Red Blood Cells

Question 1

What is the shape of RBCs? What is the function of their shape?

Answer 1

• Biconcave and disk-like
• Allows them to squeeze through small capillaries
• Low volume and high-surface area, which renders them more efficient in gas exchange

Question 2

What percentage of blood volume is composed of erythrocytes?

Answer 2

40%

Question 3

What percentage of RBCs by weight is hemoglobin?

Answer 3

35%

Question 4

What percentage of the RBCs dry-matter is composed of hemoglobin?

Answer 4

96%

Question 5

What is hemoglobin composed of?

Answer 5

• Four polypeptide chains
• Two alpha chains
• Two beta chains

Question 6

What is each globin chain composed of?

Answer 6

• Each globin chain possesses a heme molecule

- At the center of the four nitrogens within a heme molecule fits an iron atom

Question 7

Why is histidine a key amino acid in hemoglobin?

Answer 7

Histidine binds iron and stabilizes the molecule within the heme ring

Question 8

What is oxyhemoglobin?

Answer 8

• Contains iron and binds oxygen

- Red tint, which makes oxygen-rich arterial blood red

Question 9

What is deoxyhemoglobin?

Answer 9

• Oxygen is not bound in deoxyhemoglobin

- Venous blood is a darker shade of purple

Question 10

What is a pulse oxymeter? What does it measure in healthy individuals?

Answer 10

• Measures the percentage of oxyhemoblogin and deoxyhemoglobin based on their differences in colour
• The regular reading is 97%, which means that 97% of hemoglobin within capillaries is oxidized

Question 11

What occurs to the pulse oxidation value if there are issues transporting oxygen?

Answer 11

Decreases to below 90%, which indicates respiratory distress

Question 12

How is it possible for an individual to have a 97% reading from the pulse oxymeter, and still not be able to get enough oxygen to their tissues?

Answer 12

• If they are anemic, or histidine deficient, they are able to bind oxygen, but there is not enough hemoglobin to transport oxygen to peripheral tissues
• The existing hemoglobin molecules may all be filled with oxygen, giving a high oximeter reading
• But there are not enough hemoglobin molecules to carry the needed oxygen to the tissues

Question 13

What is carboxyhemoglobin?

Answer 13

Binds carbon monoxide

Question 14

How does carbon monoxide poisoning occur?

Answer 14

CO binds to hemoglobin 250 times stronger than oxygen binds, which means that CO does not let go to allow oxygen to replace it

Question 15

Which form of hemoglobin may not be differentiated from oxyhemoglobin through a blood sample?

Answer 15

Carboxyhemoglobin, as it is extremely red

Question 16

What is carbaminohemoglobin?

Answer 16

Binds CO2

Question 17

What percentage of CO2 is transported via hemoglobin? Where is the rest contained?

Answer 17

• 10% is transported via hemoglobin

- The rest is contained within bicarbonate

Question 18

Which vasodilator may be carried bound to hemoglobin? What is its function?

Answer 18

• Nitric oxide
• Efficient strategy that allows the release of NO within capillaries if oxygen levels are low, providing an increased efficiency in oxygen transport

Question 19

What is met-hemoglobin?

Answer 19

Contains iron oxidized to the ferric (Fe3+) state, and is a brown colour

Question 20

What is fetal hemoglobin?

Answer 20

• Contains two alpha-chains and two gamma-chains

- More efficient at picking up oxygen, which is necessary as it is getting oxygen from the maternal blood

Question 21

What occurs in the months following birth?

Answer 21

Fetal hemoglobin is broken down, and new RBCs with regular adult hemoglobin are made

Question 22

How is glucose transported into erythrocytes?

Answer 22

GLUT1

Question 23

What is hemoglobin A1c a marker for?

Answer 23

Monitoring tool of long-term glucose control since red blood cells have a life-span of 120 days

Question 24

What activates glucose within an erythrocyte?

Answer 24

Hexokinase converts glucose to glucose-6-phosphate

Question 25

What occurs from the reduction of met-hemoglobin? By what?

Answer 25

• Forms hemoglobin

- By NADH

Question 26

The levels of which glycolytic intermediate controls how easy it is to release oxygen to tissues?

Answer 26

1,3-diphosphoglycerate

Question 27

What is the most common genetic disease? What kind of genetic disease is it?

Answer 27

• Glucose-6-phosphate dehydrogenase deficiency

- X-linked recessive (more common in men)

Question 28

What is the function of glucose-6-phosphate dehydrogenase?

