blood and the immune system

Question 1

What makes up the Innate Immune System?

Answer 1

• 1st line of defense (physical & chemical surface barriers)
• 2nd line of defense (internal cellular & chemical defense)

Question 2

What does the Humoral Theory state?

Answer 2

• the humors are blood, phlegm, black bile and yellow bile
• an imbalance in these humors causes disease

Question 3

What did Galen do?

Answer 3

• formalized the relationship between humoral medicine and Greek natural philosophy
• the four humors are made up of qualities (hot, cold, dry, wet
• body humors and physical world elements shared a common qualitative nature

Question 4

What is the 1st line of defense?

Answer 4

physical & chemical surface barriers

Question 5

What is microcosm?

Answer 5

little world of human body

Question 6

What is the 2nd line of defense?

Answer 6

internal cellular & chemical defense

Question 7

What is macrocosm?

Answer 7

greater world

Question 8

What was the solution to restore health balance before the 17th century?

Answer 8

1. Lifestyle - diet and exercise
2. medication - herbs
   * opposites cure opposites - cold remedy cures hot illness
   * illness was seen as internal disorder of the body, not as the result of a specific agent like bacteria

Question 9

What makes up the Adaptive Immune System?

Answer 9

• 3rd line of defense: (immune response – if pathogen survives nonspecific, internal defenses)

Question 10

What is the 3rd line of defense?

Answer 10

immune response (if pathogen survives
nonspecific, internal defenses))

Question 11

What was aristotelian, qualitative, natural philosophy replaced with after the late 17th century?

Answer 11

mechanical, chemical mathematical vision of the world and body (Galileo, Descartes, Newton, Boyle)

Question 12

What is Leukopoiesis?

Answer 12

Uncommitted stem cells in bone marrow also give rise to the
progenitor cells for the remaining blood cells & platelets…

• Platelets: develop to the megakaryocyte stage in the bone
  marrow, & are released as platelets in the circulation
• Neutrophils, monocytes, basophils: progenitor cells give rise
  to these cells which are found in circulation
• Lymphocytes: derived from their own lineage of lymphocyte
  stem cells in the bone marrow, which give rise to
  lymphocytes in the circulation

Question 13

What species was the first recorded blood transfusion between?

Answer 13

dog -> dog

Question 14

Neutrophils, Eosinophils and Basophils are a type of (1), which are all types of (2).

Answer 14

1. Granulocytes
2. Leukocytes

Question 15

Which species was used for the first human blood transfusion

Answer 15

lamb

Question 16

What years were the first successful human blood transplants?

Answer 16

1800-1900s

Question 17

What are the three functions of the circulatory system?

Answer 17

1. Transportation of substances essential for cellular metabolism (respiratory, nutritive, excretory)
2. Regulation (hormonal and temp.)
3. Protection (from injury and pathogens)

Question 18

Lymphocytes, Monocytes, and Macrophages are a type of (1), which are all types of (2).

Answer 18

1. Agranulocytes
2. Leukocytes

Question 19

What are the key characteristics of Neutrophils?

i.e. morphology, stain, and function

Answer 19

• Morphology: segmented nucleus with 2-5 lobes
• Stain: cytoplasmic granules stain slightly pink
• Function: immunity (early first responders to infections, and phagocytose ~5-20 bacteria during their short lifespan)

Question 20

What are the key characteristics of Basophils & Mast Cells?

i.e. morphology, stain, abundance and function

Answer 20

• Morphology: lobed nucleus
• Stain: cytoplasmic granules stain blue in hematoxylin dye
• Abundance: most abundant leukocyte (make up 54-62% of white blood cells)
• Function: inflammatory reactions & allergies (release anticoagulant heparin to slow blood clotting, and histamine to increasing blood flow to tissues)

Question 21

What are the key characteristics of Eosinophils?

i.e. morphology, stain, abundance and function

Answer 21

• Morphology: bilobed nucleus
• Stain: cytoplasmic granules stain bright red
• Abundance: make up ~1.3% of white blood cells
• Function: defence against parasites (in GI tract, lungs, urinary & genital epithelia – attach to large, antibody-coated parasites & release substances from granules to damage/kill)

