Your search keyword '"Douglas, Bonnie"' showing total 10 results

1. A Trefoil factor 3-Lingo2 axis restrains proliferative expansion of type-1 T helper cells during GI nematode infection.

Author

Ethgen, Lucas M., Pastore, Christopher, Lin, Cailu, Reed, Danielle R, Hung, Li-Yin, Douglas, Bonnie, Sinker, Dominic, Herbert, De'Broski R., and Belle, Nicole M.

Published

2024

2. PD-1 and CTLA-4 exert additive control of effector regulatory T cells at homeostasis.

Author

Pereira, Joseph A., Lanzar, Zachary, Clark, Joseph T., Hart, Andrew P., Douglas, Bonnie B., Shallberg, Lindsey, O'Dea, Keenan, Christian, David A., and Hunter, Christopher A.

Subjects

REGULATORY T cells, CYTOTOXIC T lymphocyte-associated molecule-4, PROGRAMMED cell death 1 receptors, HOMEOSTASIS, DENDRITIC cells

Abstract

At homeostasis, a substantial proportion of Foxp3+ T regulatory cells (Tregs) have an activated phenotype associated with enhanced TCR signals and these effector Treg cells (eTregs) co-express elevated levels of PD-1 and CTLA-4. Short term in vivo blockade of the PD-1 or CTLA-4 pathways results in increased eTreg populations, while combination blockade of both pathways had an additive effect. Mechanistically, combination blockade resulted in a reduction of suppressive phospho-SHP2 Y580 in eTreg cells which was associated with increased proliferation, enhanced production of IL-10, and reduced dendritic cell and macrophage expression of CD80 and MHC-II. Thus, at homeostasis, PD-1 and CTLA-4 function additively to regulate eTreg function and the ability to target these pathways in Treg cells may be useful to modulate inflammation. [ABSTRACT FROM AUTHOR]

Published

2023

3. Transgenic expression of a T cell epitope in Strongyloides ratti reveals that helminth-specific CD4+ T cells constitute both Th2 and Treg populations.

Author

Douglas, Bonnie, Wei, Yun, Li, Xinshe, Ferguson, Annabel, Hung, Li-Yin, Pastore, Christopher, Kurtz, Jonathan R., McLachlan, James B., Nolan, Thomas J., Lok, James, and Herbert, De'Broski R.

Subjects

HELMINTHIASIS, REGULATORY T cells, T helper cells, T cells, GREEN fluorescent protein, LABORATORY mice, CHIMERIC proteins

Abstract

Helminths are distinct from microbial pathogens in both size and complexity, and are the likely evolutionary driving force for type 2 immunity. CD4+ helper T cells can both coordinate worm clearance and prevent immunopathology, but issues of T cell antigen specificity in the context of helminth-induced Th2 and T regulatory cell (Treg) responses have not been addressed. Herein, we generated a novel transgenic line of the gastrointestinal nematode Strongyloides ratti expressing the immunodominant CD4+ T cell epitope 2W1S as a fusion protein with green fluorescent protein (GFP) and FLAG peptide in order to track and study helminth-specific CD4+ T cells. C57BL/6 mice infected with this stable transgenic line (termed Hulk) underwent a dose-dependent expansion of activated CD44hiCD11ahi 2W1S-specific CD4+ T cells, preferentially in the lung parenchyma. Transcriptional profiling of 2W1S-specific CD4+ T cells isolated from mice infected with either Hulk or the enteric bacterial pathogen Salmonella expressing 2W1S revealed that pathogen context exerted a dominant influence over CD4+ T cell phenotype. Interestingly, Hulk-elicited 2W1S-specific CD4+ T cells exhibited both Th2 and Treg phenotypes and expressed high levels of the EGFR ligand amphiregulin, which differed greatly from the phenotype of 2W1S-specific CD4+ T cells elicited by 2W1S-expressing Salmonella. While immunization with 2W1S peptide did not enhance clearance of Hulk infection, immunization did increase total amphiregulin production as well as the number of amphiregulin-expressing CD3+ cells in the lung following Hulk infection. Altogether, this new model system elucidates effector as well as immunosuppressive and wound reparative roles of helminth-specific CD4+ T cells. This report establishes a new resource for studying the nature and function of helminth-specific T cells. Author summary: Intestinal parasitic helminths infect roughly one billion people worldwide, and there are currently no vaccines available for use in humans. In humans and experimental mouse infection models, CD4+ helper T cells that have differentiated into type 2 (Th2) effectors serve important roles in worm clearance and are considered essential for specific, long-lasting immunity. However, many helminth infections also drive expansion of regulatory T cells (Tregs) that can suppress inflammatory CD4+ T cell subsets. Whether Th2 and/or Treg subsets recognize helminth antigens is a question of great relevance to vaccine development, but no tools previously existed to identify and study endogenous helminth-specific CD4+ T cells. Here, we used transgenesis in the Strongyloides ratti model to engineer the first gastrointestinal (GI) nematode strain to express a tractable CD4+ T cell peptide epitope, 2W1S (Hulk). Our studies reveal that 2W1S-specific CD4+ T cells become both Th2s and Tregs in the lungs of infected mice and potentially serve protective and/or suppressive roles during Hulk infection. Development of this new model organism could be an important tool for studies designed to understand Th2 and Treg immunobiology, microenvironment-specific interactions, helminth-epitope processing/presentation, and T cell-dependent antibody responses. [ABSTRACT FROM AUTHOR]