Answer 28

• Key enzyme that brings glucose to the pentose phosphate pathway to maintain the reducing equivalence of NADPH
• NADPH allows glutathione to be reduced to its active form to destroy free radicals and maintain the integrity of the cell

Question 29

What is the primary issue with G6PD deficiency?

Answer 29

Glutathione cannot be regenerated, and the redox status of the cell may no longer be controlled

Question 30

What are consequences of G6PD deficiency?

Answer 30

• Stresses causing oxidative stress affect the stability of the RBC (no glutathione to control oxidative stress), which causes hemolytic anemia
• The increase in breakdown of RBCs causes an increased production of bilirubin

Question 31

What issues with the liver may arise with G6PD deficiency?

Answer 31

Jaundice due to the increased production of bilirubin

Question 32

What dietary substance worsens oxidative stress caused by G6PD deficiency?

Answer 32

Fava beans

Question 33

What explains the commonality of G6PD deficiency?

Answer 33

RBCs are not hospitable to the malaria parasite, reducing their likelihood to acquire malaria

Question 34

Differentiate sickle cell anemia and G6PD deficiency.

Answer 34

• Sickle cell anemia occurs due to an SNP in a hemoglobin molecule
• G6PD deficiency occurs due to multiple SNPs in the gene encoding the enzyme within an RBC

Question 35

What is the reduced form of iron? What is the oxidized form of iron?

Answer 35

• Ferrous is reduced (Fe2+)

- Ferric is oxidized (Fe3+)

Question 36

Under what form is iron absorbed in the small intestine? How is it stored within the enterocyte?

Answer 36

• Absorbed through a transporter as Fe2+

- Stored within enterocytes bound to ferritin, under the Fe3+ form

Question 37

Why is iron always bound to proteins?

Answer 37

• Free minerals are toxic

- Free iron is a very potent pro-oxidant

Question 38

How does iron escape the enterocyte to enter circulation? What occurs afterwards?

Answer 38

• Fe2+ crosses the basolateral membrane through ferroportin

- Fe2+ is then converted to Fe3+, which binds to transferrin in plasma

Question 39

How many transferrin iron-binding sites are there? How many iron molecules are normally bound? Under what form?

Answer 39

• Transferrin possesses 6 binding sites

- Two Fe3+ molecules are normally bound

Question 40

Where does transferrin transport iron?

Answer 40

To the bone marrow where RBCs are made

Question 41

Where are RBCs catabolized? What happens to each component?

Answer 41

• In the liver
• Amino acids are recycled
• Heme is metabolized to bilirubin, which may be excreted in bile or urine
• Iron is recycled to transferrin, or stored in the liver bound to ferritin

Question 42

How is anemia diagnosed? What is the quantity for men and women?

Answer 42

• Based on low-hemoglobin levels
• Men: fewer than 140 grams/L
• Women: fewer than 120 grams/L

Question 43

How should anemia be diagnosed prior to compromised function?

Answer 43

• Measuring plasma ferritin (biomarker for liver ferritin, which decreases during depletion of iron stores)
• Measuring transferrin (decreased saturation)

Question 44

What are the four sequential changes with development of iron deficiency?

Answer 44

1) Depletion of iron stores
2) Changes in iron transport
3) Defective erythropoiesis
4) Iron deficiency anemia

Question 45

What is an indicator of the depletion of iron stores?

Answer 45

Decreased plasma ferritin

Question 46

What occurs during changes in iron transport?

Answer 46

• Increased absorption efficiency
• Increased transferrin iron binding
• Decreased transferrin saturation percentage
• Increased transferrin receptors on the bone marrow

Question 47

What occurs during defective erythropoiesis?

Answer 47

Heme is not produced from protoporphyrin, causing free erythrocyte protoporphryin

Question 48

What are the characteristics of iron-deficient erythrocytes?

Answer 48

• Microcytic (smaller)

- Hypochromic (paler)

Question 49

What are the four causes of iron deficiency?

Answer 49

1) Decreased dietary iron
2) Inhibition of absorption
3) Increased red blood cell mass
4) Increased losses

Question 50

What might inhibit iron absorption?

Answer 50

• Mineral interactions (calcium and zinc supplements)

- Absorption inhibitors

Question 51

When would increased red blood cell mass cause iron deficiency?

Answer 51

During pregnancy or growth

Question 52

When would increased losses cause iron deficiency?

Answer 52

• GI bleeding: early sign of undiagnosed colon cancer or an ulcer
• Heavy menstrual losses (RDA of iron for women is twice the amount of men)

Question 53

What percentage of iron intake is absorbed overall?

Answer 53

10-15%

Question 54

How is the efficiency of iron absorption increased in the deficient state?

