Exploring Interleukin 21 and Its Role in Humoral Immunity in the Mouse Model of Influenza Infection

Gallahan, Samantha E

01 January 2021

In summary, this study will be focused on Il-21 and its implications in the antibody response in influenza. The isotype classes primarily involved in this process will also be examined. This will be accomplished by looking at the serum of mice and analyzing the present influenza specific antibodies using ELISA. Another goal was to optimize the ELISA in order to make it sensitive enough to catch small differences in the results. This topic is important due to its implications for improving influenza vaccinations and preventions as current vaccines are not 100% effective. Influenza contributes to significant disease and death around the world every year and each piece of this puzzle is significant in order for the scientific community to be able to eventually make strides to improve the burden of this disease.

antibody

interleukin 21

influenza

immunity

Immunology and Infectious Disease

Influence of Perkinsus Marinus Infection and Oyster Health on Levels of Human-Pathogenic Vibrios in Oysters

Bienlien, Lydia M.

01 January 2016

The eastern oyster Crassostrea virginica is an ecologically and commercially important species whose natural populations have been devastated by overharvesting, habitat destruction, and disease, but the rapid growth of oyster aquaculture has shown potential to restore the economic significance of this species. A key threat to the growth and sustainability of oyster aquaculture is the association of human-pathogenic Vibrio bacteria with product marketed for raw consumption. Two Vibrio species, Vibrio vulnificus and Vibrio parahaemolyticus, are the causes of the highest rates of seafood consumption-related mortality and gastrointestinal illness, respectively. Identification of the factors influencing V. vulnificus and V. parahaemolyticus prevalence and intensity in oysters is fundamental to better risk management. Within the oyster, these bacterial species interact with the same tissues as the prevalent oyster parasite, Perkinsus marinus, yet little is known about the effect of P. marinus infection on bacterial levels. Answering the fundamental question of whether P. marinus correlates with V. vulnificus and V. parahaemolyticus levels in oysters was the focus of this research. Oysters were deployed in the York River, Gloucester Point, VA, where both Vibrio species and P. marinus are endemic, and were sampled at five time points when levels of both P. marinus and Vibrio spp. were expected to be high in oysters. Abundance of all three organisms and pathogenic strains of V. parahaemolyticus were determined in individual oysters using molecular methods to investigate potential correlations between parasite and bacterial abundance. Additionally, the levels of V. vulnificus and V. parahaemolyticus in relation to histopathology associated with P. marinus infection and other conditions were determined. The following year, manipulation of P. marinus disease progression, which is slowed by lower salinities and favored by higher salinities, was attempted by deploying oysters at two additional sites of different salinities to gain insight into whether the timing of P. marinus infection emergence directly influences Vibrio levels. No correlation was observed between total abundance of P. marinus and either V. vulnificus or V. parahaemolyticus. Manipulation of P. marinus disease progression produced no effect on P. marinus emergence, so this yielded no insight into P. marinus-Vibrio interactions. Histopathological analyses did not reveal any correlations between P. marinus ranking, distribution, or associated tissue damage and Vibrio spp. levels. Though few in number, oysters infected by Haplosporidium nelsoni were characterized by higher levels of V. vulnificus, and oysters of peak gametogenic development had significantly higher levels of pathogenic strains of V. parahaemolyticus. The results with regard to H. nelsoni and gametogenic state warrant further study. The primary conclusion of this study is that oyster health has little influence on levels of human-pathogenic Vibrio species in oysters, inter-host variability in Vibrio levels is likely explained by other factors.

Aquaculture and Fisheries

Immunology of Infectious Disease

Marine Biology

Natural Resources and Conservation

Antibody Production in Spot (Leiostomus xanthurus Lacepede): A Model to Test the Impact of Elizabeth River Sediments on the Humoral Immune System of Fish

Pourreau, Catherine Nancy

01 January 1984

No description available.

Ecology and Evolutionary Biology

Fresh Water Studies

Immunology and Infectious Disease

Oceanography

Seasonal Immune Response in Juvenile Summer Flounder Paralichthys dentatus to the Hemoflagellate Trypanoplasma bullocki in the Lower Chesapeake Bay

Frizzell, Linda Jane

01 January 1985

No description available.

