MA6 - Bone Marrow and Peripheral Blood

Question 1

What are the components of blood?

Answer 1

RBCs = erythrocytes

WBCs = leukocytes

platelets (suspended in plasma)

Question 2

What is a complete blood count?

Answer 2

full blood count that includes parameters of RBCs

Question 3

What is a differential?

Answer 3

relative number of each WBC in a blood sample

Question 4

What is the percent composition of blood?

Answer 4

44% RBC

55% plasma

1% buffy coat (contains WBCs)

Question 5

All cells of the blood are generated in

Answer 5

the bone marrow

Question 6

Define hematocrit.

Answer 6

pakced volume of erythrocytes in a unit volume of blood

Question 7

Define buffy coat. (2)

Answer 7

thin translucent layer above RBC layer

contains leukocytes

Question 8

Describe the layers observed if you were to centrifuge a blood sample.

Answer 8

plasma on top

thin buffy coat in the middle

RBCs on the bottom

Question 9

What is plasma?

Answer 9

yellowish fluid above buffy coat after blood separates in the presence of anticoagulants

Question 10

What are the four primary components of plasma?

Answer 10

plasma proteins

electrolytes

nutrients and waste

water

Question 11

What is serum?

Answer 11

straw-colored fluid phase when blood clots in the absence of anticoagulants

Question 12

What are the three types of granulocytes?

Answer 12

neutrophils

eosinophils

basophils

Question 13

What are the two types of agranulocytes?

Answer 13

monocytes

lymphocytes

Question 14

Bone marrow fills what space?

Answer 14

between trabeculae in spongy bone

Question 15

Describe the composition of bone marrow. (2)

Answer 15

highly branched vascular compartment of sinuses and an extravascular compartment (hematopoietic spaces)

Question 16

What is the function of the hematopoietic space?

Answer 16

site of new blood cell development

Question 17

Describe the structure of sinusoids in bone marrow.

Answer 17

sinusoids are highly branched with flat endothelial cells

Question 18

Describe the movement of blood through bone marrow.

Answer 18

arteries @ diaphysis → percolates through marrow via venous sinuses → picks up new blood cells → central sinus → venous circulation

Question 19

Differentiate between the components of RBCs that carry O₂ and carry CO₂.

Answer 19

globin portion of hemoglobin releases CO₂

heme portion of hemoglobin binds O₂

Question 20

What stain gives RBCs a salmon pink color?

Answer 20

Giemsa & Wright stain

Question 21

What is the advantage of RBCs’ biconcave shape?

Answer 21

facilitates gas exchange by affording a large surface area relative to its volume

Question 22

What is the diameter of RBCs?

Answer 22

7-8 μm in diameter

Question 23

Mature RBCs are unique in that they lack nuclei. Explain how the nucleation of RBCs change.

Answer 23

made in bone marrow as nucleated cells

then released into blood sinusoids of bone marrow after nucleus extrusion

Question 24

Define reticulocyte.

Answer 24

red cells newly released from the bone marrow

Question 25

Red cells newly released from the bone marrow are called

Answer 25

reticulocytes

Question 26

What is the basis of the name “reticulocyte?”

Answer 26

because of a reticular (mesh-like) network of ribosomal RNA

Question 27

Reticulocytes comprise what portion of the total erythrocyte count?

Answer 27

reticulocytes constitute 1-2% of total erythrocyte count

Question 28

At what point do reticulocytes become mature RBCs?

Answer 28

during passage through the spleen

Question 29

What is the lifetime of an RBC?

Answer 29

4 months, then gets degraded by the spleen

Question 30

What are RBC “flexibility tests” and why are they important? (2)

Answer 30

RBCs have to change shape when squeezing through narrow capillaries

so each time RBC passes through spleen, it undergoes a flexibility test and if it fails, it is destroyed

Question 31

(T/F) RBCs have a cytoskeleton.

Answer 31

False

Question 32

What feature of an RBC allows it to pass through a narrow structure and preserve its shape?

Answer 32

RBCs have unique variant of membrane skeleton underlying plasma membrane which provides flexibility and stability, allowing RBCs to return to concave shape

Question 33

Define anisocytosis.

