Lecture 7

Question 1

Pathogenicity

Answer 1

The ability to cause disease

Question 2

Virulence

Answer 2

The extent of pathogenicity

Question 3

The Portals of Entry

Answer 3

Mucous membranes, skin, parenteral route (deposition directly into tissues beneath the skin and mucous membranes)

Question 4

The portals of exit

Answer 4

Respiratory tract (coughing,sneezing), Gastrointestinal tract (feces, saliva) , Genitourinary tract (urine, vaginal/urethral secretions) , Skin (exfoliation) , Blood (biting arthropods, needles/syringes)

Question 5

ID50

Answer 5

Infectious dose for 50% of the population

Question 6

LD50

Answer 6

Lethal dose of a toxin for 50% of the population

Question 7

Adherence

Answer 7

Adhesions/ligands bind to receptors on host cells

Question 8

Coagulase

Answer 8

Coagulate blood

Question 9

Kinases

Answer 9

Digest fibrin clots

Question 10

Hyaluronidasae

Answer 10

Hydrolyses hyaluronic acid

Question 11

Collagenase

Answer 11

Hydrolyses collagen

Question 12

IgA proteases

Answer 12

Destroy IgA antibodies

Question 13

Siderophores

Answer 13

Take iron from host iron-binding proteins

Question 14

Antigenic variation

Answer 14

Alter surface proteins

Question 15

Toxin

Answer 15

Substance that contributes to pathogenicity

Question 16

Toxigenicity

Answer 16

Ability to produce a toxin

Question 17

Toxemia

Answer 17

Presence of toxin in host’s blood

Question 18

Toxoid

Answer 18

Inactivated toxin used in a vaccine

Question 19

Antitoxin

Answer 19

Antibodies against a specific toxin

Question 20

Exotoxins

Answer 20

Are proteins produced inside mostly gram + bacteria as part of their growth and metabolism. They are secreted and released following lysis of the cell. They are neutralized by antitoxin and have a low LD50

Question 21

A-B Toxins (Type III toxin)

Answer 21

These are exotoxins that have A (active) and B (binding) components. The B part binds to a host cell receptor and enters the cell. The A part alters cell function by inhibiting protein synthesis.
Ex = Corynebacterium Diphtheriae, Clostridium botulinum, C. Tetani, Vibrio cholerae

Question 22

Superantigens (Type I toxins)

Answer 22

Cause an intense immune response due to release of cytokines from host cells CYTOKINE STORM Symptoms include fever, nausea, vomiting, diarrhea, shock, and death
Ex = Staphylococcus aureus

Question 23

Membrane-disrupting (Type II Toxins)

Answer 23

Lyse host cells by making protein channels in the plasma membranes and disrupting the phospholipid bilayer
Ex = Streptococcus pyogenes

Question 24

Endotoxin

Answer 24

Part of the LPS of the outer membrane (lipid A) of GRAM NEGATIVE bacteria. They are released when the bacteria dies and the cell wall breaks apart. Induce fever, are not neutralized by antitoxin, large LD50

Question 25

Steps leading to Fever

Answer 25

1. Macrophage ingests a gram neg bacterium
2. The bacterium is degraded in a vacuole, releasing endotoxins that induce the macrophage to produce interleukin-1 (IL-1)
3. IL-1 is released into the bloodstream through which it travels to the hypothalamus
4. IL-1 induces hypothalamus to produce prostaglandins which reset the body’s “thermostat” to a higher temp than normal, producing the fever

Question 26

Pathogenic properties of Fungi

Answer 26

Fungal waste products may cause symptoms , chronic infections provoke an allergic response

Question 27

Pathogenic properties of protozoa

Answer 27

Protozoan waste products cause symptoms. Avoid host defenses by growing in phagocytes and by antigenic variation

Question 28

Toxins produced by algae

Answer 28

Responsible for various types of shellfish poisoning.

Question 29

Hypersensitivity reactions

Answer 29

Response to antigens (allergens) that leads to damage to self tissues. They require an initial sensitizing dose

Question 30

Type I Hypersensitivity (Anaphylactic)

Answer 30

Involves IgE antibodies. Localized response causes hives (wheal/flare) or asthma (spasms of bronchial tubes) from contact with or inhaled antigens
Systemic Response = antigen travels through the bloodstream throughout the body causing widespread vasodilation and in severe cases shock

Question 31

Type II Hypersensitivity reactions (Cytotoxic)

Answer 31

Involves IgG or IgM antibodies and complement. Complement activation causes cell lysis or damage by macrophages

Question 32

Hemolytic disease of the newborn

Answer 32

Caused when an Rh - mother carries an Rh + child. If she is exposed to the fetal blood during childbirth, she will develop Rh antibodies. If she carries another Rh + child, her antibodies can cross the placenta and agglutinate the fetal blood

Question 33

Type III Hypersensitivity (Immune Complex)

Answer 33

IgG antibodies and antigens form complexes that lodge in basement membranes. This activates complement and attracts inflammatory cells such as neutrophils. Enzymes released from degranulation of inflammatory cells cause damage to endothelial cells of the basement membrane of blood vessel

Question 34

Type IV Hypersensitivity (Cell-mediated)

Answer 34

Delayed type due to Td cells. Cytokines from Td cells attract macrophages and initiate tissue damage
Ex = poison ivy

Question 35

Autoimmune Disease

Answer 35

Loss of self tolerance. Clonal deletion during fetal development ensures self-tolerance. If autoimmune disease is present from birth it is a Primary AD, all others are Secondary ADs.

Question 36

Histocompatibility antigens

Answer 36

Self antigens on all cells of the body

Question 37

MHC

Answer 37

Major histocompatibility complex, genes encoding the histocompatibility antigens

Question 38

HLA

Answer 38

Human Leukocyte Antigen complex, MHC genes in humans
specific HLAs can make you more likely to develop an autoimmune disease

Question 39

Transplant Reactions

Answer 39

Transplants may be attacked by T cells, macrophages, and complement fixing antibodies. Transplants to “privileged sites” like cartilage of the ear or the cornea (no blood supply) do not cause an immune response.

Question 40

Autograft

Answer 40

Use of one’s own tissue for a transplant

Question 41

Isograft

Answer 41

Use of an identical twin’s tissue for transplant

Question 42

Allograft

Answer 42

Use of tissue from another person for transplant

Question 43

Xenograft

Answer 43

Use of non-human tissue
Ex = animal tissue , pig heart transplant

Question 44

Graft-versus-host disease

Answer 44

Transplanted bone marrow that contains immunocompetent cells can attack the cells of the recipient

Question 45

Prevention of immune response to transplant

Answer 45

Immunosuppression helps prevent an unwanted response, suppress IL-2

Question 46

Congenital Immunodeficiency

Answer 46

Due to defective or missing genes from birth.
SCID, T and B lymphocytes fail to develop in the bone marrow.
Selective IgA immunodeficiency

Question 47

Acquired Immunodeficiency

Answer 47

develop during one’s life due to drugs, cancers, infections.
Ex of natural cause = HIV , kills off the T cells
Artificial = immunosuppression drugs

Question 48

Cancer

Answer 48

Cancer cells possess tumor specific antigens
Tc cells recognize and Lyse cancer cells
Cancer cells may lack tumor antigens or kill Tc cells

Question 49

Immunotherapy for Cancer

Answer 49

Tumor necrosis factor, IL-2, and interferons may kill cancer cells
Immunotoxins link poisons with a monoclonal antibody directed at a tumor antigen
Vaccines that contain tumor-specific antigens can be administered