Fundamentals of Blood and Red Blood Cells

Question 1

Blood has a cellular and extracellular component.

True or False?d

Answer 1

True

Question 2

What colour is blood plasma?

Answer 2

Yellow

Question 3

What % of blood is water?

Answer 3

92%

Question 4

What do inorganic salts do in blood plasma?

Answer 4

Buffer the pH and contribute in osmotic balance and the regulation of the cell membrane potential

Question 5

diagram of blood components

Answer 5

Question 6

Haematocrit

Answer 6

% of red blood cells relative to the total blood volume

Question 7

Platelet purpose?

Answer 7

essential for blood clotting

Question 8

Platelets are not really cells but

Answer 8

rather cytoplasmic cell fragments of cellular precursors

Question 9

Red blood cells have a characteristic shape ——, which allows them to

Answer 9

• “flexible disc”, biconcave shape
• Allows them to travel in vessels and narrow capillaries
• Large surface for gas exchange

Question 10

Normal haematocrit in men and women

Answer 10

• Men: 46%
• Women: 42%

Question 11

RBC characteristics

Answer 11

• no nucleus
• reduced number of organelles and cellular membrane structures
• short life span: 120 days in circulation

Question 12

Older RBCS rupture easily and the debris left is degraded by

Answer 12

macrophages

Question 13

What % of RBC volume is taken up by haemoglobin?

Answer 13

25%

Question 14

RBC plasma membrane composition

Answer 14

is asymetrical with mainly negatively charged phospholipids (those with a terminal primary amino group) being located on the inner part of the lipid bilayer

Question 15

Why is RBC membrane composition important?

Answer 15

for cell signaling communication

Question 16

Biconcave shape of RBC achieved by?

Answer 16

Via a mesh-like network of the protein spectrum

Question 17

What is the primary component of RBC cytoskeleton that interacts with cell membrane proteins?

Answer 17

Spectrin

Question 18

Shape of spectrin?

Answer 18

Filamentous shape

Question 19

Spectrin gene abnormalities cause

Answer 19

spherical and fragile RBCs

Question 20

What are platelets released by?

Answer 20

Megakaryocytes

Question 21

What do platelets contain?

Answer 21

Enzymes that initiate blood clotting

Question 22

Blood clotting

Answer 22

• when vessels are damaged circulating blood platelets come in contact with collagen fibers, causing the platelets to swell and form a “sticky patch”, which begins the blood clotting cascade
• Clotting relies on inactivated precursor proteins (prothrombin, fibrinogen) that are produced by the liver and circulate in the blood. These are cleaved to thrombin and fibrin respectively, leading to the formation of a blood clot prior to the formation of scar tissue in wound healing.

Question 23

Automate blood counts

Answer 23

Question 24

Erythropoiesis

Answer 24

• from birth, the bone marrow is the site of haematopoiesis in humans
• erythropoiesis takes place in the haematopoeitic/red marrows, which is located within trabecular (spongy) bone at the end of long bones

Question 25

RBC production equation and include numbers

Answer 25

RBC volume/ RBC life span

2250ml/120 days = 18.75 ml/day average production in a healthy adult

Question 26

Erythropoetin

Answer 26

Question 27

Reticulocytes

Answer 27

• when haemoglobin synthesis has been completed the erythroblast nucleus, that has been progressively condensing, gets expelled yielding the reticulocyte
• reticulocytes enter vascular circulation and mature in 1-3 days to erythrocytes

Question 28

Normal levels of reticulocytes in blood circulation?

Answer 28

25-125 x10^9/L

Question 29

What does an elevated number of reticulocytes indicate?

Answer 29

Active bone marrow response to blood loss or anaemia (compensation)

Question 30

What cell is this??

Answer 30

Blood films stained with Romanowsky (Giemsa) stain that have an increased number of reticulocytes appear to have a blue tinge. This called polychromasia.
The blue tinge is due to high levels of RNA. As the cells mature towards erythrocytes the RNA is replaced by increased amounts of haemoglobin and the cell colour changes to a pink/red one that’s is characteristic of red blood cells.