Answer 33

abnormal deviation in RBC size

Question 34

What are the two types of anisocytosis?

Answer 34

microcyte/microcytosis

macrocyte/macrocytosis

Question 35

Define microcyte.

Answer 35

RBC smaller than 6 μm

Question 36

Define macrocyte.

Answer 36

RBC larger than 9 μm

Question 37

What is poikilocytosis?

Answer 37

abnormal deviation in RBC shape

Question 38

(T/F) pH can alter RBC morphology.

Answer 38

True

Question 39

Define spherocyte.

Answer 39

sphere-shaped RBC

Question 40

Define elliptocyte.

Answer 40

elongated RBC

Question 41

Hereditary spherocytosis results from

Answer 41

defects in:

ankyrin

spectrin

band 3

Question 42

Define ankyrin.

Answer 42

protein that anchors the membrane skeleton to the plasma membrane

Question 43

Define spectrin.

Answer 43

long, highly flexible cytoskeletal protein of the membrane skeleton

Question 44

Define band 3.

Answer 44

Cl^-/HCO3^- anion exchanger

Question 45

Hereditary elliptocytosis results from

Answer 45

defects in:

spectrin

band 4.1

Question 46

Define band 4.1.

Answer 46

part of membrane skeleton of red cells

Question 47

Define chromasia.

Answer 47

differences in staining intensity, which sometimes indicate various pathologic conditions

Question 48

Define anemia.

Answer 48

condition when hemoglobin is not present in sufficient amounts

Question 49

Define thalassemia.

Answer 49

results from reductions in globin chain synthesis

Question 50

Differentiate between alpha and beta thalassemia.

Answer 50

alpha thalassemia = synthesis of hemoglobin alpha chains impaired

beta thalassemia = synthesis of hemoglobin beta chains impaired

Question 51

What is the ratio of WBC to RBC?

Answer 51

1:700

Question 52

Define diapedesis.

Answer 52

extravasation of a leukocyte across the endothelium into the surrounding tissue

Question 53

Differentiate between how RBCs and WBCs function in the bloodstream.

Answer 53

unlike RBCs, the WBCs do not function within the bloodstream but rather use it as a means to travel to various parts of the body

Question 54

How do WBCs enter their target tissue?

Answer 54

via diapedesis

Question 55

WBCs are classified into what two groups?

Answer 55

granulocytes

agranulocytes

Question 56

Define granulocytes.

Answer 56

cells that contain specific granules, which in turn contain proteins and enzymes that perform cell-specific functions

Question 57

Define agranulocytes.

Answer 57

lack specific granules

Question 58

What is a feature common to granulocytes and agranulocytes?

Answer 58

both possess nonspecific azurophilic granules, which are lysosomes

Question 59

Describe the general features of granulocytes. (5)

Answer 59

multi-lobed nucleus

abundant lysosomes = primary granules

10-12 um in diameter

arise in bone marrow from same progenitor cell

terminally differentiated = incapable of cell division

Question 60

What is the general function of neutrophils?

Answer 60

first line of defense against bacterial infection

Question 61

What percent of WBCs is made up of neutrophils?

Answer 61

55-60%

Question 62

What is the defining morphology of neutrophils?

Answer 62

highly segmented nuclei

Question 63

Rank the WBCs in order of abundance.

Answer 63

N > L > M > E > B

neutrophils > lymphocytes > monocytes > eosinophils > basophils

[mnemonic: Never Let Monkeys Eat Bananas]

Question 64

Describe the distinguishing feature of female neutrophils.

Answer 64

contain Barr bodies, which are inactivated X chromosomes

Question 65

What are the three types of granules found in neutrophil cytoplasms?

Answer 65

primary/non-specific granules (azurophilic)

secondary/specific granules

tertiary granules

Question 66

Describe the composition of primary/non-specific granules in neutrophils.

Answer 66

lysosomes containing:

hydrolases

myeloperoxidases

lysozymes

elastases

Question 67

What is the largest granule found in neutrophils?

Answer 67

primary/non-specific azurophilic granules

Question 68

Describe how primary/non-specific granules of neutrophils appear in EM.

Answer 68

heterogeneous

Question 69

Describe the composition of secondary/specific granules.