Answer 54

• Increasing synthesis of intestinal ferric reductase
• Increasing synthesis of divalent (Fe2+) metal transporter on the brush border of enterocytes
• Increasing synthesis of ferroportin on the basolateral surface of enterocytes

Question 55

If there is a problem with iron deficiency, why don’t we add more iron to wheat flour and pasta fortifications?

Answer 55

Because of the frequency of the genetic disease hemochromatosis

Question 56

What percentage of heme iron is absorbed? What percentage of non-heme iron is absorbed?

Answer 56

• Heme iron: 25% absorbed

- Non-heme iron: 1 to 50% (10% average)

Question 57

What substances aid in the absorption of non-heme iron? Why?

Answer 57

• Substances that reduce iron to Fe2+ (orange juice, vitamin C)
• Because iron is absorbed as reduced ferrous iron (Fe2+) and NOT as Fe3+ (oxidized ferric iron)

Question 58

Which compounds in the diet inhibit the absorption of non-heme iron?

Answer 58

• Polyphenols
• Tannins
• Phytates
• Oxalates

Question 59

What is the RDA for iron of men and women?

Answer 59

• Men: 8 mg/d

- Women: 18 mg

Question 60

What indicates that iron deficiency is not an issue for men? What indicates that it is for women?

Answer 60

• Men: for all stages of life, intake is greater then the RDA
• Women: prior to menopause (and after menarche), the RDA is substantially higher than the actual intake

Question 61

What is ferroportin?

Answer 61

Iron transporter on the basolateral membrane of enterocytes and reticuloendothelial cells

Question 62

What is hepcidin?

Answer 62

• Peptide hormone produced in the liver

- Decreases ferroportin, which makes it harder for iron to get out of stores for absorption

Question 63

What occurs to hepcidin during iron deficiency?

Answer 63

• Lower capability to transport oxygen, which signals the liver to decrease hepcidin synthesis
• A lower hepcidin level increases ferroportin, iron absorption, and iron release from stores
• More iron is available to synthesize red blood cells

Question 64

What other factors increase hepcidin synthesis?

Answer 64

• Infections and chronic inflammatory diseases

- Cytokines, particularly IL-6, increase hepcidin and transferrin

Question 65

What is the rationale behind increasing hepcidin synthesis during an infection or an inflammatory disease?

Answer 65

• Iron causes oxidative stress and it may be a limiting nutrient in bacterial infections
• The strategy is to limit iron supply or to keep it tied-up in stores to prevent bacteria from accessing iron (achieved through hepcidin and transferrin)

Question 66

Is iron overload and toxicity more common than iron deficiency in men?

Answer 66

Yes

Question 67

What is hemochromatosis? How many types are there?

Answer 67

• Genetic autosomal recessive disease characterized by a chronic overload of iron accompanied by tissue damage and oxidative stress, along with high iron stores in the liver and spleen
• There are 5 types

Question 68

What causes very efficient iron transport in hemochromatosis?

Answer 68

Decreased hepcidin synthesis increases ferroportin synthesis

Question 69

What causes cirrhosis in hemochromatosis?

Answer 69

Iron deposition as hemosiderin in the liver

Question 70

What is the treatment for hemochromatosis?

Answer 70

• Drugs that bind iron, preventing its high absorption

- Consuming low-iron products

Question 71

What part of iron metabolism is regulated? What isn’t regulated?

Answer 71

• Iron excretion is NOT regulated

- Iron absorption is regulated

Question 72

What hormone is synthesized in response to decreased oxygen supply? What organ synthesizes the hormone? What is its function?

Answer 72

• Erythropoietin is synthesized by the kidney

- Protein hormone that acts in the bone marrow to increase erythropoiesis (maturation of RBCs from stem cells)

Question 73

Describe two methods of illegal blood doping.

Answer 73

• Injecting EPO

- Extracting blood to freeze and then re-infusing back into their body

Question 74

What occurs to erythropoietin if an individual donates blood?

Answer 74

Erythropoietin synthesis increases

Question 75

What occurs to erythropoietin at a higher altitude?

Answer 75

• Erythropoietin synthesis increases

- Higher hemoglobin and hematocrit

Question 76

Which amino acid and TCA cycle intermediate is heme composed of? What do they combine to form?

Answer 76

• Glycine and succinyl-CoA

- Combine to form aminolevulinate (ALA)

Question 77

Describe the synthesis of heme.