Published

2021

4. LINGO3 regulates mucosal tissue regeneration and promotes TFF2 dependent recovery from colitis.

Author

Zullo, Kelly M., Douglas, Bonnie, Maloney, Nicole M., Ji, Yingbiao, Wei, Yun, Herbine, Karl, Cohen, Rachel, Pastore, Christopher, Cramer, Zvi, Wang, Xin, Wei, Wenjie, Somsouk, Ma, Hung, Li Yin, Lengner, Christopher, Kohanski, Michael H., Cohen, Noam A., and Herbert, De'Broski R.

Subjects

MUCOUS membranes, G protein coupled receptors, COLITIS, TREFOIL factors, SKIN regeneration, REGENERATION (Biology), CELL communication

Abstract

Aim: Recovery of damaged mucosal surfaces following inflammatory insult requires diverse regenerative mechanisms that remain poorly defined. Previously, we demonstrated that the reparative actions of Trefoil Factor 3 (TFF3) depend upon the enigmatic receptor, leucine rich repeat and immunoglobulin-like domain containing nogo receptor 2 (LINGO2). This study examined the related orphan receptor LINGO3 in the context of intestinal tissue damage to determine whether LINGO family members are generally important for mucosal wound healing and maintenance of the intestinal stem cell (ISC) compartment needed for turnover of mucosal epithelium. Methods and Results: We find that LINGO3 is broadly expressed on human enterocytes and sparsely on discrete cells within the crypt niche, that contains ISCs. Loss of function studies indicate that LINGO3 is involved in recovery of normal intestinal architecture following dextran sodium sulfate (DSS)-induced colitis, and that LINGO3 is needed for therapeutic action of the long acting TFF2 fusion protein (TFF2-Fc), including a number of signaling pathways critical for cell proliferation and wound repair. LINGO3-TFF2 protein-protein interactions were relatively weak however and LINGO3 was only partially responsible for TFF2 induced MAPK signaling suggesting additional un-identified components of a receptor complex. However, deficiency in either TFF2 or LINGO3 abrogated budding/growth of intestinal organoids and reduced expression of the intestinal ISC gene leucine-rich repeat-containing G-protein coupled receptor 5 (LGR5), indicating homologous roles for these proteins in tissue regeneration, possibly via regulation of ISCs in the crypt niche. Conclusion: We propose that LINGO3 serves a previously unappreciated role in promoting mucosal wound healing. [ABSTRACT FROM AUTHOR]

Published

2021

5. Immune System Investigation Using Parasitic Helminths.

Author

Douglas, Bonnie, Oyesola, Oyebola, Cooper, Martha M., Posey, Avery, Tait Wojno, Elia, Giacomin, Paul R., and Herbert, De'Broski R.

Abstract

Coevolutionary adaptation between humans and helminths has developed a finely tuned balance between host immunity and chronic parasitism due to immunoregulation. Given that these reciprocal forces drive selection, experimental models of helminth infection are ideally suited for discovering how host protective immune responses adapt to the unique tissue niches inhabited by these large metazoan parasites. This review highlights the key discoveries in the immunology of helminth infection made over the last decade, from innate lymphoid cells to the emerging importance of neuroimmune connections. A particular emphasis is placed on the emerging areas within helminth immunology where the most growth is possible, including the advent of genetic manipulation of parasites to study immunology and the use of engineered T cells for therapeutic options. Lastly,we cover the status of human challenge trials with helminths as treatment for autoimmune disease, which taken together, stand to keep the study of parasitic worms at the forefront of immunology for years to come. [ABSTRACT FROM AUTHOR]

Published

2021

6. Cellular context of IL-33 expression dictates impact on anti-helminth immunity.

Author

Hung, Li-Yin, Tanaka, Yukinori, Herbine, Karl, Pastore, Christopher, Singh, Brenal, Ferguson, Annabel, Vora, Nisha, Douglas, Bonnie, Zullo, Kelly, Behrens, Edward M., Li Hui Tan, Tiffany, Kohanski, Michael A., Bryce, Paul, Lin, Cailu, Kambayashi, Taku, Reed, Danielle R., Brown, Breann L., Cohen, Noam A., and Herbert, De'Broski R.

