Your search keyword '"Iara M. Backes"' showing total 6 results

1. Evidence for the Role of a Second Fc-Binding Receptor in Placental IgG Transfer in Nonhuman Primates

Author

Yvonne J. Rosenberg, Tracy Ordonez, Urjeet S. Khanwalkar, Philip Barnette, Shilpi Pandey, Iara M. Backes, Claire E. Otero, Benjamin S. Goldberg, Andrew R. Crowley, David A. Leib, Mariya B. Shapiro, Xiaoming Jiang, Lori A. Urban, Jonathan Lees, Ann J. Hessell, Sallie Permar, Nancy L. Haigwood, and Margaret E. Ackerman

Subjects

plant and mammalian antibodies, primates, mice, placental transfer, FcRn, FcγR, Microbiology, QR1-502

Abstract

ABSTRACT Transplacental transfer of maternal antibodies provides the fetus and newborn with passive protection against infectious diseases. While the role of the highly conserved neonatal Fc receptor (FcRn) in transfer of IgG in mammals is undisputed, recent reports have suggested that a second receptor may contribute to transport in humans. We report poor transfer efficiency of plant-expressed recombinant HIV-specific antibodies, including engineered variants with high FcRn affinity, following subcutaneous infusion into rhesus macaques close to parturition. Unexpectedly, unlike those derived from mammalian tissue culture, plant-derived antibodies were essentially unable to cross macaque placentas. This defect was associated with poor Fcγ receptor binding and altered Fc glycans and was not recapitulated in mice. These results suggest that maternal-fetal transfer of IgG across the three-layer primate placenta may require a second receptor and suggest a means of providing maternal antibody treatments during pregnancy while avoiding fetal harm. IMPORTANCE This study compared the ability of several human HIV envelope-directed monoclonal antibodies produced in plants with the same antibodies produced in mammalian cells for their ability to cross monkey and mouse placentas. We found that the two types of antibodies have comparable transfer efficiencies in mice, but they are differentially transferred across macaque placentas, consistent with a two-receptor IgG transport model in primates. Importantly, plant-produced monoclonal antibodies have excellent binding characteristics for human FcRn receptors, permitting desirable pharmacokinetics in humans. The lack of efficient transfer across the primate placenta suggests that therapeutic plant-based antibody treatments against autoimmune diseases and cancer could be provided to the mother while avoiding transfer and preventing harm to the fetus.

Published

2023

2. Monoclonal antibody therapy of herpes simplex virus: An opportunity to decrease congenital and perinatal infections

Author

Iara M. Backes, David A. Leib, and Margaret E. Ackerman

Subjects

IgG, herpes simplex virus (HSV) infection, monoclonal Ab, neonatal infection, effector function, Immunologic diseases. Allergy, RC581-607

Abstract

The fetal/neonatal period represents both a unique window of opportunity for interventions as well as vulnerability to a number of viral infections. While Herpesviruses such as herpes simplex virus (HSV) are highly prevalent and typically of little consequence among healthy adults, they are among the most consequential infections of early life. Despite treatment with antiviral drugs, neonatal HSV (nHSV) infections can still result in significant mortality and lifelong neurological morbidity. Fortunately, newborns in our pathogen-rich world inherit some of the protection provided by the maternal immune system in the form of transferred antibodies. Maternal seropositivity, resulting in placental transfer of antibodies capable of neutralizing virus and eliciting the diverse effector functions of the innate immune system are associated with dramatically decreased risk of nHSV. Given this clear epidemiological evidence of reduced risk of infection and its sequelae, we present what is known about the ability of monoclonal antibody therapies to treat or prevent HSV infection and explore how effective antibody-based interventions in conjunction with antiviral therapy might reduce early life mortality and long-term morbidity.

Published

2022

3. Maternal Antiviral Immunoglobulin Accumulates in Neural Tissue of Neonates To Prevent HSV Neurological Disease

Author

Yike Jiang, Chaya D. Patel, Richard Manivanh, Brian North, Iara M. Backes, David A. Posner, Francesca Gilli, Andrew R. Pachner, Lananh N. Nguyen, and David A. Leib

Subjects

herpes simplex virus, maternal antibody, neonatal infection, neuroimmunology, trigeminal ganglion, Microbiology, QR1-502

