Biology

... Types of Tissues in the Body • Epithelial- covers body, and lines digestive system and major organs of the body • Nervous- relays messages within the body • Connective-Holds organs in place and binds different parts of the body together ...

4.1mb

... Immunoglobulin (Ig) Antibodies are found both as cell-associated receptors (BCR) and as circulating effector molecules ...

CELL MEDIATED IMMUNITY (T * CELL)

... cells,Cytotoxic cells kill infected cell and one has kind of receptor Cell-mediated immunity is an immune response that does not involve antibodies or complement but rather involves the activation of • macrophages, • natural killer cells (NK), • antigen-specific cytotoxic T-lymphocytes, and the • re ...

Medical Microbiology

... 5- Sterilization & disinfection 6- Antimicrobial agents (antibiotics &chemotherapeutics) Mechanism of action - Antibiotic resistance - Principles of antibiotic therapy 7- Bacterial pathogenesis (including virulence factors) IMMUNOLOGY A- general immunology: 1- Introduction to immunology 2- Cells & o ...

PERSISTENT BLOOD-BORNE INFECTIONS AND COMPLEX

... Corticosteroids and other immunosuppressive drugs are frequently administered to cats and dogs for the treatment of autoimmune or immune-mediated diseases. It is well recognized that the administration of corticosteroids or other immunosuppressive drugs can have devastating effects in animals with s ...

Cardiovascular System

... 3. Antimicrobial proteins (a type of chemical defense) a) Interferon-3 kinds; stimulates the body cells to produce antiviral proteins. b) Complement - forms holes in plasma membranes of microbes, stimulates the release of histamine, and promotes phagocytosis. 4. Phagocytosis - Primarily by neutrophi ...

svhs advanced biology - Sonoma Valley High School

... A) Be able to describe the origin of lymph: its makeup, and the role it plays in the body. (P.421) B) Be able to explain the function of lymph nodes found in parts of the body. (P. 421-425) C) Be able to describe several mechanisms of innate immunity against pathogens. (P. 425-428) D) Be able to des ...

Pathophysiology of Type 1 Diabetes

... ZnT8A, and IA-2β autoantibodies (IA-2βA) • IAA and GADA prevalence and levels have not changed • Increases in IA-2A, ZnT8A, and IA-2βA at diagnosis during a period of rising incidence suggest that the process leading to type 1 diabetes is now characterized by a more intense humoral autoimmune respon ...

Unit 1: Lesson 3 – The Adaptive Immune System • Lesson questions

... A typical example is when an antibody binds to a protein on the surface of a pathogen, so that it cannot bind to and infect a cell. Proliferation – The process of rapid multiplication The proliferation of B cells following presentation of an antigen by T cells enables a rapid, specific response. Pro ...

Acting Out the Immune Response

cell Destruction

... ZnT8A, and IA-2β autoantibodies (IA-2βA) • IAA and GADA prevalence and levels have not changed • Increases in IA-2A, ZnT8A, and IA-2βA at diagnosis during a period of rising incidence suggest that the process leading to type 1 diabetes is now characterized by a more intense humoral autoimmune respon ...

Chap 43 Immune Syst

... viruses, toxins; triggers the complement reaction Most from cells with mucous membranes; prevents attachment by bacteria and viruses; in tears, saliva, sweat, and colostrum (1st 3 days of milk from breasts) Most are on exterior of B cells; probably is the Ag-receptor that initiates B cell differenti ...

Transcripts

... or deleted cause B cell deficiency. Again the most common one is X linked Agammaglobulinemia. Because it is X linked it is seen in little boys, because they only have one X chromosome. If there is a gene that is defective for the immune system in their X chromosome they have no back up. Usually the ...

Chapter 43: Immune System

... Pharmaceutical companies now mass-produce interferons by recombinant DNA technology for treating certain viral infections, such as hepatitis C. The complement system consists of roughly 30 proteins in blood plasma. These proteins circulate in an inactive state and are activated by substances on the ...

Simulating immunity

... 7. What did the tape player on some B-cell labels represent? 8. Which cell types orchestrate the immune response? 9. How many types of viruses can one antibody disable? 10. Why do we keep immunity for a long time after an infection is over? 11. What stopped the immune activity? 12. What if the B-cel ...