Animal Diseases

Fresh Water Studies

Immunology and Infectious Disease

Oceanography

Comparative Characteristics of Integrin αDβ2 Binding to Native Fibrinogen and Fibrinogen Modified by DHA Oxidation During Inflammation

Ilesanmi, Ajibola

01 May 2023

2-ω-carboxyethylpyrrole (CEP) is a product of docosahexaenoic acid (DHA) oxidation, which forms covalent adducts with different proteins. CEP-modified proteins can interact with macrophage receptor, integrin αDβ2. This study aims to compare αDβ2 binding to its physiological ligand, fibrinogen, and CEP-modified fibrinogen, which is formed during inflammation. We hypothesize that modification of fibrinogen changes its ligand-binding properties to integrin αDβ2 which can affect macrophage migration and retention. Recombinant αD I-domain and αDβ2-transfected HEK293 cells were used for the experiments. Using biolayer interferometry, we found that the affinity of αD I-domain binding to fibrinogen-CEP was higher than fibrinogen and inhibited by the anti-CEP antibody. In agreement, αDβ2-transfected cells demonstrated stronger adhesion to fibrinogen-CEP and this adhesion was significantly inhibited by polyglutamic acid that mimics CEP-mediated binding. These findings suggest that αDβ2's interaction with DHA-modified extracellular matrix (ECM) proteins significantly increases macrophage adhesion and may serve for macrophage retention during chronic inflammation.

inflammation

macrophages

integrins

protein interaction

cell adhesion

Immunology of Infectious Disease

Sublethal Effects of Methylmercury on the Songbird Immune Response: An Experimental Study

Lewis, Catherine Ann

01 January 2012

No description available.

Biodiversity

Immunology and Infectious Disease

Natural Resources and Conservation

Toxicology

Role of T-Bet in Production of Immunoglobulin Isotypes in an Influenza Setting

Sidhom, David

01 January 2019

Influenza is one of the most common diseases worldwide, yet the vaccines against influenza are only 35% effective at protecting against infection. Creating a more effective vaccine requires an understanding of the foundation and the factors that contribute to a strong and protective adaptive immune response. T-bet [TBX21] is a transcription factor that plays an instrumental role in the orchestration of the type 1 immune response, which is the specialized response used by the immune system for a cell-mediated response against intracellular pathogens, such as influenza. It has yet to be explored in an influenza setting on the role T-bet in the production of antibodies. The aim of this study is to understand T-bet's role in production of antibody isotypes and identify whether expression of T-bet is more important for antibody production in T cells or B cells. We expected T-bet knockout (KO) mice to have IgG2a and that T-bet expression would be more important in T cells for antibody production. An enzyme-linked immunosorbent assay (ELISA) was used to measure the amount of virus-specific antibody in T-bet KO versus wild type (WT) mice infected with influenza. The results show that the T-bet KO and WT mice have relatively the same amount of IgG and IgG1, but the T-bet KO have a significantly lower level of IgG2a, confirming T-bet's importance for its production. To distinguish the importance of T-bet expression while T-bet expression in T cells was constant, a model was developed to allow us to control expression of T-bet in B cells. The results however were inconclusive, and the experiment will have to be repeated to make a firm conclusion on the roles of lymphocytes in the control of IgG isotypes. Overall, these results indicate that the manipulation of T-bet expression can be used as a vector to control IgG antibody levels, which holds potential for the improvement of vaccines.

T-bet

Immunoglobulin

Antibodies

Hemic and Immune Systems

Immunology of Infectious Disease

Sensing of Endogenous Nucleic Acids by the Innate Immune System during Viral Infection: A Dissertation

Schattgen, Stefan A.

30 March 2015

Innate sensing of nucleic acids lies at the heart of antiviral host defense. However, aberrant activation of innate sensors by host nucleic acids can also lead to the development of autoimmune diseases. Such host nucleic acids can also be released from stressed, damaged or dying cells into the tissue microenvironment. It however remains unclear how the extracellular nucleic acids impacts the quality of the host immune responses against viral infections. Using a mouse model of influenza A virus (IAV) infection, we uncovered an important immune-regulatory pathway that tempers the intensity of the host-response to infection. We found that host-derived DNA from necrotic cells accumulates in the lung microenvironment during IAV infection, and is sensed by the DNA receptor Absent in Melanoma 2 (AIM2). AIM2-deficiency resulted in severe immune pathology highlighted by enhanced recruitments of immune cells, and excessive systemic inflammation after IAV challenge, which led to increased morbidity and lethality in IAV-infected mice. Interestingly, these effects of AIM2 were largely independent of its ability to mediate IL-1β maturation through inflammasome complexes. Finally, ablation of accumulated DNA in the lung by transgenic expression of DNaseI in vivo had similar effects. Collectively, our results identify a novel mechanism of cross talk between PRR pathways, where sensing of hostderived nucleic acids limits immune mediated damage to virus infected tissues.