Abstract

ABSTRACT While antibody responses to neurovirulent pathogens are critical for clearance, the extent to which antibodies access the nervous system to ameliorate infection is poorly understood. In this study on herpes simplex virus 1 (HSV-1), we demonstrate that HSV-specific antibodies are present during HSV-1 latency in the nervous systems of both mice and humans. We show that antibody-secreting cells entered the trigeminal ganglion (TG), a key site of HSV infection, and persisted long after the establishment of latent infection. We also demonstrate the ability of passively administered IgG to enter the TG independently of infection, showing that the naive TG is accessible to antibodies. The translational implication of this finding is that human fetal neural tissue could contain HSV-specific maternally derived antibodies. Exploring this possibility, we observed HSV-specific IgG in HSV DNA-negative human fetal TG, suggesting passive transfer of maternal immunity into the prenatal nervous system. To further investigate the role of maternal antibodies in the neonatal nervous system, we established a murine model to demonstrate that maternal IgG can access and persist in neonatal TG. This maternal antibody not only prevented disseminated infection but also completely protected the neonate from neurological disease and death following HSV challenge. Maternal antibodies therefore have a potent protective role in the neonatal nervous system against HSV infection. These findings strongly support the concept that prevention of prenatal and neonatal neurotropic infections can be achieved through maternal immunization. IMPORTANCE Herpes simplex virus 1 is a common infection of the nervous system that causes devastating neonatal disease. Using mouse and human tissue, we discovered that antiviral antibodies accumulate in neural tissue after HSV-1 infection in adults. Similarly, these antibodies pass to the offspring during pregnancy. We found that antiviral maternal antibodies can readily access neural tissue of the fetus and neonate. These maternal antibodies then protect neonatal mice against HSV-1 neurological infection and death. These results underscore the previously unappreciated role of maternal antibodies in protecting fetal and newborn nervous systems against infection. These data suggest that maternal immunization would be efficacious at preventing fetal/neonatal neurological infections.

Published

2017

4. Maternally transferred monoclonal antibodies protect neonatal mice from herpes simplex virus-induced mortality and morbidity

Author

Iara M. Backes, Brook K. Byrd, Chaya D. Patel, Sean A. Taylor, Callaghan R. Garland, Scott W. MacDonald, Alejandro B. Balazs, Scott C. Davis, Margaret E. Ackerman, and David A. Leib

Abstract

Neonatal herpes simplex virus (HSV) infections often result in significant mortality and neurological morbidity despite antiviral drug therapy. Maternally-transferred HSV-specific antibodies reduce the risk of clinically-overt neonatal HSV (nHSV), but this observation has not been translationally applied. Using a neonatal mouse model, we tested the hypothesis that passive transfer of HSV-specific human monoclonal antibodies (mAbs) can prevent mortality and morbidity associated with nHSV. The mAbs were expressedin vivoby vectored immunoprophylaxis, or administeredin vivofollowing recombinant expressionin vitro. Through these maternally-derived routes or through direct administration to pups, diverse mAbs to HSV glycoprotein D protected against neonatal HSV-1 and HSV-2 infection. Usingin vivobioluminescent imaging, both pre- and post-exposure mAb treatment significantly reduced viral load. Administration of mAb also reduced nHSV-induced behavioral morbidity, as measured by anxiety-like behavior. Together these studies support the notion that HSV-specific mAb-based therapies may prevent or improve HSV infection outcomes in neonates.Graphical AbstractDifferent antibody sources were used to maternally-transfer or directly administer HSV-specific mAbs to mouse pups. Neonatal mice were challenged with wild type or bioluminescent virus before or after mAb acquisition. Following infection, pups were assessed for survival, virus-induced bioluminescence and anxiety-like behavior as a measure of neurological morbidity. Efficacy was time and mAb dependent. Notably, all HSV-specific mAbs prevented nHSV-associated mortality.

Published

2022

5. Hinge length contributes to the phagocytic activity of HIV-specific IgG1 and IgG3 antibodies

Author

Cheryl H. Chang, Thomas Broge, Thach H. Chu, Iara M. Backes, Guido Ferrari, Michael S. Seaman, Marina Tuyishime, Andrew R. Crowley, Margaret E. Ackerman, David A. Leib, Matthew Zirui Tay, Galit Alter, Simone I. Richardson, and Georgia D. Tomaras

Subjects

Physiology, Neutrophils, Complement System, HIV Antibodies, Biochemistry, Virions, White Blood Cells, Animal Cells, Immune Physiology, Medicine and Health Sciences, Biology (General), Enzyme-Linked Immunoassays, Antibody-dependent cell-mediated cytotoxicity, 0303 health sciences, Phagocytes, Immune System Proteins, biology, Chemistry, Effector, 030302 biochemistry & molecular biology, Antigenic Variation, Cell biology, Cell Processes, Antibody, Cellular Types, Research Article, QH301-705.5, Immune Cells, Immunology, Viral Structure, Research and Analysis Methods, Microbiology, Antibodies, 03 medical and health sciences, Antigen, Phagocytosis, Antibody receptor, Virology, Genetics, Humans, Antigens, Immunoassays, Molecular Biology, Hinge Exons, 030304 developmental biology, Blood Cells, Antibody-Dependent Cell Cytotoxicity, Biology and Life Sciences, Proteins, Cell Biology, RC581-607, Fragment crystallizable region, Antibodies, Neutralizing, Complement system, HEK293 Cells, Immunoglobulin G, Immune System, biology.protein, HIV-1, Immunologic Techniques, Parasitology, Immunologic diseases. Allergy