Abstract

IL-33 and roundworm clearance: Immune control of helminth infections is achieved via type 2 immune responses involving group 2 innate lymphoid cells (ILC2), with the cytokine interleukin-33 (IL-33) supporting the expansion and activation of ILC2. Hung et al. used a mouse model of Nippostrongylus brasiliensis infection to investigate the effects of selectively deleting the IL-33 gene in intestinal epithelial cells or CD11c+ dendritic cells (DCs). Epithelial cell IL-33 promoted clearance of infection by ILC2, but IL-33 from DCs instead impaired worm clearance by enhancing Treg function. IL-33 expression by DCs increased expression of the pore-forming protein perforin-2, which may provide a conduit on the plasma membrane for IL-33 to leave the cell. These findings provide new insights into the cellular mechanisms controlling extracellular release of IL-33. Interleukin-33 (IL-33) is a pleiotropic cytokine that can promote type 2 inflammation but also drives immunoregulation through Foxp3+Treg expansion. How IL-33 is exported from cells to serve this dual role in immunosuppression and inflammation remains unclear. Here, we demonstrate that the biological consequences of IL-33 activity are dictated by its cellular source. Whereas IL-33 derived from epithelial cells stimulates group 2 innate lymphoid cell (ILC2)–driven type 2 immunity and parasite clearance, we report that IL-33 derived from myeloid antigen-presenting cells (APCs) suppresses host-protective inflammatory responses. Conditional deletion of IL-33 in CD11c-expressing cells resulted in lowered numbers of intestinal Foxp3+Treg cells that express the transcription factor GATA3 and the IL-33 receptor ST2, causing elevated IL-5 and IL-13 production and accelerated anti-helminth immunity. We demonstrate that cell-intrinsic IL-33 promoted mouse dendritic cells (DCs) to express the pore-forming protein perforin-2, which may function as a conduit on the plasma membrane facilitating IL-33 export. Lack of perforin-2 in DCs blocked the proliferative expansion of the ST2+Foxp3+Treg subset. We propose that perforin-2 can provide a plasma membrane conduit in DCs that promotes the export of IL-33, contributing to mucosal immunoregulation under steady-state and infectious conditions. [ABSTRACT FROM AUTHOR]

Published

2020

7. Morpholino‐induced exon skipping stimulates cell‐mediated and humoral responses to dystrophin in mdx mice.

Author

Vila, Maria C, Novak, James S, Benny Klimek, Margaret, Li, Ning, Morales, Melissa, Fritz, Alexander G, Edwards, Katie, Boehler, Jessica F, Hogarth, Marshall W, Kinder, Travis B, Zhang, Aiping, Mazala, Davi, Fiorillo, Alyson A, Douglas, Bonnie, Chen, Yi‐Wen, van den Anker, John, Lu, Qi L, Hathout, Yetrib, Hoffman, Eric P, and Partridge, Terence A

Subjects

HUMORAL immunity, DUCHENNE muscular dystrophy, MAJOR histocompatibility complex, MYOSITIS, DYSTROPHIN

Abstract

Exon skipping is a promising genetic therapeutic strategy for restoring dystrophin expression in the treatment of Duchenne muscular dystrophy (DMD). The potential for newly synthesized dystrophin to trigger an immune response in DMD patients, however, is not well established. We have evaluated the effect of chronic phosphorodiamidate morpholino oligomer (PMO) treatment on skeletal muscle pathology and asked whether sustained dystrophin expression elicits a dystrophin‐specific autoimmune response. Here, two independent cohorts of dystrophic mdx mice were treated chronically with either 800 mg/kg/month PMO for 6 months (n = 8) or 100 mg/kg/week PMO for 12 weeks (n = 11). We found that significant muscle inflammation persisted after exon skipping in skeletal muscle. Evaluation of humoral responses showed serum‐circulating antibodies directed against de novo dystrophin in a subset of mice, as assessed both by Western blotting and immunofluorescent staining; however, no dystrophin‐specific antibodies were observed in the control saline‐treated mdx cohorts (n = 8) or in aged (12‐month‐old) mdx mice with expanded 'revertant' dystrophin‐expressing fibers. Reactive antibodies recognized both full‐length and truncated exon‐skipped dystrophin isoforms in mouse skeletal muscle. We found more antigen‐specific T‐cell cytokine responses (e.g. IFN‐g, IL‐2) in dystrophin antibody‐positive mice than in dystrophin antibody‐negative mice. We also found expression of major histocompatibility complex class I on some of the dystrophin‐expressing fibers along with CD8+ and perforin‐positive T cells in the vicinity, suggesting an activation of cell‐mediated damage had occurred in the muscle. Evaluation of complement membrane attack complex (MAC) deposition on the muscle fibers further revealed lower MAC deposition on muscle fibers of dystrophin antibody‐negative mice than on those of dystrophin antibody‐positive mice. Our results indicate that de novo dystrophin expression after exon skipping can trigger both cell‐mediated and humoral immune responses in mdx mice. Our data highlights the need to further investigate the autoimmune response and its long‐term consequences after exon‐skipping therapy. Copyright © 2019 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2019

