherne, James A.

Subjects

LEUCOCYTES, BIOLOGICAL evolution, IMMUNOGLOBULINS, COMPARATIVE studies, PATHOGENIC microorganisms

Abstract

The human leukocyte receptor complex ( LRC) encompasses several sets of genes with a common evolutionary origin and which form a branch of the immunoglobulin superfamily (Ig SF). Comparisons of LRC genes both within and between species calls for a high degree of plasticity. The drive for this unprecedented level of variation is not known, but it relates in part to interaction of several LRC products with polymorphic human leukocyte antigen ( HLA) class I molecules. However, the range of other proposed ligands for LRC products indicates a dynamic set of receptors that have adapted to detect target molecules relating to numerous cellular pathways. Several receptors in the complex bind a molecular signature in collagenous ligands. Others detect a variety of motifs relating to pathogens in addition to cellular stress, attesting to the opportunistic versatility of LRC receptors. [ABSTRACT FROM AUTHOR]

Published

2015

16. The role of pre-existing cross-reactive antibodies in determining the efficacy of vaccination in humans: study protocol for a randomized controlled trial.

Author

Low, Jenny G., Wijaya, Limin, Li, Greg K. Y., Lim, Eleanor Y. L., Shum, Aland K. L., Yin-Bun Cheung, and Eng-Eong Ooi

Subjects

JAPANESE encephalitis viruses, VACCINATION, NEUTRALIZATION theory, NATURAL immunity, IMMUNOGLOBULINS

Abstract

Background: Epidemic viral diseases have become more prevalent.. Among the various strategies to prevent such epidemics, vaccination is the most cost-effective. However, populations that are immunized are typically already exposed to multiple previous vaccinations or natural infections. Studies from this and other laboratories have revealed that pre-existing dengue antibodies can either inhibit or enhance subsequent dengue infection depending on the pre-existing antibody levels. While cross-reactive antibody is potentially pathogenic in dengue, how it impacts immune response to vaccination is unclear. Aggregated at the site of vaccination and the respective draining lymph nodes are antigen-presenting and immune regulatory cells that express Fc receptors and play pivotal roles in determining the magnitude and polarity of the immune response. Vaccine uptake by these antigen-presenting cells may thus be either inhibited or enhanced when vaccines are opsonized with cross-reactive antibodies. Design: In view of the limited knowledge on how cross-reactive antibodies affect vaccination outcome, we propose a study that exploits the known cross reactivity between Japanese encephalitis (JE) virus antibody and yellow fever (YF) vaccine. We hypothesize that cross-reactive antibodies impact antibody response to YF at the point vaccination in a concentration-dependent manner by altering both vaccine uptake and the innate immune response by antigen presenting cells. We will structure an open-label clinical trial on sequential vaccination with JE and YF vaccines, with different time intervals between vaccinations. This would test immune response to YF vaccination in subjects with different titer of cross-reactive JE vaccine-derived antibodies. The clinical materials obtained in the trial will drive basic laboratory investigations directed at elucidating how heterologous antibody affect vaccination at the molecular level. YF neutralizing antibody titer will be measured using plaque reduction neutralization test against the vaccine strain YF17D. Innate immune response will be characterized genetically using either microarray or digital PCR (or both). The innate immune response will also be characterized at the protein and metabolite level using Luminex bead technology and lipidomic/metabolomic approaches. Discussion: This proposed study represents one of the first to examine the role of cross-reactive antibodies in modulating immune responses to vaccines, the findings of which may re-shape vaccination strategy. [ABSTRACT FROM AUTHOR]