Influenza A virus

Innate Immunity

Inflammasones

Nucleic Acids

Dissertations, UMMS

Immunity, Innate

Immunity

Immunology and Infectious Disease

Immunology of Infectious Disease

Virology

Immune Activation Induces Telomeric DNA Damage, Reduces Memory Precursors, and Promotes Short-lived Effector T Cell Differentiation in Chronic HCV Infection

Nguyen, Lam

01 December 2020

Chronic hepatitis C virus (HCV) infection exhibits persistent high viral load, inducing T cells differentiation and dysfunction in chronically infected individuals. Recent longitude studies in both HCV specific- and bulk T cells reveal that chronic immune stimulation is the driving force for the impaired T cell functions, however, the underlying mechanisms remain elusive. Here, we show that peripheral CD4+ T cells from chronically HCV-infected patients exhibit lymphopenia with the reduction of naïve population and expansion of effector memory T cells. CD4+ T cells from HCV patient also display elevated activation markers. including HLA-DR, GLUT1, Granzyme B, and short-lived effector marker CD127- KLRG1+, whereas stem cell-liked transcription factor TCF1 and telomere sheterin subunit TRF2 are significant reduced, comparing to age- and gender-matched healthy controls. Mechanistically, ex vivo T cell differentiation revealed that CD4+ T cells from HCV patients exhibit PI3K/Akt/mTOR signaling hyperactivation upon TCR stimulation, favoring pro-inflammatory effector differentiation with TRF2 downregulation, rendering telomere dysfunction induced foci (TIFs) accumulation, resulting in telomeric DNA damage and cellular apoptosis. Importantly, exacerbation of telomere deprotection by knockdown of TRF2 expression in healthy T cells resulted in an increase in telomeric DNA damage and T cell apoptosis; whereas overexpression of TRF2 in HCV-T cells led to an alleviation of telomeric DNA damage and T cell death. Additionally, inhibition of Akt signaling during T cell activation can preserve precursor memory population, while limiting inflammatory effector expansion, DNA damage, and cell death. Taken together, these results suggest that modulation of immune activation by inhibiting Akt signaling and protection of telomeres by enforcing TRF2 expression could open new therapeutic strategies to balance adaptive immune responses in the setting of chronic immune activation and inflammatory in vulnerable populations such as chronically viral infected individuals.

HCV

CD4+ T cell

T cell activation

telomeric DNA damage

TRF2

TCF1 Ubiquitination

Immunology of Infectious Disease

Other Immunology and Infectious Disease

Endothelial HSPA12B is a Novel Protein for the Preservation of Cardiovascular Function in Polymicrobial Sepsis via Exosome MiR-126

Zhang, Xia

01 August 2016

Sepsis is the most frequent cause of mortality in most intensive care units. Cardiovascular dysfunction is a major complication associated with sepsis, with high mortality rates up to 70%. Currently, there is no effective treatment approach for sepsis. The integrity of the endothelium is fundamental for the homeostasis of the cardiovascular system. Sepsis induces endothelial cell injury which is the key factor for multiple organ failure. The increased expression of adhesion molecules and chemokines in endothelial cell promotes leukocytes infiltration into the tissue. The loss of tight junction proteins and increased permeability of the endothelial cells will provoke tissue hypoxia and subsequent organ failure. Therefore, preservation of endothelial function is a critical approach for improving sepsis-induced outcome. Here, we showed that endothelial specific protein HSPA12B plays a critical role in the preservation of cardiovascular function in polymicrobial sepsis. HSPA12B is the newest member of HSP70 family which predominantly expresses in endothelial cells. We observed that HSPA12B deficiency (HSPA12B-/-) exaggerated polymicrobial sepsis-induced endothelial dysfunction, leading to worse cardiac dysfunction. HSPA12B-/- significantly increases the expression of adhesion molecules, decreases tight junction protein levels and enhances vascular permeability. HSPA12B-/- alsomarkedly promotes the infiltration of inflammatory cells into the myocardium and inflammatory cytokine production. We investigated the cardioprotective mechanisms of HSPA12B in sepsis induced cardiovascular dysfunction. Exosomes play a critical role in intercellular communication. Exosome is a natural vehicle of microRNAs. We found that exosomes isolated from HSPA12B-/- septic mice induced more expression of adhesion molecules in endothelial cells and inflammation in macrophages. Interestingly, the levels of miR-126 in serum exosomes isolated from HSPA12B-/- septic mice were significantly lowers than in WT septic mice. Importantly, delivery of miR-126 carried exosomes significantly improved cardiac function, suppressed the expression of adhesion molecules, reduced immune cell infiltration in the myocardium, and improved vascular permeability in HSPA12B-/- septic mice. The data suggests that HSPA12B is essential for endothelial function in sepsis and that miR-126 containing exosomes plays a critical role in cardiovascular-protective mechanisms of endothelial HSPA12B in polymicrobial sepsis.

sepsis

endothelial cell

heat shock protein

exosome

microRNA

cardiac function

Bacterial Infections and Mycoses

Cardiovascular Diseases

Cell Biology

Disease Modeling

Immunology and Infectious Disease

Immunology of Infectious Disease