8. Exploring protein structure and dynamics through a project-oriented biochemistry laboratory module.

Author

Lipchock, James M., Ginther, Patrick S., Douglas, Bonnie B., Bird, Kelly E., and Patrick Loria, J.

Subjects

PROTEIN structure, PROTEIN-tyrosine phosphatase, PROTEIN expression, BINDING sites, BIOMOLECULES, MUTAGENESIS

Abstract

Here, we present a 10-week project-oriented laboratory module designed to provide a course-based undergraduate research experience in biochemistry that emphasizes the importance of biomolecular structure and dynamics in enzyme function. This module explores the impact of mutagenesis on an important active site loop for a biomedically-relevant human enzyme, protein tyrosine phosphatase 1B (PTP1B). Over the course of the semester students guide their own mutant of PTP1B from conception to characterization in a cost-effective manner and gain exposure to fundamental techniques in biochemistry, including site-directed DNA mutagenesis, bacterial recombinant protein expression, affinity column purification, protein quantitation, SDS-PAGE, and enzyme kinetics. This project-based approach allows an instructor to simulate a research setting and prepare students for productive research beyond the classroom. Potential modifications to expand or contract this module are also provided. © 2017 by The International Union of Biochemistry and Molecular Biology, 45(5):403-410, 2017. [ABSTRACT FROM AUTHOR]

Published

2017

9. Diet‐induced microbial autofluorescence confounds flow cytometry of ex vivo isolated fecal microbes.

Author

Denu, Lidiya, Lubin, Jean‐Bernard, Douglas, Bonnie, Tuluc, Florin, and Silverman, Michael A.

Subjects

FLOW cytometry, BIOFLUORESCENCE, MICROORGANISMS, MICE, ANTIBODY formation

Abstract

Microbial flow cytometry is a powerful emerging technology with a broad range of applications including the study of complex microbial communities. Immunologists are increasingly using this technology to study antibody responses against pathogenic and commensal microbes. We employed microbial flow cytometry to quantify the proportion of fecal microbes bound by six different Ig isotypes: IgA, IgM, IgG1, IgG2b, IgG2c, and IgG3. In healthy mammals, secretory IgA (sIgA) binds to a subset of commensal microbes in the gut whereas IgG is not typically found in the intestinal tract of healthy mammals. Unexpectedly, fecal microbes isolated from SPF C57BL/6 mice housed in the Hill facility and imported from the vendors The Jackson Laboratory and Taconic Biosciences showed a strong signal in the Brilliant Violet 711 (BV711) channel. Unstained fecal samples from these mice demonstrated that the BV711 signal was due to bacterial autofluorescence. We found that murine diets containing alfalfa induce ex vivo microbial autofluorescence in the far red spectrum, likely due to chlorophyll. Analysis of unstained intestinal microbes is an important step in microbial flow cytometry to identify diet‐induced autofluorescence. We recommend fluorophores with emission spectra below 650 nm (e.g. BV421, PE). [ABSTRACT FROM AUTHOR]

Published

2019

10. Group 2 Innate Lymphoid Cells (ILC2): Type 2 Immunity and Helminth Immunity.

Author

Herbert, De'Broski R., Douglas, Bonnie, and Zullo, Kelly

Subjects

HELMINTHS, NATURAL immunity, INTERLEUKIN-5, INTERLEUKIN-13, EOSINOPHILS

Abstract

Group 2 innate lymphoid cells (ILC2) have emerged as a major component of type 2 inflammation in mice and humans. ILC2 secrete large amounts of interleukins 5 and 13, which are largely responsible for host protective immunity against helminth parasites because these cytokines induce profound changes in host physiology that include: goblet cell metaplasia, mucus accumulation, smooth muscle hypercontractility, eosinophil and mast cell recruitment, and alternative macrophage activation (M2). This review covers the initial recognition of ILC2 as a distinct cell lineage, the key studies that established their biological importance, particularly in helminth infection, and the new directions that are likely to be the focus of emerging work that further explores this unique cell population in the context of health and disease. [ABSTRACT FROM AUTHOR]

Published

2019