Published

2015

17. Detection of Serotype-Specific Antibodies to the Four Dengue Viruses Using an Immune Complex Binding (ICB) ELISA.

Author

Emmerich, Petra, Mika, Angela, and Schmitz, Herbert

Subjects

DENGUE viruses, IMMUNE complexes, IMMUNOGLOBULINS, DENGUE, VIRAL antibodies

Abstract

Background: Dengue virus (DENV) infections are preferentially diagnosed by detection of specific IgM antibodies, DENV NS1 antigen assays or by amplification of viral RNA in serum samples of the patients. The type-specific immunity to the four worldwide circulating DENV serotypes can be determined by neutralization assays. An alternative to the complicated neutralization assays would be helpful to study the serotype-specific immune response in people in DENV hyperendemic areas but also in subjects upon DENV vaccination. Methods: In consecutive samples of patients with DENV-1- 4 infection type-specific antibodies were detected using an immune complex binding (ICB) ELISA. During incubation of serum samples and enzyme- labeled recombinant envelope domain III (EDIII) antigens immune complexes (ICs) are formed, which are simultaneously bound to a solid phase coated with an Fc–receptor (CD32). After a single washing procedure the bound labeled ICs can be determined. To further improve type-specific reactions high concentrations of competing heterologous unlabeled ED III proteins were added to the labeled antigens. Results: Follow-up serum samples of 64 patients with RT-PCR confirmed primary DENV-1, -2, -3 or -4 infections were tested against four enzyme-labeled recombinant DENV EDIII antigens. Antibodies to the EDIII antigens were found in 55 patients (sensitivity 86%). A complete agreement between the serotype detected by PCR in early samples and the serotype-specific antibody in later samples was found. Type-specific anti-EDIII antibodies were first detected 9–20 days after onset of the disease. In 21% of the samples collected from people in Vietnam secondary infections with antibodies to two serotypes could be identified. Conclusions: The data obtained with the ICB-ELISA show that after primary DENV infection the corresponding type-specific antibodies are detected in almost all samples collected at least two weeks after onset of the disease. The method will be of value to determine the distribution of the various type-specific anti–DENV antibodies in DENV endemic areas. Author Summary: Infections with four different dengue viruses are threatening 2.5 billion people in tropical countries. Since most antibodies to these four viruses are cross-reacting, a type-specific ELISA would be valuable to study the immune response to the circulating viruses in patients but also in healthy subjects in endemic counties. Therefore a novel DENV immune complex binding (ICB) ELISA was developed to detect serotype-specific antibodies to all four dengue virus serotypes in human serum samples. The tests use labeled recombinant EDIII antigens of the four DENV strains. Numerous samples of patients with RT-PCR confirmed dengue fever were assessed by the new method. In samples of 55 patients with primary dengue fever full agreement between the serotype detected by RT-PCR and the serotype-specific antibody based on the ICB ELISA was obtained. The type-specific antibodies were not observed before the second week of illness. Our data suggest that using the ICB ELISA in healthy adult subjects in an endemic region (Vietnam) both primary and secondary infections can be identified. The method may help to analyze the distribution of the four dengue viruses in the tropics. [ABSTRACT FROM AUTHOR]

Published

2013

18. Molecular Mechanisms Involved in Antibody-Dependent Enhancement of Dengue Virus Infection in Humans.

Author

Flipse, Jacky, Wilschut, Jan, and Smit, Jolanda M.

Subjects

IMMUNOGLOBULINS, DENGUE viruses, ARBOVIRUS diseases, IMMUNE response, VIRAL load, CELLULAR signal transduction

Abstract

Dengue is the most common arthropod-borne viral infection in humans with ~50 million cases annually worldwide. In recent decades, a steady increase in the number of severe dengue cases has been seen. Severe dengue disease is most often observed in individuals that have pre-existing immunity against heterotypic dengue subtypes and in infants with low levels of maternal dengue antibodies. The generally accepted hypothesis explaining the immunopathogenesis of severe dengue is called antibody-dependent enhancement of dengue infection. Here, circulating antibodies bind to the newly infecting virus but do not neutralize infection. Rather, these antibodies increase the infected cell mass and virus production. Additionally, antiviral responses are diminished allowing massive virus particle production early in infection. The large infected cell mass and the high viral load are prelude for severe disease development. In this review, we discuss what is known about the trafficking of dengue virus in its human host cells, and the signalling pathways activated after virus detection, both in the absence and presence of antibodies against the virus. This review summarizes work that aims to better understand the complex immunopathogenesis of severe dengue disease. [ABSTRACT FROM AUTHOR]