Question 22

What are the key characteristics of Monocytes & Macrophages?

i.e. morphology, abundance and function

Answer 22

• Morphology: 2-3 times larger than RBCs
• Abundance: make up ~3-9% of white blood cells
• Function: phagocytic (primary tissue scavengers that are larger & more effective than neutrophils – ingest 100 bacteria per lifetime and remove debris such as old RBCs & dead neutrophils)

Question 23

What are the key characteristics of Lymphocytes?

i.e. morphology, abundance and function

Answer 23

• Morphology: only slightly larger than RBCs
• Abundance: make up ~25-33% of white blood cells (~5% are circulating while the rest are in tissues encountering
  pathogens)
• Function: Immune response (Natural killer [NK] cells, T lymphocytes [T cells], B lymphocytes [B cells])

Question 24

What is hematopoiesis?

Answer 24

Formation of blood cells

Question 25

Where do hematopoietic stem cells originate?

Answer 25

embryo

Question 26

What is the major hematopoietic organ after birth

Answer 26

bone marrow

Question 27

Which are the most abundant blood cells?

Answer 27

Red blood cells

Question 28

What is found after centrifugation of the blood and where are they found in the tube?

Answer 28

• RBCs packed at the bottom
• WBC, platelets in the middle
• Plasma fluid at the very top

Question 29

What is erythropoiesis?

Answer 29

• when uncommitted stem cells go through a series of stages in the bone marrow
• once the nucleus is expressed, the reticulocyte forms and the cell is released into the circulation where it becomes a mature RBC (erythrocyte)
• one the nucleus is expelled, the reticulocyte moves into circulation and becomes an RBC

Question 30

Where are basophils found?

Answer 30

in circulation in low numbers (make up <1% of
WBC)

Question 31

Where are mast cells found?

Answer 31

in tissues

Question 33

What is the most abundant leukocyte?

Answer 33

neutrophils (make up 54-62% of
white blood cells)

Question 34

What is the shape of erythrocytes?

Answer 34

• cytoskeleton creates a concave shape
• flexible - swell in hypotonic, shrink in hypertonic
• illnesses can impact RBC shape ie: sickle cell anemia

Question 35

What are the steps of Neutrophil Extravasation?

Answer 35

1. Roll along endothelial wall
2. Are tethered, captured, & activated
3. Crawl to exit sites (endothelial cell junctions)
4. Exit sites open due to signals between leukocytes & endothelial cells

Question 36

How is most O2 found in the blood?

Answer 36

bound to hemoglobin in RBCs

Question 37

What gives blood its red colour?

Answer 37

hemoglobin

Question 38

What is an RBC made up of?

Answer 38

• 4 globin proteins (2 alpha, 2 beta)
• each globin protein has a heme group binding an iron molecule

Question 39

What is the function of hemoglobin?

Answer 39

• aids in O2 delivery to tissues
• Heme iron combines with O2 in the lungs and releases oxygen into tissue

Question 40

What is the equation for the arterial O2 carrying capacity in the blood?

Answer 40

O2 bound to Hb + unbound

Question 41

How many molecules of oxygen can each RBC carry?

Answer 41

over a billion (280 million Hb molecules / RBC x 4 heme groups)

Question 42

What does oxygen saturation depend on?

Answer 42

location

Question 43

What percentage of hemoglobin is saturated with oxygen (oxyhemoglobin) in the systemic arteries? Leaving in systemic veins?

Answer 43

97% ; 75% (ie: 22% of oxygen is unloaded to tissues

Question 44

From a volume perspective, how much O2 does blood entering and leaving tissues contain?

Answer 44

200mL O2/L blood ; 155mL O2/L blood (ie: 45mL O2 unloaded to the tissues)

Question 45

What physiological factors can change Hb conformation and impact O binding?

Answer 45

• Decrease in pH decreases affinity for O2 - more O2 offloaded into tissues
• Increase in temp. decreases Hb affinity for O2 - more offloaded into tissues - bond between O2 and Hb is weakened

Question 46

Where are monocytes found?

