HLA-DR and HLA-DQ polymorphism and associations in different populations

Brown, Juliette

January 1998

No description available.

610

Genetic control of human peripheral blood leukocyte populations

Kourosh, Rasekh Ahmadi

January 2002

No description available.

572.8

Human adaptive immune system

PERSISTENCE, DISTRIBUTION AND IMMUNOPATHOGENESIS OF INFECTIOUS BURSAL DISEASE VIRUS IN CHICKENS

Rauf, Abdul

24 March 2011

No description available.

Virology

IBDV

Innate and adaptive immune response

persistence and distribution

Decellularized Matrices Effect on the Adaptive Immune Response

Sowers, Kegan

01 January 2018

Decellularized extracellular matrices have been a growing area of interest in the biomedical engineering fields of tissue engineering and regenerative medicine.As these materials move toward clinical applications, the immune response to these materials will be a driving force toward their success in clinical approaches. Fully digested decellularized matrix constructs derived from porcine liver, muscle and lung were created to test the adaptive immune response. Hydrogel characterization ensured that the materials had relatively similar stiffness levels to reduce variability, and in vitro studies were conducted. Each individual construct as well as a gelatin control were plated with a co-culture of macrophages and T-cells to measure T-cell proliferation. In addition standard markers of inflammation through qPCR were measured in the macrophage group. Constructs were then placed into animals for 3 and 7 days in addition to a second group that received constructs for 21 days before secondary constructs were placed. These groups were then sacrificed following 3, 7 and 14 days to measure the residual and memory-like response of the constructs. Our results showed that t-cell proliferation was increased with decellularized constructs, particularly in tissue with higher DNA content. In vivo, animals with secondary treatments showed extended inflammatory response, driven by Th1 and Th17 polarization suggesting a memory-like response due to recognition of peptides in the constructs from secondary placements.

Adaptive immune system

biomaterials

extracellular matrices

decellularization

hydrogels

inflammation

Biomaterials

IMMUNOREGULATION OF HEPATITIS B VIRUS INFECTION : RATIONALE AND CLINICAL APPLICATION

ISHIKAWA, TETSUYA

08 1900

No description available.

T-cell exhaustion

therapeutic vaccination

adaptive immune response

interferon-g

chronic hepatitis B

Role of the Adaptive Immune System in Angiotensin II Induced Vascular Remodeling and Stiffening

Tawinwung, Supannikar

January 2013

Elevation of blood pressure leads to structural and functional alterations in vasculature, resulting in increased arterial stiffness, which in turn is a predictor of future hypertension and cardiovascular risks. Angiotensin II (Ang II) plays a crucial role in blood pressure regulation. In addition to its hemodynamic effects, Ang II activates both innate and adaptive immunity. The objective of this study is to define the roles of CD4⁺ T lymphocyte subsets in the progression of vascular remodeling and stiffening induced by Ang II. A mouse model of Ang II infusion was used to induce hypertension and vascular diseases. In the WT mice, Ang II infusion led to an increased aortic stiffness within 7 days of the treatment as well as an increase in aortic remodeling within 14 days of the treatment. Interestingly, RAG1(-/-) mice, lacking functional T and B lymphocytes were prevented from the vascular stiffening and remodeling caused by Ang II. Characterization of T cell subsets in the perivascular aortic infiltrates showed that there was a sequential activation of peri-arotic Th1 and Th17 during the time course of Ang II treatment, which was associated with the initial increased aortic stiffness and the subsequent remodeling, respectively. To extend the concept, roles of suppressive regulatory T cells (Tregs) were further examined. Proliferation of Tregs was successfully induced in vivo using a cytokine complex of IL-2 and anti-IL-2 mAb clone JES6-1. Ang II-infused mice that received the IL-2/anti-IL-2 complex exhibited a reduced vascular remodeling and stiffening caused by Ang II. Stimulation of Tregs with the IL-2/anti-IL-2 complex also suppressed the Th1 and Th17 responses and reduced immune cells infiltrates in the aortas. Since hypertension is closely related to the kidney and renal homeostasis is also tightly regulated by Ang II, the kidney function was determined in this Ang II-hypertensive model. In the wild type mice, two weeks infusion of Ang II resulted in an increased glomerular filtration rate (GFR) whereas immunodeficient RAG1(-/-) mice exhibited a marked decrease in GFR. Subsequent experiments showed that Th17 was crucial in renal hemodynamic response to Ang II, partly by regulating secretion of vasodilatory prostaglandin E₂.

Angiotensin

T lymphocytes

Vascular remodeling

Vascular stiffness

Medical Pharmacology

adaptive immune

The Immune Response in Parkinson's Disease

Lira, Arman

28 January 2014

Microglia activity has been detected in Parkinson’s disease (PD) post-mortem brains and experimental animal models; however the precise interplay between microglia and dopamine neurons of the SNpc is not well understood. In the blood plasma of PD patients, our laboratory found elevated levels of interferon-gamma (IFN-γ), a proinflammatory cytokine and potent activator of microglia. Given this, we sought to untangle the immune responses relevant to PD in mice, examining IFN-γ’s involvement and signaling mechanism using an inflammatory co-culture model of microglia and midbrain neurons treated with rotenone. By means of RT-PCR, we discovered IFN-γ mRNA transcripts are produced by microglia, and this expression increases upon exposure to rotenone. We delineated IFN-γ’s signaling mechanism in co-cultures using different IFN-γ receptor deficient cells, and showed it engages receptors in an autocrine (not paracrine) manner to further microgliosis and dopamine cell loss. After exploring the innate immune response in a model of PD, we subsequently shifted focus to an in vivo system to better investigate any involvement of the delayed humoral arm of the adaptive immune system. Needing a time appropriate death paradigm, we developed a protracted low dose regimen of MPTP, which elicits dopaminergic cell death after 2 weeks of treatment. Subjected to this paradigm, Rag 2 mutant mice (deficient in both T and B cells) exhibit resistance to dopamine cell loss, microglia activation and motor impairments. Further evidence in support of immune involvement came with the resensitization of Rag2 mice to MPTP after reconstitution with WT splenocytes. Additionally, mice deficient in Fcγ receptors exhibited neuroprotection in our protracted degeneration model. Taken together, these data indicate the innate and humoral arm can modulate the microglial response to dopaminergic degeneration and may participate in Parkinson's disease.