Published

2013

19. Anti‐chlamydia IgG and IgA are insufficient to prevent endometrial chlamydia infection in women, and increased anti‐chlamydia IgG is associated with enhanced risk for incident infection.

Author

Darville, Toni, Albritton, Hannah L., Zhong, Wujuan, Dong, Li, O'Connell, Catherine M., Poston, Taylor B., Quayle, Alison J., Goonetilleke, Nilu, Wiesenfeld, Harold C., Hillier, Sharon L., and Zheng, Xiaojing

Subjects

CHLAMYDIA infections, GENITALIA, CELL surface antigens, INFECTION, IMMUNOGLOBULINS

Abstract

Problem: Chlamydia infections in women can ascend to the upper genital tract, and repeated infections are common, placing women at risk for sequelae. The protective role of anti‐chlamydia antibodies to surface exposed antigens in ascending and incident infection is unclear. Method of study: A whole‐bacterial ELISA was used to quantify chlamydia‐specific IgG and IgA in serum and cervical secretions of 151 high‐risk women followed longitudinally. Correlations were determined between antibody and cervical burden, and causal mediation analysis investigated the effect of antibody on ascension. We examined the relationship of antibody to incident infection using the marginal Cox model. Results: Serum and cervical anti‐chlamydia IgG and cervical IgA levels correlated inversely with cervical burden. While lower burden was associated with reduced ascension, causal mediation analysis revealed that the indirect effects of antibody mediated through reductions in bacterial burden were insufficient to prevent ascension. Analysis of women uninfected at enrollment revealed that serum and cervical anti‐chlamydia IgG were associated with increased risk of incident infection; hazard ratio increased 3.6‐fold (95% CI, 1.3‐10.3), and 22.6‐fold (95% CI, 3.1‐165.2) with each unit of serum and cervical IgG, respectively. Conclusion: Although anti‐chlamydia IgG and IgA correlated with reduced cervical chlamydia burden, they failed to prevent ascension and increased levels of anti‐chlamydia IgG were associated with increased risk for incident infection. [ABSTRACT FROM AUTHOR]

Published

2019

20. A potent neutralizing antibody with therapeutic potential against all four serotypes of dengue virus.

Author

Xu, Meihui, Zuest, Roland, Velumani, Sumathy, Tukijan, Farhana, Toh, Ying Xiu, Appanna, Ramapraba, Tan, Ern Yu, Cerny, Daniela, MacAry, Paul, Wang, Cheng-I, and Fink, Katja

