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1 General anatomy of the IMMUNE SYSTEM
Transcript

1

General anatomy of

the IMMUNE SYSTEM

2ANATOMY OF THE IMMUNE SYSTEM

• The immune system is localized in several parts of the body– immune cells

develop in the primary organs - bone marrow and thymus (yellow)

– immune responses occur in the secondary organs (blue)

3ANATOMY OF THE IMMUNE SYSTEM• Thymus – glandular organ near the heart – where T cells learn

their jobs

• Bone marrow – blood-producing tissue located inside certain bones– blood stem cells give rise to all of the different types of blood cells

• Spleen – serves as a filter for the blood– removes old and damaged red blood cells – removes infectious agents and uses them to activate cells called

lymphocytes

• Lymph nodes – small organs that filter out dead cells, antigens, and other “stuff” to present to lymphocytes

• Lymphatic vessels – collect fluid (lymph) that has “leaked” out from the blood into the tissues and returns it to circulation

4

PASSIVE IMMUNITY

Antibodies (Y) are also found in breast milk.

The antibodies received through passive immunity last only several weeks.

While your immune system was developing, you were protected by immune defenses called antibodies. These antibodies traveled across the placenta from the maternal blood to the fetal blood.

5

YOUR ACTIVE IMMUNE DEFENSES

Innate Immunity- invariant (generalized)- early, limited specificity- the first line of defense

Adaptive Immunity- variable (custom)- later, highly specific- ‘‘remembers’’ infection

6

INNATE IMMUNITY

Innate immunity consists of:

• Barriers

• Cellular response– phagocytosis– inflammatory reaction– NK (natural killer) and mast cells

• Soluble factors

When you were born, you brought with you several mechanisms to prevent illness. This type of immunity is also called nonspecific immunity.

7

INNATE IMMUNITY Barriers

• Physical

– skin– hair– mucous

• Chemical

– sweat– tears– saliva– stomach acid– urine

8

INNATE IMMUNITY Cellular response

• nonspecific - the same response works against many pathogens

• this type of response is the same no matter how often it is triggered

• the types of cells involved are macrophages, neutrophils, natural killer cells, and mast cells

• a soluble factor, complement, is also involved

9

Macrophages engulf pathogens and dead cell remains

Neutrophils release chemicals that kill nearby bacteria

• pus = neutrophils, tissue cells and dead pathogens

Phagocytic cells include:

10

Phagocyte migration

Neutrophils and macrophages recognize chemicals produced by bacteria in a cut or scratch and migrate "toward the smell". Here, neutrophils were placed in a gradient of a chemical that is produced by some bacteria. The cells charge out like a "posse" after the bad guys.

CELLS alive!

11

Macrophages

• WBCs that ingest bacteria, viruses, dead cells, dust

• most circulate in the blood, lymph and extracellular fluid

• they are attracted to the site of infection by chemicals given off by dying cells

• after ingesting a foreign invader, they “wear” pieces of it called antigens on their cell membrane receptors – this tells other types of immune system cells what to look for

12

Macrophage and E. coli

©Dennis Kunkel Microscopy, Inc., www.DennisKunkel.com

13

Macrophage ingesting yeast

This human macrophage, like the neutrophil, is a professional "phagocyte" or eating cell (phago = "eating", cyte = "cell"). Here, it envelops cells of a yeast, Candida albicans. After ingestion, the white cell must kill the organisms by some means, such as the oxidative burst.

CELLS alive!

14

Neutrophils

• WBCs – are phagocytic, like macrophages

• neutrophils also release toxic chemicals that destroy everything in the area, including the neutrophils themselves

15

Neutrophil phagocytosing S. pyogenes, the cause of strep throat

Human neutrophils are WBCs that arrive quickly at the site of a bacterial infection and whose primary function is to eat and kill bacteria. This neutrophil ingesting Streptococcus pyogenes was imaged in gray scale with phase contrast optics and colorized.

CELLS alive!

16

Neutrophil killing yeast

One way that neutrophils kill is by producing an anti-bacterial compound called “superoxide anion“, a process called oxidative burst. Here, an amoeboid human neutrophil senses, moves toward and ingests an ovoid yeast. In the next two panels, oxidation can be seen by using a dye, and is colorized here.

YEAST

NEUTROPHIL

CELLS alive!