Answer 46

found in the bloodstream

Question 47

Where are macrophages found?

Answer 47

in tissues

Question 48

monocytes are precursors for…

Answer 48

macrophages (monocytes enlarge & differentiate into macrophages during their 8 hour commute from blood to tissue)

Question 49

Tissue macrophages in the liver were originally called…

Answer 49

Kupfer cells

Question 50

Tissue macrophages in the bone were originally called…

Answer 50

Osteoclasts

Question 51

Tissue macrophages in the brain were originally called…

Answer 51

Microglia

Question 52

Tissue macrophages in the spleen were originally called…

Answer 52

Reticuloendothelial cells

Question 53

Tissue macrophages originally called…

Answer 53

the “reticuloendothelial
system”

Question 54

Tissue macrophages in the skin were originally called…

Answer 54

Histiocytes

Question 55

Tissue macrophages are currently reffered to as…

Answer 55

the “mononuclear phagocyte system”

Question 56

What is the oxygen reserve?

Answer 56

• Oxyhemoglobin remaining in venous blood
• enough to sustain the brain and heart for 4-5mins without breathing or CPR
• can also be used when tissue requirements increase like in exercise

Question 57

Natural killer (NK) cells are a part of which immune response?

Answer 57

2nd line of defense (Innate Immune System)

Question 58

How do RBCs obtain energy?

Answer 58

anaerobic metabolism of glucose

Question 59

T lymphocytes (T cells) are a part of which immune response?

Answer 59

3rd line of defense (Adaptive Immune System)

Question 60

At a certain point in the glycolytic pathway for energy production for RBCs, a side reaction occurs that produces _______

Answer 60

2,3-Diphosphoglyceric acid (2,3-DPG)

Question 61

B lymphocytes (B cells) are a part of which immune response?

Answer 61

3rd line of defense (Adaptive Immune System)

Question 62

What is the function of Natural Killer (NK) Cells?

Answer 62

Protect against viral infections & some cancers (can respond very quickly compared to other lymphocytes)
- Destroy target cells (infected or cancerous but not
pathogens) by cell-cell contact
- Can release interferons (IFNs) & other cytokines to warn
uninfected cells
- Can release IFNs & other cytokines to enhance the immune response mediated by other cell types

Question 63

What three organelles to mature RBCs lack?

Answer 63

nuclei, mitochondria, ER

Question 64

What is 2,3-DPG inhibited by?

Answer 64

oxyhemoglobin ; when levels decrease, more 2,3-DPG is produced

Question 65

What’s an antigen?

Answer 65

a molecule, often on the surface of a pathogen, that the
immune system recognizes as a specific threat

Question 66

What does increased 2,3-DPG concentration do?

Answer 66

increase O2 unloading

Question 67

What’s a MHC marker?

Answer 67

• Used primarily in the recognition of pathogens in immune responses but also used in self recognition
• Proteins expressed on the surface of a cell
• Display both self & non-self antigens

Question 68

What are the types of MHC markers (2), and where are they found?

Answer 68

• MHC-I: found on the cell surface of all nucleated cells in the bodies of vertebrates
• MHC-II: found mostly on macrophages, B cells, & dendritic cells (APCs)

Question 69

which way does a decrease in O2 unloading shift the Oxygen-hemoglobin dissociation curve?

Answer 69

Left

Question 70

Which way does an increase in O2 unloading shift the Oxygen-hemoglobin dissociation curve?

Answer 70

right

Question 71

Where does Initial “priming” of a lymphocytes to a antigen occur?

Answer 71

inside the lymph tissues (such as spleen, lymph nodes, tonsils, gut)

Question 72

How long does it take RBCs to develop?

Answer 72

7 days

Question 73

How long is the RBC lifespan?

Answer 73

120 days

Question 74

What happens when old RBCs are destroyed in the spleen?

Answer 74

Bilirubin produced when old RBCs are destroyed in the spleen:
* breakdown product of heme from Hb
* liver enzymes bind bilirubin and it is excreted into bile
* phototherapy can also aid in breakdown
* circulates in bile, some lost in urine/feces

Question 75

What are the steps of T Cell Activation?