Subjects

IMMUNOGLOBULINS, DENGUE viruses, SEROTYPES, VIREMIA, IMMUNE complexes

Abstract

A therapy for dengue is still elusive. We describe the neutralizing and protective capacity of a dengue serotype-cross-reactive antibody isolated from the plasmablasts of a patient. Antibody SIgN-3C neutralized all four dengue virus serotypes at nano to picomolar concentrations and significantly decreased viremia of all serotypes in adult mice when given 2 days after infection. Moreover, mice were protected from pathology and death from a lethal dengue virus-2 infection. To avoid potential Fc-mediated uptake of immune complexes and ensuing enhanced infection, we introduced a LALA mutation in the Fc part. SIgN-3C-LALA was as efficient as the non-modified antibody in neutralizing dengue virus and in protecting mice while antibody-dependent enhancement was completely abrogated. The epitope of the antibody includes conserved amino acids in all three domains of the glycoprotein, which can explain its cross-reactivity. SIgN-3C-LALA neutralizes dengue virus both pre and post-attachment to host cells. These attributes likely contribute to the remarkable protective capacity of SIgN-3C. Dengue: A single vaccine candidate for all strains An antibody-vaccine candidate has been discovered that neutralizes and confers protection against all four strains of dengue virus. Katja Fink, of the Singapore Immunology Network and Nanyang Technological University, Singapore, describes this as the first time a highly neutralizing antibody has shown efficacy against all four strains. Fink's team, consisting of scientists from institutions across the country, tested the candidate (SIgN-3C-LALA) in both pre-exposure and post-exposure mouse models. The findings showed it reduced blood-virus levels, protected from lethal infection, and also offered improved safety—without compromising efficacy—the latter by way of intentional mutations to the antibody's structure. As the global cost of dengue treatment is as high as 9 billion US$ per year, further study is needed to evaluate the suitability of the antibody candidate for the treatment of dengue in humans. [ABSTRACT FROM AUTHOR]

Published

2017

21. Antibodies for Infectious Diseases

Author

James E. Crowe, Jr, Diana Boraschi, Rino Rappuoli, James E. Crowe, Jr, Diana Boraschi, and Rino Rappuoli

Subjects

Communicable diseases--Immunological aspects, Immunoglobulins

Abstract

State-of-the-art reviews covering major aspects of antibodies and intervention against infectious diseases The connection between antibodies and infectious diseases has spawned entire related fields of study. Antibodies for Infectious Diseases presents perspectives from leading research scientists and summarizes the amazing progress in this area into a single definitive source. Providing a broad survey of the most important aspects of the field of antibodies for infectious diseases, this book presents general features pertaining to structure, function, isotype, and the role of complement in antibody function examines the role of antibodies in antimicrobial immunity with specific targets details new methods for expression of monoclonal antibodies, in plants or by transfer of antibody genes for in vivo expression in treated subjects Antibodies for Infectious Diseases is a comprehensive reference for researchers, pharmaceutical developers, and health care professionals on the status of the development of antibody-based therapies for treating infectious diseases. It is also useful as supplemental reading for upper level life sciences students. If you are looking for online access to the latest clinical microbiology content, please visit www.wiley.com/learn/clinmicronow.

Published

2015

22. Antibody Fc : Linking Adaptive and Innate Immunity

Author

Margaret Ackerman, Falk Nimmerjahn, Margaret Ackerman, and Falk Nimmerjahn

Subjects

Natural immunity, Antibody diversity, Immunoglobulins

Abstract

Antibody Fc is the first single text to synthesize the literature on the mechanisms underlying the dramatic variability of antibodies to influence the immune response. The book demonstrates the importance of the Fc domain, including protective mechanisms, effector cell types, genetic data, and variability in Fc domain function. This volume is a critical single-source reference for researchers in vaccine discovery, immunologists, microbiologists, oncologists and protein engineers as well as graduate students in immunology and vaccinology. Antibodies represent the correlate of protection for numerous vaccines and are the most rapidly growing class of drugs, with applications ranging from cancer and infectious disease to autoimmunity. Researchers have long understood the variable domain of antibodies, which are responsible for antigen recognition, and can provide protection by blocking the function of their target antigen. However, recent developments in our understanding of the protection mediated by antibodies have highlighted the critical nature of the antibody constant, or Fc domain, in the biological activity of antibodies. The Fc domain allows antibodies to link the adaptive and innate immune systems, providing specificity to a wide range of innate effector cells. In addition, they provide a feedback loop to regulate the character of the immune response via interactions with B cells and antigen-presenting cells. - Clarifies the different mechanisms of IgG activity at the level of the different model systems used, including human genetic, mouse, and in vitro - Covers the role of antibodies in cancer, infectious disease, and autoimmunity and in the setting of monoclonal antibody therapy as well as naturally raised antibodies - Color illustrations enhance explanations of the immune system

Published

2013