Answer 69

contain enzymes that assist neutrophil w/ antimicrobial functions

Question 70

Describe how secondary/specific granules appear under EM.

Answer 70

heterogeneous in size

Question 71

Describe the composition of tertiary granules.

Answer 71

contain phosphatases (gelatinases) and metalloproteinases (collagenases) which facilitate migration of neutrophil into/through connective tissue

Question 72

Describe how tertiary granules appear under EM.

Answer 72

heterogeneous in size/shape

Question 73

What is a band cell?

Answer 73

developing neutrophil at stage immediately preceding mature, segmented form

Question 74

What are the seven events of extravasation?

Answer 74

leukocyte in blood vessel

capture

rolling

slow rolling

firm adhesion

early transmigration

transmigration

LCRSFET (Laura Chapman rode San Francisco’s E train)

Question 75

Describe the rolling step of extravasation.

Answer 75

selectins on endothelial cells bind to selectin ligands on neutrophils → neutrophils adhere to endothelial lining (a.k.a. margination)

Question 76

Define margination.

Answer 76

process by which leukocytes associate with endothelium prior to diapedesis

Question 77

Describe the activation and firm adhesion steps of extravasation. (2)

Answer 77

integrins of neutrophils bind to endothelial cellular adhesion molecules

chemokines trigger neutrophil arrest by increasing integrin affinity (firm adhesion)

Question 78

Describe the transmigration step of extravasation.

Answer 78

histamine + heparin at injury site released by perivascular mast cells

loosening of endothelial cell junction

gelatinases degrade basal lamina

neutrophils cross through (diapedesis)

Question 79

Define chemotaxis.

Answer 79

directed migration of neutrophils through tissues to injury site in response to chemokine gradients

Question 80

Define phagocytosis.

Answer 80

actin-dependent process of engulfment for large extracellular species

Question 81

What is the ultimate fate of foreign particles engulfed by phagosomes?

Answer 81

fusion of phagosomes + specific/azurophilic granules = phagolysosomes in which species is killed via oxidative (ROS) or non-oxidative means

Question 82

After neutrophils perform their functions, they die. What forms as a result of their death?

Answer 82

pus: accumulation of dead leukocytes + bacteria + tissue fluid

Question 83

What are the two general functions of eosinophils?

Answer 83

kill parasites

modulate allergic inflammatory responses

Question 84

What is the morphology of eosinophils?

Answer 84

bi-lobed nuclei w/ sausage-shaped lobes

Question 85

Describe the contents of eosinophils. (3)

Answer 85

large specific granules that contain:

major basic protein

eosinophilic cationic protein

eosinophil-derived neurotoxin

Question 86

What is the function of the basic and cationic proteins present in eosinophils?

Answer 86

help combat larger parasites

Question 87

(T/F) Eosinophils have azurophilic granules.

Answer 87

True, but they are usually obscured by the larger specific granules

Question 88

Eosinophilic chemotactic factors are released by what cells? (3)

Answer 88

mast cells

basophils

neutrophils

Question 89

Describe how eosinophils carry out their anti-parasite activity.

Answer 89

degranulate their basic and/or cationic protein on surface of parasite, forming pores in pellicles through which ROS can enter the parasite and kill it

Question 90

What are the general functions of basophils?

Answer 90

defend against parasite invasions

participate in allergic responses

Question 91

What is the abundance of basophils?

Answer 91

less than 0.5% of WBCs

Question 92

What is the morphology of basophils?

Answer 92

bi-lobed nucleus [not easily visualized]

large specific granules that stain dark blue above nucleus

azurophilic granules [not visible]

Question 93

What are the contents of the granules of basophils?

Answer 93

heparin

histamine

eosinophil chemotactic factor

neutrophil chemotactic factor

peroxidase

[HHENP]

Question 94

Describe how basophils carry out their function.

Answer 94

allergens cause basophil to release contents into extracellular space (similar mechanism to mast cells)

Question 95

Histamine is contained in which leukocyte?

Answer 95

basophils

Question 96

The release of histamine by basophils causes (3)

Answer 96

constriction of bronchial smooth muscle

vasodilation of capillaries and arterioles

result: drop in blood pressure

Question 97

What is anaphylactic shock?