Abstract

Antibody functions such as neutralization require recognition of antigen by the Fab region, while effector functions are additionally mediated by interactions of the Fc region with soluble factors and cellular receptors. The efficacy of individual antibodies varies based on Fab domain characteristics, such as affinity for antigen and epitope-specificity, and on Fc domain characteristics that include isotype, subclass, and glycosylation profile. Here, a series of HIV-specific antibody subclass and hinge variants were constructed and tested to define those properties associated with differential effector function. In the context of the broadly neutralizing CD4 binding site-specific antibody VRC01 and the variable loop (V3) binding antibody 447-52D, hinge truncation and extension had a considerable impact on the magnitude of phagocytic activity of both IgG1 and IgG3 subclasses. The improvement in phagocytic potency of antibodies with extended hinges could not be attributed to changes in either intrinsic antigen or antibody receptor affinity. This effect was specific to phagocytosis and was generalizable to different phagocytes, at different effector cell to target ratios, for target particles of different size and composition, and occurred across a range of antibody concentrations. Antibody dependent cellular cytotoxicity and neutralization were generally independent of hinge length, and complement deposition displayed variable local optima. In vivo stability testing showed that IgG molecules with altered hinges can exhibit similar biodistribution and pharmacokinetic profiles as IgG1. Overall, these results suggest that when high phagocytic activity is desirable, therapeutic antibodies may benefit from being formatted as human IgG3 or engineered IgG1 forms with elongated hinges., Author summary Target binding and receptor binding domains of antibodies are separated by a hinge region that differs among IgG subclasses. Among these, IgG3 has a uniquely elongated hinge, whose role in an immunoglobulin’s ability to facilitate different immune functions is incompletely understood. We evaluated the effect of varied hinge length and composition on diverse antibody activities and found that extended hinges enhance phagocytosis, a process through which the immune system can clear potentially harmful particles such as viruses. This enhancement was observed across diverse effector cell types, target particles, and for multiple HIV-specific antibodies. Antibodies with extended hinges showed in vivo persistence and localization in a mouse model similar to those with natural hinges. Consequently, immune responses or antibody therapies expected to benefit from a strong phagocytic response, such as viral sequestration, may be enhanced naturally by the IgG3 subclass or artificially by hinge extension. This work expands knowledge of the role that IgG3 plays in immunity and provides a framework for hinge engineering to improve antibodies.

Published

2019

6. Maternal immunization confers protection against neonatal herpes simplex mortality and behavioral morbidity

Author

Margaret E. Ackerman, Yike Jiang, Iara M. Backes, David M. Knipe, Arnaud Marchant, David A. Leib, Jean M. Pesola, Donald M. Coen, Chaya Patel, and Sean A. Taylor

Subjects

0301 basic medicine, Disease, Herpesvirus 1, Human, Anxiety, medicine.disease_cause, Antibodies, Viral, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Pregnancy, medicine, Animals, Humans, 030212 general & internal medicine, Pregnancy Complications, Infectious, biology, Behavior, Animal, business.industry, Vaccination, Herpes Simplex Virus Vaccines, Herpes Simplex, General Medicine, Sciences bio-médicales et agricoles, medicine.disease, Antibodies, Neutralizing, Maternal infection, 030104 developmental biology, Herpes simplex virus, Immunization, Animals, Newborn, Trigeminal Ganglion, Immunoglobulin G, Immunology, biology.protein, Female, Antibody, Morbidity, business

Abstract

Neonatal herpes simplex virus (nHSV) infections cause devastating morbidity and mortality in infants. Most nHSV cases are associated with primary maternal infection, consistent with the hypothesis that maternal immunity is protective. In humans, we found HSV-specific neutralizing antibodies in newborns of immune mothers, indicating that placentally transferred HSV-specific antibody is protective. Using a murine model, we showed that passive administration of HSV-specific antibody to dams prevented disseminated infection and mortality in pups. Maternal immunization with an HSV-2 replication-defective vaccine candidate, dl5-29, led to transfer of HSV-specific antibodies into neonatal circulation that protected against nHSV neurological disease and death. Furthermore, we observed considerable anxiety-like behavior in adult mice that had been infected with low doses of HSV as neonates, despite a notable lack of signs of infection. This phenotype suggests that nHSV infection can have an unsuspected and permanent impact on behavior. These behavioral sequelae of nHSV were prevented by maternal immunization with dl5-29, demonstrating an unexpected benefit of immunization. These findings also support the general concept that maternal immunization can prevent neurotropic neonatal infections and associated morbidity and mortality., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2019