Answer 75

Step 1: Threat
- An invader enters the body

Step 2: Detection
- A macrophage encounters, engulfs, & digests the invader (e.g. a bacterium)
- The macrophage places a piece of the invader (antigen) on its surface with the self (MHC) marker

Step 3: Alert
- The macrophage presents the antigen to a helper T cell & secretes a chemical that activates the helper T cell
- Complex set of signals to activate helper T cell (recognition + verification to ensure it’s responding to non-self)
- Helper T cell divides & transforms into effector helper T cell

Step 4: Alarm
- Effector helper T cell activates Cell-mediated (T cell) response, (Naïve cytotoxic T cell activated) and Antibody mediated/humoral (B cell) response (Naïve B cell activated)

there more more steps dependent on which cells are activated..more cards in in the deck depicting those pathways

Question 76

What health consequence is associated with high blood concentrations of bilirubin from death of RBC (hyperbilirubinemia)

Answer 76

Jaundice

Question 77

How is jaundice treated?

Answer 77

phototherapy with blue light

Question 78

What population is susceptible to jaundice as discussed in the lecture slides?

Answer 78

• healthy newborns - rapid decrease in blood Hb at birth
• Preemies - inadequate amounts of liver enzymes needed to bind bilirubin so that it can be excreted in bile (toxic)

Question 79

What is Thalassemia?

Answer 79

• inherited defect in Hb
• Alpha thalassemia: decreased synthesis of alpha Hb chains
• Beta thalassemia: impaired synthesis of beta Hb chains
• excessive destruction of RBCs
• leads to stillbirth, anemia, growth abnormalities, iron overload (heart failure in young adults)

Question 80

What are the steps of a Cell-Mediated (T-cell) Response?

Answer 80

Step 1: Building specific defenses
- Naïve cytotoxic T cell divides into effector cytotoxic T cell (Step 2: Defense), & memory cytotoxic T cell (Step 3: Continued surveillance)

Step 2: Defense
- Effector cytotoxic T (CD8) cells targets cells displaying foreign antigen (tissue cells infected with intracellular pathogen, cancer cells, cells of organ transplants, etc.)
- Bind to MHC-I & kill infected cells by chemical means (perforin forms pores in target cell → granzymes enter pores → target cell apoptosis)

Step 3: Continued Surveillance
- Memory T cells stored for continued surveillance

Question 81

What is sickle cell anemia?

Answer 81

• inherrited, recessive disease - 2 copies of a gene that produces Hb-S instead of Hb-A
• single amino acid substitute in beta globin chain
• when deoxygenated, Hb-S polymerizes into long fibres (RBC gets sickle-shaped) which promotes hemolysis
• lifelong, 45 year life expectancy
• high resistance to malaria because of plasmodium parasite - cannot live in heterozygous RBCs (therefore, there is a heterozygous environmental advantage)

Question 82

What are the steps of a Antibody & cell-mediated response?

Answer 82

Step 5: Building specific defenses
- Naïve B cell divides into plasma cell (effector B cell; Step 2: Defense) & memory B cell (Step 3: Continued Surveillance)

Step 6: Defense
- Plasma cell (effector B cell) secretes antibodies which neutralize foreign proteins (toxins), trigger release of more complement, & attract more macrophages
- Antibodies attack the foreign antigens wherever they find them – circulation, tissues, etc. i.e. B cells themselves don’t engage
- Antibodies target pathogens or toxins outside of cells by binding to the specific antigen(s) that initiated prior events

Step 7: Continued Surveillance
- Memory B cells stored for continued surveillance
- When re-exposed to appropriate antigen, rapidly expand & produce more effector plasma cells & memory cells

Question 83

What are the components of plasma?

Answer 83

• 92% water
• 1% dissolved solutes, trace elements (vitamins), gases (O2, CO2)
• 7% organic molecules (amino acids, glucose, lipids, nitrogenous waste, proteins)

Question 84

What proteins are found in blood plasma?

Answer 84

• albumins
• globulins
• fibrinogen

Question 85

What is albumin?