Answer 97

second exposure to same allergen causes intense generalized response in which large numbers of basophils + mast cells are degranulating

Question 98

What is the effect of anaphylactic shock?

Answer 98

large-scale degranulation of basophils and mast cells results in hypotension due to (1) bronchial smooth muscle constriction and (2) vasodilation of capillaries and arterioles

Question 99

What are the two agranulocytes?

Answer 99

monocytes

lymphocytes

Question 100

What are monocytes?

Answer 100

phagocytic cells that stay in circulation for a few days before entering tissue to differentiate into macrophages

Question 101

What is the largest (in terms of size) leukocyte?

Answer 101

monocytes

Question 102

What is the abundance of monocytes?

Answer 102

make up 3-8% of WBCs

Question 103

Give three examples of context-specific macrophages.

Answer 103

histiocyte = resident connective tissue macrophage

Kupffer cell = macrophage resident in liver sinusoids

dust cell = alveolar macrophage of lung

Question 104

Describe the granule content of monocytes.

Answer 104

have azurophilic granules

lack specific granules (thus why they’re called agranulocytes)

Question 105

Describe the morphology of the monocyte.

Answer 105

single-lobed nucleus w/ horseshoe shape

Question 106

What are the functions of monocytes that have differentiated into macrophages?

Answer 106

phagocytose old erythrocytes in spleen

phagocytose/destroy bacteria

phagocytose apoptotic bodies

produce cytokines that activate inflammatory responses

serve as part of mononuclear phagocyte system

Question 107

What are lymphocytes?

Answer 107

cells that serve as part of the immune system and protect against pathogens

Question 108

What is the relative abundance of lymphocytes?

Answer 108

make up 30% of WBCs

Question 109

What are the two types of lymphocytes?

Answer 109

T lymphocytes

B lymphocytes

Question 110

Describe the features of T lymphocytes. (3)

Answer 110

small

quiescent

cell-mediated adaptive immunity

Question 111

Describe the features of B lymphocytes. (4)

Answer 111

small

quiescent

humoral immunity

can differentiate into plasma cells that produce antibodies

Question 112

What is the relative abundance of T and B lymphocytes?

Answer 112

80% of lymphocytes are T and 15% are B

Question 113

What is the morphology of lymphocytes?

Answer 113

small ring of light blue cytoplasm around nucleus

Question 114

What is the diameter/size of lymphocytes?

Answer 114

in the blood = 8-10 um (only slightly larger than an RBC)

medium/large = 12-18 um

Question 115

What are natural killer cells?

Answer 115

a.k.a. large granular lymphocytes

large lymphocytes important in the innate immune system that have anti-tumor and anti-viral activities

Question 116

What are the general functions of platelets/thrombocytes? (2)

Answer 116

adhesiveness and aggregation to temporarily seal blood vessels

initiate local coagulation (blood clotting) in response to injury

Question 117

Platelets are derived from

Answer 117

megakaryocytes, a type of cell in the bone marrow

Question 118

What is the size of plateles?

Answer 118

2-3 um in diameter

Question 119

Describe the morphology/composition of platelets

Answer 119

hyalomere = peripheral ring rich in cytoskeleton

granulomere = central darker region w/ other organelles

Question 120

What is the lifespan of a platelet?

Answer 120

less than 14 days

Question 121

What is the sequence of events for platelet function? (8)

Answer 121

at injury, platelets release contents of granules → platelets adhere to each other = platelet activation → prothrombin converted to thrombin → thrombin facilitates platelet aggregation → fibrinogen converted to fibrin → formation of blood clot = thrombus → clot contracts to close off injured epithelium → endothelial cells release plasminogen activators during/after repair to dissolve clot

Question 122

What is a thromboembolism?

Answer 122

blockage (embolism) of blood vessel by piece of a thrombus (blood clot) carried by circulation system

Question 123

What is thrombocytopenia?

Answer 123

deficiency in number of platelets in circulation

Question 124

What are the symptoms of thrombocytopenia?

Answer 124

bleeding from small vessels occurs, leading to purplish splotches on skin