Question 31

HbA/adult haemoglobin structure

Answer 31

• consist of four subunits; two identical alpha chains and two identical beta chains
• four haeme groups bound to each of the subunits

Question 32

HbF/ fetal haemoglobin structure

Answer 32

• consists of four subunits; two identical alpha chains and two identical gamma chains
• four haeme groups bound to each of the subunits

Question 33

Which has a stronger binding affinity to oxygen; HbA or HbF?

Answer 33

HbF

Question 34

An example of secondary protein structure in haemoglobin?

Answer 34

Alpha helix chains

Question 35

What is responsible for haemoglobins red colour>

Answer 35

Haeme groups

Question 36

Haeme groups structure

Answer 36

• four pyrrole rings
• that make a tetrapyrrole ring called protoporphyrin
• each of the pyrrole rings contain nitrogen atoms that participate in the binding of Fe2+ to oxygen

Question 37

Electron transfer when oxygen binds to haeme group

Answer 37

• partial transfer of an electron from Fe to P2 yielding Fe3+ and a superoxide (O2-; reactive oxygen species ROS)

Question 38

What ensures ROS O2- is not released into tissues

Answer 38

haemogobin protein subunits

Question 39

What is each pyrrole ring linked to next by?

Answer 39

methine bridge
double bond CH single bond (= CH – ).

Question 40

Hb affinity for oxygen

Answer 40

• the sigmoid shape shows that O2 binding to one haeme group increases the possibility of O2 binding in the three other haeme groups
• the unloading of O2 from one haeme group assists the unloading of O2 from the other three haeme groups CO-operative
• this ensures that oxygen binds strongly to Hb in the lung, where paO2 is high and is easily released in tissues where paO2 is lower

HAve to watch to see whether she explains sequential and concerted?

Question 41

O2 release from Hb tetramer

Answer 41

• 2,3-BPG/DPG is present in RBCs at similar concentration to haemoglobin
• lowers affinity of oxygen for haemoglobin, ensuring the release of oxygen in tissues
• 2,3-BPG is an allosteric regulator of haemoglobin, it binds to the center of the tetramer at a site different from oxygen binding ones
• causes haemoglobin conformation with lower oxygen binding affintiy, where more oxygen binding sites are occupied
• lower oxygen binding affinity ensures easier O2 release ,

Question 42

An allosteric interaction between an enzyme and its substrate refers to the event

Answer 42

when the substrate binds to a site different from the enzyme’s active site, causing a conformational change for the enzyme and a change in substrate affinity and consequently a change in function

Question 43

2,3 - BPG

Answer 43

2,3-Biphosphoglycerate is an anion

Question 44

Hb affinity for O2 diagram

Answer 44

Question 45

What is the % of nucleotide sequence similarity between beta chain of HbA and gamma chain for HbF?

Answer 45

72%

Question 46

Why does 2,3-BPG not bind to HbF as efficiently as it binds to HbA?

Answer 46

Only 72% of nucleotide sequence similar between HbA beta chain and HbF gamma chain

Question 47

Why doe fetal RBCs have higher affinity for O2 than maternal RBCs?

Answer 47

oxygen can be efficiently transferred from maternal RBCs to fetal RBCs

Question 48

diagram from HbA vs HbF

Answer 48

Question 49

The alpha, beta and gamma chains in haemoglobin are the result of

Answer 49

duplication events

Question 50

second diagram from HbA vs HbF

Answer 50

Question 51

Cellular respiration equation and how much ATP

Answer 51

C6H12O6 + 6O2 → 6CO2 + 6H2O + 32 ATP

Question 52

Fermentation equation and how much ATP

Answer 52

C6H12O6 → 2C3H6O3 + 2 ATP

Question 53

When and where does fermentation take place?Byproducts?

Answer 53

• takes place in muscle cells at times of intense exercise, when ATP is needed faster than oxygen can be transported and yields lactate (lactic acid)
• Lactate build up causes a lowering pH and muscle fatigue

Question 54

oxygen transfer diagram

Answer 54

Question 55

Myoglobin function

Answer 55

An additional route for oxygen in the muscle and works to create a reserve of O2 to be used when muscles are active

Question 56

Myoglobin structure

Answer 56

• same structure as one haemoglobin subunit and contains on haeme group

Question 57

Myoglobin is found where and ensures?