Answer 85

• produced in liver
• provide osmotic pressure needed to draw water from surrounding tissue fluid into capillaries (maintain blood vol + pressure)
• most of plasma proteins

Question 86

What is the Clonal Selection Theory?

Answer 86

• Many B cells at birth but almost all of them are different
• B lymphocytes “inherit” ability to produce particular antibodies
• Any given B cell can produce only one type of antibody but they are “naïve”
• Exposure to their antigen stimulates B cell to divide many times until a large population of genetically identical B cell clones are produced

Question 87

What happens during the secondary response?

Answer 87

• Lymphocyte clones & memory cells result in faster & stronger response
• Produces IgG antibodies

Question 88

What happens during the primary response?

Answer 88

• First exposure to antigen
• Slower & weaker response
• Produces mostly IgM antibodies

Question 89

What are globulins?

Answer 89

• alpha and beta
• produced in liver
• transport lipids and fat soluble vitamins
• gamma - antibodies produced by lymphocytes that function in immunity

Question 90

What is fibrinogen?

Answer 90

• produced in the liver
• important for clot formation

Question 91

What is agglutination?

Answer 91

clumping of RBCs

Question 92

How does agglutination occur?

Answer 92

• A-type RBCs mixed with anti-A-type antibodies
• B-type RBCs mixed with anti-B-type antibodies

Question 93

How do antibodies target pathogenic bacteria?

Answer 93

Does not destroy them, just marks them as targets for
immunological attack (pathogen may be attacked by innate immune cells, such as macrophages, neutrophils, or by complement (blood protein defense system)

Question 94

What is the Rh factor?

Answer 94

another group of antigens on RBCs

Question 95

is Rh+ or Rh- more common?

Answer 95

Rh+

Question 96

What are the implications of the Rh factor during birth?

Answer 96

• Rh antibodies can cross the placenta (unlike A and B antibodies)
• Rh- mother and Rh+ baby might cause issues during birth (not during pregnancy because blood is seperated
• At birth, mother may start producing Rh antibodies
• during next pregnancy, antibodies can cross placenta and cause RBC hemolysis in fetus (hemolystic disease in newborns)
• Treatment: IV Rh imune globulin (RhIG) after brith of Rh+ baby to destroy fetal cells left in circulation before they elicit immune response

Question 97

What is the The Complement Pathway?

Answer 97

• 9 complement proteins (C1-C9) that are inactive in the plasma, and become activated when antibodies mark the antigens (bacteria)
• a type of both innate and adaptive humoral immunity
• when triggered, proteases cleave specific proteins & initiate an amplifying cascade followed by additional cleavages

End result:
1. Massive amplification of response
2. Formation of cell-killing membrane attack complex (MAC)

Question 98

The Compliment Pathway has 3 possible routes that lead to the same outcome – what are they?

Answer 98

1. Classical pathway (high level activity triggered by antibody)
2. Alternative pathway (low level, continuous activity)
3. Lectin pathway (high level activity triggered by antibody

Question 99

What are the roles of the 9 protiens (C1-9) in the The Complement Pathway?

Answer 99

1. Recognition: C1
2. Activation: C4, C2, C3 (in this order)
3. Attack: C5, C6, C7, C8, C9

Question 100

What are the three steps during blood clotting?

Answer 100

1. Vasoconstriction
2. Formation of platelet plug
3. Production of a web of fibrin proteins that penetrate and surround platelet plug

Question 101

What proteins are involved in clot formation and what do they do?

Answer 101

fibrinogen is converted to fibrin by thrombin

Question 102

How does the Classical Pathway begin (Complement Cascade)?

Answer 102

starts with antibodies & C1 proteins binding to the surface of the pathogen

Question 103

How does the Lectin Pathway begin (Complement Cascade)?

Answer 103

starts with lectins binding to mannose residues on the surface of the pathogen

Question 104

What are the two pathways for clot formation?

Answer 104

• extrinsic - in vivo
• intrinsic - in vitro

Question 105

What is the extrinsic pathway for blood clotting initiated by?

Answer 105

tissue factor
* membrane glycoprotein
* in walls of blood vessels and cells of surrounding tissue

Question 107

What happens during clot formation n the extrinsic pathway?

