PowerPoint Presentation - Atypical Cutaneous Leishmaniasis

... Location of B Cell Activation Antigen activated B cells remain in T cell zones of LN. Maximize contact of B cells with T cells. ...

Chapter 14 - Dr. Jennifer Capers

... Receiving both inhibitory and activating signals ...

THE PEARLS OF WISDOM - OSW

... B cells (mature in bone marrow, produce antibodies and part of antibody-mediated immunity. T cells(mature in Thymus, coordinate entire immune response and eliminate viruses hiding in infected cells, Attack and destroy, Responsible for cell mediated (cellular) immunity. ...

Hypersensitivity Reaction Types

... The adaptive immune response allows the body to protect itself from a diverse set of pathogens. Key orchestrators of the adaptive immune response are T cells which recognize antigen through interactions between their T cell receptor (TCR) and antigen presenting cells. The TCR intracellular signaling ...

finals_study_guide_2007_hazbun

Intro to Immune System Chpt. 1

... Two Major subsets, TH (CD4) and TC (CD8) Third type TS not as clear Mature T cell expresses TCR TCR cannot recognize antigen on its own MHC I (all nucleated cells) or MHC II (APCs) is required • TH cells secrete cytokines • TC less cytokines, more cytotoxic (virus and tumor survailance) ...

Specific Resistance = Immunity

... 1) They bind to infected target host cells (typically due to virus or intracellular bacterium) expressing the antigen-MHC via Tc cell receptor. They also bind to cells with non-self MHC (e.g. tranplants; tumor cells). 2) Binding stimulates secretion of extracellular enzymes (perforins) to degrade th ...

Porgador COBRE seminar 082813 (PDF)

... The matter of the pathogen- and tumor-associated ligands recognized by the NCRs has been a subject of intense research ever since their identification more than a decade ago. Expression patterns recognized by NCRs include pathogen-derived, pathogen-induced and tumor-associated cellular "self" ligand ...

Immunity and Infection Sexually Transmitted Diseases`

... coat is made, genes are inserted ...

Typical violations of immunobiological supervision 1. The main

... Typical violations of immunobiological supervision 1. The main target of HIV are: a) lymphocytes; b) T-killer lymphocytes; + c) T-helper lymphocytes; d) NK-cells. 2. Specify the correct statement: a) receptor for the HIV virus infection is a molecule of CD4; b) when HIV infection population of T-hel ...

Immune Practice Test

... kill infected cells. b) kill pathogen. c) stop the pathogen from spreading. d) create immune memory. e) create antibodies a) ...

Immunity and Infection Sexually Transmitted Diseases`

... New protein coat is made, genes are inserted ...

Checkpoints in the development of thymic cortical epithelial cells

... tissues within the body are also produced. Under normal conditions these are kept in check by “regulatory” cells, however if the balance of “autoimmune” and regulatory cells is altered, it has the potential to trigger auto-immune diseases, such as rheumatoid arthritis and diabetes. Using mouse model ...

"Autoimmune Disease: Pathogenesis".

Edward Jenner, 1796 - University of California, Los Angeles

... diversity in ligand recognition is coupled to a common effector mechanism (Edelman and Porter Nobel Prize 1972 for their discoveries concerning the chemical structure of antibodies 1959) ...

Antigens

... A certain amount of chemical complexity is required, for example, amino acid homopolymers are less immunogenic than heteropolymers containing two or three different amino acids. ...

Immune Systm.graffle

... The ability of the body to defend itself against pathogens or poisons depends on the immune system. The T helper cells have the ability to recognize antigens (foreign substance). Once this is done, other cells (B cells) must make special molecules out of protein that attach to the antigen. These spe ...

TOPIC: Immunity AIM: How does the immune system protect the

The Generation of Diversity (GOD): How to Ensure

... The T cell receptor heterodimer comprises two transmembrane glycoproteins, the alpha and beta chains. There are two domains in the external part of each chain and these resemble immunoglobulin variable and constant regions. There are sugar chains on each domain. There is a short sequence similar to ...

Tregs

Immunity Review

... 4. What are antibodies and why are they so limited in their effectiveness against infectious agents? 5. What are allergies? 6. What are the major differences between the cellular and humoral immune responses? 7. How has the immune system been exploited for diagnostic work? 8. Why is fever beneficia ...

Ocular immunopathology

... mechanisms modulate immune responses in the eye Antigens injected into the eye can induce tolerance Autoimmune disease directed at the eye shares many common features with other organ specific autoimmune diseases ...

Systemic Lupus Erythematosus

... Characterized by periods of increased disease activity (“flares”) ...

Immune System

... a. Secreted by virus-infected cells b. Stimulates non-infected cells to make proteins that block viral protein synthesis c. Slows infection to allow specific defenses to ...

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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