17

Complement

• complement is not a cell but a group of proteins

• these proteins circulate in the blood

• complement plays a role in inflammatory responses of both the innate and adaptive immune responses

INNATE IMMUNITY Cellular response

18

Complement

• complement is not a cell but a group of proteins

• these proteins circulate in the blood– help to recruit phagocytes to site of inflammation and

activate them– bind to receptors on phagocytes, helping to remove agent of

infection– form pores in the invader or infected cell’s membrane (like

the NKs do) – activate mast cells to release histamine and other factors

• complement plays a role in inflammatory responses of both the innate and adaptive immune responses

INNATE IMMUNITY Cellular response

19

Inflammatory response

Step 1. Circulation to the site increases tissue warm, red and swollen

Step 2. WBCs leak into tissues phagocytes engulf and destroy bacteria

• chemical and cell response to injury or localized infection

• eliminates the source of infection

• promotes wound healing

INNATE IMMUNITY Cellular response

20

Inflammatory response (cont’d)

The release of histamine and prostaglandin causes local vessel dilation resulting in:

• more WBCs to site

• increased blood flow redness and warmth

• increased capillary permeability

• phagocytes move out of vessels into intracellular fluid (ICF)

• edema (swelling) due to fluids seeping from capillaries

INNATE IMMUNITY Cellular response

21

Inflammatory response (cont’d)

POSITIVE

• indicate a reaction to infection

• stimulate phagocytosis

• slow bacterial growth

– increases body temperature beyond the tolerance of some bacteria

– decreases blood iron levels

NEGATIVE

• extreme heat enzyme denaturation and interruption of normal biochemical reactions

> 39° C (103°F) is dangerous

> 41°C (105°F) could be fatal and requires medical attention

Fevers have both positive and negative effects on infection and bodily functions

INNATE IMMUNITY Cellular response

22

Natural killer cells (NK cells)

• instead of attacking the invaders, they attack the body’s own cells that have become infected by viruses

• they also attack potential cancer cells, often before they form tumors

• they bind to cells using an antibody “bridge”, then kill it by secreting a chemical (perforin) that makes holes in the cell membrane of the target cell. With enough holes, the cell will die, because water rushing inside the cell will induce osmotic swelling, and an influx of calcium may trigger apoptosis.

23

Mast cells

• are found in tissues like the skin, near blood vessels.

• are activated after antigen binds to a specific type of antibody called IgE that is attached to receptors on the mast cell.

• activated mast cells release substances that contribute to inflammation, such as histamine.

• mast cells are important in allergic responses but are also part of the innate immune response, helping to protect from infection.

24

INNATE IMMUNITY – Soluble factors

• Interferon– a chemical (cytokine) produced by virus-infected

cells that contributes to their death by apoptosis

• Acute phase proteins – proteins in the plasma that increase during

infection and inflammation– can be used diagnostically to give an indication of

acute inflammation

25

Apoptosis or cell death

Human neutrophils released into the blood "commit suicide“ after only 1 day. A neutrophil (left) undergoes apoptosis, a series of changes including violent membrane blebbing and fragmentation of DNA. Apoptotic cells break into smaller pieces called apoptotic bodies that other body cells recognize and eat.

CELLS alive!

26

• Your mom’s antibodies were effective for just a short time at birth, but your innate immune system can be activated quickly. It is always your first line of defense during an infection, but it can’t always eliminate the germ.

• When this happens, your body initiates a focused attack against the specific pathogen that is causing the infection. This attack may lead to long-term protection against that pathogen.

• This type of immunity is called adaptive immunity, the customized second line of defense.

27

YOUR ACTIVE IMMUNE DEFENSES

Innate Immunity- invariant (generalized)- early, limited specificity- the first line of defense

Adaptive Immunity- variable (custom)- later, highly specific- ‘‘remembers’’ infection

1. Barriers - skin, tears

2. Phagocytes - neutrophils, macrophages3. NK cells and mast cells4. Complement and other proteins

28

This immunology curriculum and integrated laboratory modules were created by teachers and scientists working together through a grant from the National Science Foundation to the Nanobiotechnology Center in collaboration with the Cornell Institute for Biology Teachers, which is funded by the Howard Hughes Medical Institute.

Collaborators for this project:

Harriet Beck, Wellsville Central School

Jim Blankenship, Cornell Institute for Biology Teachers

Rita Calvo, Cornell University

Jerrie Gavalchin, Cornell University

Mary Kay Hickey, Dryden High School

Susan Oliver, Dundee High School

Jeanne Raish, Avoca Central School

Anna Waldron, Nanobiotechnology CenterThis material is based upon work supported in part by the STC Program of the National Science Foundation under Agreement No. ECS-9876771. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

29

Permission to use images were secured by the NBTC from various sources:

KUBY IMMUNOLOGY by Richard A. Golsby and Thomas J. Kindt and Barbara A. Osborne. © 1992, 1994, 1997, 2000 by W.H. Freeman and Company. Used with permission.

© 2001 From Immunobiology: The Immune System in Health and Disease, Fifth edition by Charles A. Janeway, Paul Travers, Mark Walport and Mark Shlomchik.  Reproduced by permission of Routledge, Inc., part of The Taylor & Francis Group.

© 2000 From The Immune System by Peter Parham.  Reproduced by permission of Routledge, Inc., part of The Taylor & Francis Group.

Dennis Kunkel Microscopy, Inc., www.DennisKunkel.com

CELLS alive! www.cellsalive.com

Mike Clark, www.path.cam.ac.uk/~mrc7/


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