Answer 107

• initiation by tissue factor
• blood vessel injury exposes tissue factor to factor VII and others in the blood, creating a complex
• complex acts as an enzyme to activate factor X
• Pathway generates thrombin which can generate fibrin from fibrinogen

Question 108

What are the steps of the The Complement Cascade?

Answer 108

1. Activation of C1 (classical pathway)
2. C1 catalyzes hydrolysis of C4 into C4a & C4b
3. C4b binds plasma membrane & is active
4. C3 cleaved into C3a & C3b due to intermediate step involving splitting of C2 – alternative pathway also results in the cleavage of C3 through a different sequence of events (pathways converge at this point)
5. C3b converts C5 into C5a & C5b
6. C3a & C5a stimulate mast cells to release histamine, and serve as chemokines (attract macrophages, neutrophils, monocytes, & eosinophils)
7. C5, C6, C7, C8, & C9 inserted into bacterial cell membrane to form a membrane attack complex

Question 109

What happens during blood clot dissolution?

Answer 109

plasminogen converted to plasmin which digests fibrin

Question 110

How are myocardial infarctions, strokes and blood clots initially treated?

Answer 110

• chewable aspirin
• stops platelet clumping
• TPAs (tissue plasminogen activators)

Question 111

What is the Membrane Attack Complex (MAC)?

Answer 111

Large pore that kills bacterial cell through
osmotic influx of water

Question 112

What are the 4 key signs of inflammation? Describe the mechanisms behind them.

Answer 112

Injured tissue releases chemical signals causing…

Blood vessels to widen:
1. Redness – blood flow carries defensive cells & chemicals to damaged tissue, removing toxins
2. Heat – increases the metabolic rate of cells in the injured area to speed healing

Capillaries to become more permeable:
3. Swelling – fluid containing defensive chemicals, blood-clotting factors, oxygen, nutrients, & defensive cells seeps into injured area
4. Pain – hampers movement, allowing the injured area to heal

4 signs of inflammation: Redness, Heat, Swelling, Pain (treat w RICE)

Question 113

What are ST elevated myocardial infarctions (STEMIs) and how are they treated?

Answer 113

• artery supplying blood to the heart becomes blocked - most severe type of heart attack
• fibrinolytic drugs can achieve reperfusion
• fibrinolytics convert plasminogen to plasmic which cleaves fibrin resulting in clot dissolution and restoration of blood flow to tissues

Question 114

What is acute inflammation?

Answer 114

inflammation due to things such as bruises & torn tissue

Question 115

What is chronic inflammation?

Answer 115

inflammation due to disease states such as
arthritis, obesity, etc.

Question 116

What is the main cause of fevers?

Answer 116

infection

Question 117

What are Autoimmune Diseases?

Answer 117

a failure of the immune system to
recognize & tolerate self-antigens

Question 118

Explain 6 reasons why self-tolerance may fail

Answer 118

1. An antigen that does not normally circulate in the blood may become exposed to the immune system
2. A self-antigen that is otherwise tolerated may be altered by combining with a foreign hapten
3. Antibodies may be produced that are directed against other antibodies
4. Antibodies produced against foreign antigens may cross-react with self-antigens
5. Self-antigens may be presented to helper T cells together with MHCII
6. Autoimmune diseases may result when there is inadequate activity of regulatory (suppressor) T lymphocytes

Question 119

What are the two things that can cause allergies? What are these two types of allergies called?

Answer 119

1. Immediate hypersensitivity: Abnormal responses by B cells
2. Delayed hypersensitivity: Abnormal responses by T cells

Question 120

What happens during immediate hypersensitivity?

Answer 120

• Allergen stimulates Th2 cells to secrete IL4 & IL13 which stimulate plasma cells to secrete IgE antibodies instead of IgG
• Plasma cells bind to mast cells & basophils, stimulating them to release histamine & other cytokines (produces immune reaction i.e. trouble breathing, itching, sneezing, tearing up, runny nose, etc.)

Not allergic: allergen stimulates Th1 cells to secrete IFNg, IL2