1. Concepts of Inflammation and the Immune Response

2. Local inflammation

3. Cells that contribute to the inflammatory response

4. Mast cells signal to other cells
Tissue damage
Mast cells signal to other cells
Macrophages
White blood cells

5. Cytokines are signaling molecules
Released by cells of the immune system
Coordinate the immune response

6. Cytokines Signaling
Autocrine

7. Cytokines Signaling
2. Paracrine

8. Immunity
Purpose of inflammation and immunity is to neutralize, eliminate, or destroy organisms that invade the internal environment.
(Continued)

9. Immunity (Continued)
Immune system cells distinguish self from non-self proteins and cells, which include infected body cells, cancer cells, and organisms. This ability to recognize self versus non-self is necessary to prevent healthy body cells from being destroyed along with invaders and is known as self-tolerance.

10. Human Leukocyte Antigens
Antigens are a normal part of the person and act as antigens if they enter another person’s immune system.
These antigens specify the tissue type of a person.

12. Inflammation
Provides immediate protection against the effects of tissue injury and foreign proteins. The capability for inflammatory response is critical to health and well-being.
Causes visible symptoms and can rid the body of harmful organisms. Tissue damage may result from excessive inflammatory response.

13. CAUSES OF INFLAMMATION (ACUTE OR CHRONIC)
1. Microbial infections.
2. Hypersensitivity immune reactions.
3. Chemical substances.
4. Physical agents.
5. Necrosis.

14. Infection
Infection is usually accompanied by inflammation; however, inflammation can occur without invasion by organisms.
Inflammation does not always mean that an infection is present.

15. Sequence of Inflammatory Responses
Warmth
Redness
Swelling
Pain
Decreased function

16. Sequence of Inflammatory Responses
Stage I (vascular): change in blood vessels
Phase I: constriction
Phase II: hyperemia and edema
Stage II (cellular exudate): neutrophilia, pus
Stage III (tissue repair and replacement)

17. Processes closely linked to the inflammatatory response:
Immune reactions
Wound healing

18. 1) Immune reactions:
Cell mediated immunity T-lymphocytes
  Humoral immunity B-lymphocytes
Concept of antigen presentation (p.173) - Langerhans
cells (not to be confused with Langhans giant cells)
Cytokines (basic principles – p. 169)
- Act as messengers between inflammatory cells,
coordinating the inflammatory response.

19. 2) Wound healing
  Formation of granulation tissue and
the process of organisation).
(Organisation  formation of scar
tissue)
Role of growth factors
- only basic principles

21. Vascular endothelial growth factor
(VEGF)  stimulates proliferation of endothelial cells  granulation tissue.
Fibroblast growth factor  stimulates fibroblasts to produce collagen  fibrosis (scarring) .

22. Antibody Classification
All antibodies are immunoglobulins, also called gamma globulins.
Globulin is a protein in a globular shape.
Globular proteins provide immunity.
Resulting term is immunoglobulin.
Five antibody types are classified by size, timing, and association.

24. Acquiring Antibody-Mediated Immunity
Innate-native immunity—natural immunity
Adaptive immunity
Active immunity
Natural active immunity
Artificial active immunity
Passive immunity

28. Cell-Mediated Immunity
Helps protect the body by differentiating self from non-self cells; non-self cells most easily recognized by cell-mediated immunity are cancer cells and those self cells infected by organisms that live within host cells.
Important in preventing the development of cancer and metastasis after exposure to carcinogens.

29. Helper/Inducer T-cells
Most correct name is CD4+ (cluster of differentiation 4)
Also called OKT4 positive or Leu-3 positive because of specific antigens on the membrane surface
Helper/inducer T-cells easily recognize self cells versus non-self cells.
(Continued)

30. Helper/Inducer T-cells (Continued)
Helper/inducer T-cells act as organizers in “calling in arms“ of various squads of WBCs involved in inflammatory, antibody, and cellular defensive actions to destroy or neutralize antigens.

31. Transplant Rejection Hyperacute graft rejection Acute graft rejection
Chronic rejection
Treatment of transplant rejection
Maintenance
Rescue therapy

34. Two subpopulations of T-lymphocytes:
T-helper cells:
“Help” B-cells to differentiate into
plasma cells.
  T-suppressor cells:
Regulate (suppress) antibody production.
(T-cytotoxic cells = subtype of T-suppressor cells  can directly kill “foreign” cells e.g. tumour cells, virally-infected cells etc.)

35. T-cells have receptors on their cell surfaces that may bind to specific antigens (e.g. microbial antigens)
T-cells can only bind to antigens which have already been processed by macrophages ( = antigen-presenting function of macrophages

36. Under certain circumstances, or in certain specific diseases, this interaction of T-cells and macrophages leads to the formation of granulomas (“granulomatous chronic inflammation”).
Granulomas are small collections of epithelioid cells (transformed histiocytes).
(Histiocytes are tissue macrophages).