Alpha-1 Antitrypsin (A1AT) - American Proficiency Institute

... wheezing, and crackles. Not only does the smoke increase inflammation, but it significantly deactivates A1AT, reducing its inhibitory capabilities. Most APRs are produced in the liver in response to cytokines. Cytokines are signaling substances produced during the immune response by monocytes, macro ...

type_III_and_IV_HS_r..

... 1.) formation of antigen-antibody complexes in circulation - initiated by introduction of an antigen, a protein, and interaction with immunocompetent cells formation of antibodies which are secreted into blood  they react with antigen still present in the circulation to form antigen-antibody compl ...

PPoint - Dr. Stuart White

...  The systemic immune system consists of circulating lymphocytes as B cells and T cells in search of their target antigens  Antigens entering through a mucosal surface activate lymphocytes waiting in the mucosa-associated lymphoid tissues (MALT) that transport the antigens to the Peyer’s patches wh ...

Bacterial Pathogenesis I

... difficult for pathogens to be present. This is another benefit that results from having normal flora. d. Normal flora has spent more time learning how to survive in the body than any other bacteria. e. Once a normal flora has entered the body, it remains in the body for a long time. (Example: Strep ...

Lymphatic System - Downey Unified School District

... ● Helper T (TH1) cell: activates cell-mediated immunity: macrophages, CD8 T cells, and natural killer cells ● Helper T (TH2) cell: stimulates production of eosinophils, IgM and IgE ...

Designing a dendritic cell–based therapy for

... with doxorubicin¹ or cisplatin² improves survival in selected patients compared to best supportive care. Even so, TACE remains palliative and disease progression is inevitable, such that combination with novel therapies is attractive. Since TACE may liberate an abundance of tumour antigens it may le ...

Chapter 39

... molecules of a different type of complement  then activates some of a different type, etc.  Cascading reactions yield high concentrations of activated complement in localized tissue region ...

What is the importance of the immunological synapse? Daniel M. Davis

... The immunological synapse (IS) has proved to be a stimulating concept, particularly in provoking discussion on the similarity of intercellular communication controlling disparate biological processes. Recent studies have clarified some of the underlying molecular mechanisms and functions of the IS. ...

The predominant surface glycoproteins of thymocytes and

... to lentil tectin and are identified by Coomassie Blue staining after sodium dodecyI sulphate polacrylamide-gel electrophoresis (9). LSGP does not bind to lentil tectin, but most cell surface glycoproteins do, as judged by the fact that most of the proteins tabelled with t25I by t h e l a c t o p e r ...

Chapter 27

... • Memory B cells circulate through the blood and lymph for long periods of time (sometimes the entire lifetime). • It is estimated that human B cells can make between 106 and 109 different antibodies. ...

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Immunosuppressive drug

For a list of immunosuppressive drugs, see the transplant rejection page.Immunosuppressive drugs or immunosuppressive agents or antirejection medications are drugs that inhibit or prevent activity of the immune system. They are used in immunosuppressive therapy to: Prevent the rejection of transplanted organs and tissues (e.g., bone marrow, heart, kidney, liver) Treat autoimmune diseases or diseases that are most likely of autoimmune origin (e.g., rheumatoid arthritis, multiple sclerosis, myasthenia gravis, systemic lupus erythematosus, sarcoidosis, focal segmental glomerulosclerosis, Crohn's disease, Behcet's Disease, pemphigus, and ulcerative colitis). Treat some other non-autoimmune inflammatory diseases (e.g., long term allergic asthma control).A common side-effect of many immunosuppressive drugs is immunodeficiency, because the majority of them act non-selectively, resulting in increased susceptibility to infections and decreased cancer immunosurveillance. There are also other side-effects, such as hypertension, dyslipidemia, hyperglycemia, peptic ulcers, lipodystrophy, moon face, liver and kidney injury. The immunosuppressive drugs also interact with other medicines and affect their metabolism and action. Actual or suspected immunosuppressive agents can be evaluated in terms of their effects on lymphocyte subpopulations in tissues using immunohistochemistry.Immunosuppressive drugs can be classified into five groups: glucocorticoids cytostatics antibodies drugs acting on immunophilins other drugs.

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Immunosuppressive drug