Answer 77

1) Heme is made using succinyl CoA and glycine to make make Alpha-aminolevulinate (ALA), which is a heme monomer - Put together by ALA synthase
2) PBG synthase makes porphobilinogen
3) PBG Deaminase will take 4 units of porphobilinogen and puts them into a chain-> linear tetrapyrrole
4) Linear tetrapyrrole is converted into a cyclic Uroporphyrinogen III
4) Uroporphyrinogen III is converted into coproporphyrinogen III by UPG decarboxylase
5) Ferrochelase inserts iron into a cyclic form

Question 78

What are porphyria diseases?

Answer 78

Accumulation of porphyrin intermediates

Question 79

What is acute intermittent porphyria? What is it characterized by?

Answer 79

• Results from a deficiency in PBG deaminase (porphobilinogen to linear tetrapyrole)
• Neurological and psychological disturbances

Question 80

What is porphyria cutanea tarda? What is it characterized by?

Answer 80

• Results from a deficiency in UPG decarboxylase (uroporphyrinogen to coproporphyrinogen)
• Skin issues, such as blistering upon contact with light, dark pigmentation, and increased hair growth upon exposure to light
• Tend to avoid daylight, causing a pale skin colour
• Are behind the legends of werewolves

Question 81

What is the molecular cause of sickle cell anemia?

Answer 81

• Single SNP (glutamate substitution for valine) in a globin chain of the hemoglobin molecule
• Glutamate is a carboxylic acid, possessing a negatively charged carboxylic group, while valine is a hydrocarbon and non-polar

Question 82

What are the consequences of sickle cell anemia in homozygotes?

Answer 82

• Hemoglobin polymerizes when oxygen concentration is low, which prevents the cells from carrying oxygen, causing the cells to sickle
• Sickled red blood cells may become stuck within capillaries, causing ischemia due to the inability to provide sufficient oxygen to tissues

Question 83

What explains the commonality of sickle cell anemia?

Answer 83

Heterozygotes are resistant to malaria, which is a survival advantage

Question 84

is heme solible or insolubel

Answer 84

Insoluble

Question 85

What occurs when the heme releases iron? What happens to the iron?

Answer 85

• Heme is converted to biliverdin

- Iron is either stored bound to ferritin, or transported via transferrin to the bone marrow

Question 86

What is biliverdin metabolized to in the liver?

Answer 86

• Bilirubin, which is an insoluble, toxic waste product

- Bilirubin cannot be recycled, and must be excreted

Question 87

How is bilirubin transported in the blood?

Answer 87

Bound to albumin

Question 88

What occurs to bilirubin in the liver?

Answer 88

Conjugated with glucuronic acid to form bilirubin diglucuronide, which is transported to the intestine for excretion in bile

Question 89

What may occur to bilirubin in the intestine?

Answer 89

• May be acted on by the gut microbiota
• Reabsorbed and secreted within urine (urobilin)
• Excreted in feces (stercobilin)

Question 90

What is jaundice? What is it also known as?

Answer 90

• Also known as icterus

- Characterized by a yellowish pigmentation of the skin or whites of the eyes due to high bilirubin levels

Question 91

What is the cause of pre-hepatic jaundice?

Answer 91

• Caused by a large production of biliverdin due to an increased destruction of RBCs
• Due to malaria or G6PD deficiency

Question 92

What is the cause of hepatic jaundice?

Answer 92

• Caused by liver disease (hepatocellular)
• Hepatitis, cirrhosis, alcoholic liver disease
• Reduces the ability of the liver to metabolize or excrete bilirubin

Question 93

What is the cause of post-hepatic jaundice?

Answer 93

• Due to an issue with bile drainage (obstructive)

- Biliary atresia, causing cholestasis, inhibiting bile flow to the duodenum

Question 94

What is cholestasis? How is it diagnosed?

Answer 94

• A condition in which the components of bile are confined to the liver and cannot flow to the duodenum
• Diagnosed by pale feces (due to a lack of pigment in the intestine) and dark urine

Question 95

Why do neonates frequently possess jaundice? What is the treatment?

Answer 95

• Due to a production of bilirubin greater than their capacity to metabolize
• The treatment aims to destroy bilirubin via ultraviolet light

Question 96

Describe RBC degradation pathway

Answer 96

1) RBC taken up by liver and phagocytosed by cells.
2) Protein part is broken down by proteases into AA
3) Heme is break down start with the breakdown of the cyclin structure into the chain->Biliverdin
4) Biliverdin has to be broken down into the bilirubin

Question 97

__ is a market for healthy liver structure

Answer 97

Bilirubin is a market for healthy liver structure

Question 98

How is bilirubin excreted into bile?

Answer 98

Excreted in the bile like cholesterol