Answer 57

present in skeletal muscle
ensures oxygen diffusion in these cells

Question 58

Is myglobin more effective in delivering oxygen to tissues than haemoglobin?

Answer 58

No
Haemoglobin can deliver 10x more oxygen to tissues compared to myglobin

Question 59

myglobin slide diagram

Answer 59

Question 60

CO2 equation in blood and include enzyme

Answer 60

Question 61

Bohr affect

Answer 61

CO2 and H+ act as allosteric regulators of haemoglobn by altering its affinity for oxygen binding

Question 62

CO2 transport slide

Answer 62

watch
CO2 reacts with the terminal amino groups of deoxyhaemoglobin and forms carbamate groups, HCO3- transport across the RBC plasma membrane is coupled with transport of CL- in the opposite direction.

Question 63

Carbon Monoxide

Answer 63

• binds to haemoglobin at the oxygen binding site yielding carboxyhaemoglobin
• binds very tightly to haemoglobin, aprrox 200 times stronger than oxygen, which displaces bound oxygen
• CO binding to one out of the four haeme groups will increase haemoglobin affinity for oxygen as there is a no release in tissues

Question 64

CO poisoning symptoms

Answer 64

• disorientation
• nausea
• lethargy
• weakness

Question 65

How to treat CO?

Answer 65

hyperbaric oxygen therapy

Question 66

Hypovolaemia

Answer 66

• loss of extra-cellular ffluid
• can be attributed to loss of blood volume

Question 67

Causes of hypovalaemia (4):

Answer 67

• excess bleeding due to trauma
• diarrhea or vomiting
• renal failure
• use of diuretics
• last two are linked to renal system function

Question 68

Symptoms of hypovolaemia

Answer 68

• fatigue
• headaches
• cyanosis
• tachycardia
• symptoms are consistent with more than 10% loss of blood volume

Question 69

If hypovolaemia is left untreated can cause

Answer 69

hypovolaemic shock
organ failure
death

Question 70

Anaemia

Answer 70

• reduced haemoglobin concentration, which leads to reduced oxygen transport

Question 71

Anaemia Clinical Symptoms (4):

Answer 71

• tachycardia
• breathlessness
• pallor
• lethargy

Question 72

Causes of Anaemia (7):

Answer 72

• iron deficiency
• bone marrow suppression; myledoysplastic syndrome, aplastic anaemia
• blood loss
• folate deficiency; B12 deficiency (pernicious anaemia)
• haemolysis
• inherited problems in haemoglobin synthesis beta thalasseaemia
• autoimmunity

Question 73

Sickle Cell Anaemia

Answer 73

• caused by a single mutation, beta globin position 5 glutamate replace with valine
• production of HbS, oxyhaemoglobin is not affected but ddeoxyhaemoglobin becomes fibrous and forms aggregates
• RBCs in sickle cell anaemia have a characteristic sickle like shape, which clog capillaries and prohibit smooth blood flow
• RBCs stick frequently to vessels walls and remain in blood circulation for a reduced amount of time.

Question 74

Alpha Thalassaemia is cased by

Answer 74

• Deletion/inactivation of three or four of the alpha globin genes
• Deletion/Inactivation of four genes: Hb Bart syndrome leads to embryonic lethality
• Deletion/Inactivation of three genes: HbH disease leads to enlarged spleen/liver, anaemia (may require blood transfusion)

Question 75

Beta Thalassaemia

Answer 75

• caused by mutations or deletions of the beta globin gene:

Question 76

Types of anaemia: Bone marrow malfunction:

Answer 76

• aplastic anaemia
• fanconi anaemia
• the anaemia forms part of the diagnosis of a wider and more complex problem

Question 77

Polycythaemia

Answer 77

• characterised by elevated haematocrit
• example of a myeloproliferative neoplasm

Question 78

Polycythaemia is often caused by:

Answer 78

• gene mutations that affect JAK-STAT signaling pathway
• malfunction of EPO and EPO receptor

Question 79

Plycythaemia symptoms:

Answer 79

• fatigue
• dizziness
• headaches
• gum bleeding
• nose bleeding
• can affect heart function, spleen function, blood clotting

Question 80

Answer 80