Neuroinflammation

Microgliosis

Innate immunity

Adaptive immune response

Interferon-gamma

Fc receptors

Rotenone

MPTP

Parkinson's disease

The Immune Response in Parkinson's Disease

Lira, Arman

January 2014

Microglia activity has been detected in Parkinson’s disease (PD) post-mortem brains and experimental animal models; however the precise interplay between microglia and dopamine neurons of the SNpc is not well understood. In the blood plasma of PD patients, our laboratory found elevated levels of interferon-gamma (IFN-γ), a proinflammatory cytokine and potent activator of microglia. Given this, we sought to untangle the immune responses relevant to PD in mice, examining IFN-γ’s involvement and signaling mechanism using an inflammatory co-culture model of microglia and midbrain neurons treated with rotenone. By means of RT-PCR, we discovered IFN-γ mRNA transcripts are produced by microglia, and this expression increases upon exposure to rotenone. We delineated IFN-γ’s signaling mechanism in co-cultures using different IFN-γ receptor deficient cells, and showed it engages receptors in an autocrine (not paracrine) manner to further microgliosis and dopamine cell loss. After exploring the innate immune response in a model of PD, we subsequently shifted focus to an in vivo system to better investigate any involvement of the delayed humoral arm of the adaptive immune system. Needing a time appropriate death paradigm, we developed a protracted low dose regimen of MPTP, which elicits dopaminergic cell death after 2 weeks of treatment. Subjected to this paradigm, Rag 2 mutant mice (deficient in both T and B cells) exhibit resistance to dopamine cell loss, microglia activation and motor impairments. Further evidence in support of immune involvement came with the resensitization of Rag2 mice to MPTP after reconstitution with WT splenocytes. Additionally, mice deficient in Fcγ receptors exhibited neuroprotection in our protracted degeneration model. Taken together, these data indicate the innate and humoral arm can modulate the microglial response to dopaminergic degeneration and may participate in Parkinson's disease.

Neuroinflammation

Microgliosis

Innate immunity

Adaptive immune response

Interferon-gamma

Fc receptors

Rotenone

MPTP

Parkinson's disease

Antigen Presenting Cells-Mediated Innate and Adaptive Immune Responses to Live Attenuated Edwardsiella Ictaluri Vaccines in Channel Catfish

Kordon, Adef

10 August 2018

Vaccination against intracellular pathogens requires generation of pool of memory T cells, which can respond upon infection and mediate immune responses by either killing of infected host cells or induce killing mechanisms in infected cells. T cell-inducing vaccines aim to deliver the antigen to antigen presenting cells (APCs) by presenting on MHC molecules thus bridging innate and adaptive immunity. The intracellular pathogen Edwardsiella ictaluri causes enteric septicemia of catfish (ESC), which is a devastating disease in catfish industry. E. ictaluri can survive in professional phagocytes and use them as an infection source. Two new live attenuated vaccine (LAV) strains, EiDELTAevpB and ESC-NDKL, were developed by our group. However, the role of LAVs in phagocytosis, bacterial killing, and antigen presentation is unexplored. Therefore, further research is necessary to determine immune responses in channel catfish against LAVs. The long-term goal of this project is to identify immunological APC-dependent mechanisms that underscore E. ictaluri pathogenesis to enable development of effective control strategies for ESC. The overall goal of this project is to assess the role of three professional APCs, dendritic cells (DCs), macrophages and B cells in the LAV-induced innate and adaptive immune responses in catfish. The central hypothesis is that efficacious LAV strains will enhance phagocytosis and microbial killing, and promote the generation of T cells that regulate and control protective B cell-mediated immunity. The rationale for this research is that more detailed knowledge about phenotype and function of catfish APCs will not only help gain insight into the evolution of vertebrate adaptive immune system but will provide valuable information for development and optimization of immunotherapies and vaccination protocols for aquaculture use. In this study, we first identified DC-like cells in immune-related organs of catfish and assessed their expression patterns in lymphoid organs of catfish in E. ictaluri infection. Although WT strain induces the functional inability of DC-like cells in migration and maturation, LAVs strains promote the migration and maturation of DC-like cells for antigen presentation. Two LAVs enhanced the phagocytosis and killing activity in catfish macrophages and B cells. Also, LAVs induce high expression of T cell-related genes without causing inflammation.

Antigen Presenting Cells

Edwardsiella ictaluri

Channel Catfish

Live Attenuated Vaccines

Innate Immune Responses

Adaptive Immune Responses

The Role of the Leptin Receptor on T Cells in Helicobacter Pylori Infection and Clearance in Mice

Emancipator, Douglas Steven

22 July 2008

No description available.

Biology

Biomedical Research

Immunology

Helicobacter pylori

Leptin receptor

adaptive immune response