Physiology of the Blood III. White Blood Cells and the Immune

... ANTIGEN: large molecules that elicit a specific immune response Epitop: small part of the antigen that directly binds with the antibody ANTIBODY: immunoglobulin that specifically reacts to the antigen ...

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034

... II. State whether the following statements are true or false: ...

Immune and Autoimmune Responses to cytosolic

... The presence of DNA and aberrant RNA in the cytoplasm is a danger signal that alerts the host immune system to eliminate microbial infections, but inappropriate activation of these pathways can also lead to autoimmune diseases. In this seminar, I will first summarize our work on the biochemical diss ...

Immune system

... Inhibitory receptors - recognize MHC gpI  Imunoglobulin family - KIR (killer cell immunoglobulin like receptors)  C-type lektin family - eg CD94/NKG2 ...

CD46 - role in multiple sclerosis

Chapter One Concept Checks

... (d) killer T cells, (e) suppressor T cells, (f) memory cells. 1. This subgroup targets viral infections within the cells by directly destroying the antigens. ____________ 2. A type of leukocyte that surrounds identifiable antigens and destroys them. ____________ 3. Highly specific molecules that act ...

Immunity Questions

... !. What are pathogens? 2. What are some ways that disease can be transmitted? 3. What are some examples of disease that can be transmitted by vectors? 4. What system works to destroy pathogens? What is an endemic disease? 5. What can antibiotics do? 6. Describe the 3 lines of defense. 7. What is an ...

I. Student misconceptions

... natural selection has favored this complicated mechanism. Student Misconceptions for Campbell Biology, 9th Edition, © Pearson Education, Inc. ...

Unit 2.2.2 – Health and Disease Immunity

... T-lymphocytes recognise foreign antigens and help in antibody production. Others bind to the pathogen and present the antigen to the B-lymphocytes. ...

File

Immunity - Misericordia University

... lymphocytes that can bind that target (antigen) • Antigens (Ag) – any large substance not normally found in the body; these illicit an immune response (immunogenic and immuno-reactive) • Haptens are small molecules that can trigger an immune response only if bound to larger molecules (like: pollen, ...

Jurkat-TIM3 Cell Line

... cells/mL. Do not allow the cell density to exceed 3×106 cells/mL. Incubation: 37℃ With 5% CO2 Storage: Frozen in liquid nitrogen with 70% 1640 medium, 20% FBS and 10% DMSO Doubling Time: ~24 hours Biosafety level: 1 References: N/A ...

APO-4: Microbes and you: who will win the war

... _____ Antigen breakdown products bind major histocompatibility complexprotein and are "displayed" on B cell surface. _____ T cell secretes cytokines which stimulate B cell. _____ Antigen-antibody complex is internalized and processed. _____ Helper T cell binds antigen via its T-cell receptor. _____ ...

Dr, McKenna`s Slides

SELF DEFENSE SYSTEMS

... (derived from stem cells in anterior kidney of fish) – B-cells: Responsible for producing antibody – T-cells: Cytotoxic functions as well as helper functions for antibody production ...

Positions open The Department of Immunology serves as the focal

... context of infection, malignancy, autoimmunity and allergic disease. Particular focus is on how various CD4+ T cell subsets and specific cytokines modulate immunity using innovative tools and animal models to track immune cell function in vivo. Candidates with previous experience in mouse models or ...

RhoGTPases — NODes for effector-triggered immunity in

... pathogenic potential of microbes and provides evidence that one strategy involves NOD1, which monitors the activation state of the RhoGTPases that are targeted by virulence effectors produced by pathogenic microbes. Interestingly, their findings reveal striking similarities with previous observation ...

part-3-and-4-immune-system-second-line-of

... o This binding either ____________ pathogen from ____________ a body cell or ____________ the pathogen for ________________ More B cells are produced to help with anti_________ production and attachment Some _______________ will remain in body to protect against further attack (___________) ________ ...

Ch06-Diseases of Immunity

... • Differentiate between the concepts of “Innate” and “Adaptive” immunity • Visually recognize and understand the basic roles of lymphocytes, macrophages, dendritic cells, NK cells • Understand the roles of the major cytokines in immunity • Differentiate and give examples of the four (4) different ty ...

such as bacteria and viruses. Platelets

... i. Antiviral drugs can shorten a viral infection but each drug works on only one type of virus. Scientists have made antiviral drugs to treat HIV, Hepatitis B and C, and influenza (flu). ii. Vaccines can prevent infection but are not useful once infected. iii. Antibiotics DO NOT work for viral infec ...

Immunology Notes - Metcalfe County Schools

... • Using Lymphocytes- killing machines • 1. B Lymphocytes- kill by producing antibodies • 2. T Lymphocytes- kill by using chemicals. – A. Cytotoxic T cells- use chemicals to kill – B. Helper T cells- turn on B cells and Cytotoxic T cells – AIDS infects/destroys Helper T cells ...

Immune system - Sonoma Valley High School

... • An allergic reaction that causes a chronic respiratory disease. • Smooth muscles that line the airways contract, thick mucus clogs the smaller passageways • #1 cause of serious illness in children. ...

BSC 361

... Inflammation-host immune response that is includes increased localized temperature, increased permeability of the capillaries, increased blood flow. Leukocyte-any "white blood cell" Lymphocytes-T-cells and B-cells PMN's=polymorphonuclear luekocytes-includes neutrophils, eosinophils and basophils Mon ...

Immune System

... antibodies stick out of B cell membranes while others are released directly into the blood stream Each antibody can hold onto more than one pathogen, causing them to clump together, which makes them easier to engulf They signal the complement system or phagocytes to destroy the pathogens You need ...

Lecture 5 T Cell-Mediated Immunity

... aqueous phase containing antigen ...

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Molecular mimicry

Molecular mimicry is defined as the theoretical possibility that sequence similarities between foreign and self-peptides are sufficient to result in the cross-activation of autoreactive T or B cells by pathogen-derived peptides. Despite the promiscuity of several peptide sequences which can be both foreign and self in nature, a single antibody or TCR (T cell receptor) can be activated by even a few crucial residues which stresses the importance of structural homology in the theory of molecular mimicry. Upon the activation of B or T cells, it is believed that these ""peptide mimic"" specific T or B cells can cross-react with self-epitopes, thus leading to tissue pathology (autoimmunity). Molecular mimicry is a phenomenon that has been just recently discovered as one of several ways in which autoimmunity can be evoked. A molecular mimicking event is, however, more than an epiphenomenon despite its low statistical probability of occurring and these events have serious implications in the onset of many human autoimmune disorders. In the past decade the study of autoimmunity, the failure to recognize self antigens as ""self,"" has grown immensely. Autoimmunity is a result of a loss of immunological tolerance, the ability for an individual to discriminate between self and non-self. Growth in the field of autoimmunity has resulted in more and more frequent diagnosis of autoimmune diseases. Consequently, recent data show that autoimmune diseases affect approximately 1 in 31 people within the general population. Growth has also led to a greater characterization of what autoimmunity is and how it can be studied and treated. With an increased amount of research, there has been tremendous growth in the study of the several different ways in which autoimmunity can occur, one of which is molecular mimicry. The mechanism by which pathogens have evolved, or obtained by chance, similar amino acid sequences or the homologous three-dimensional crystal structure of immunodominant epitopes remains a mystery.

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Molecular mimicry