Cell metabolism II

Question 1

What are some examples of lipids?

Answer 1

Free fatty acids, triacylgycerolis, phospholipid, glycolipids and steroids

Question 2

What is the structure of triacylglycerols?

Answer 2

Consists of a molecule of glycerol chemically bonded through a condensation reaction forming ester bonds to 3 fatty acids
Occurs between hydroxyl group of glycerol, and the carboxyl group of the fatty acids.

Question 3

What are the properties of triglycerides?

Answer 3

Long hydrocarbon tails are hydrophobic, insoluble in water

Question 4

What are saturated lipids?

Answer 4

Saturated lipids have single carbon bonds, this means that they have reached the maximum amount of hydrogen bonds. Each carbon atom is bonded to the adjacent one with a single covalent bond.

Question 5

What are the properties of saturated lipids?

Answer 5

Saturated lipids have higher melting points ,being solid at room temperature.

Question 6

What are unsaturated lipids?

Answer 6

Unsaturated lipids have double carbon bonds, meaning that they have the ability to bond to more hydrogen atoms, through a hydrogenation reaction.

Question 7

What is the biological significance of triglycerides?

Answer 7

Energy storage molecules
Waterproofing
Thermal insulation 
Protection of internal organs
Source of metabolic water
Buoyancy

Question 8

Why are triglycerides good energy storage molecules?

Answer 8

Hydrocarbon tail of fatty acids contain a lot of chemical energy, thus a lot of energy is released when oxidised during cellular respiration
store twice as much energy per gram

Question 9

Why are triglycerides good for waterproofing?

Answer 9

Hydrophobic nature of lipids reduces water loss through evaporation

Question 10

Why are triglycerides good insulators?

Answer 10

Thick layer reduces SA:V ration, reducing heat loss. Stored within adipose tissue under subcutaneous fat

Question 11

What is the product of B-oxidation?

Answer 11

Acetyl-CoA molecules

Question 12

Where does b-oxidation occur?

Answer 12

Mitochondria

Question 13

What are the sources of fats?

Answer 13

The diet, de novo biosynthesis, and storage deposits in adipose

Question 14

What is de novo synthesis?

Answer 14

Synthesis of complex molecules from simple molecules.

Question 15

What are bile salts?

Answer 15

Salts generated by the liver and stored within the gallbladder. Secreted from the bile duct into the intestine emulsifying fats to increase surface area, assisting digestion

Question 16

What vitamins does bile salts assist in the absorption of?

Answer 16

Vitamin A,D,E & K

Question 17

What results from a bile salt deficiency?

Answer 17

Fat passing through the gut undigested and unabsorbed resulting in steatorrhea

Question 18

Describe the mechanism of action of Orlistat?

Answer 18

Potent inhibitor of gastric and pancreatic lipase, behaves as a competitive inhibitor of lipase.
Prevents lipids and reduces fat absorption

Question 19

What are the benefits or orlistat?

Answer 19

Can be used to treat obesity

Question 20

What are lipoproteins?

Answer 20

Lipids are transported in the plasma by lipoproteins.

Question 21

What is the role of chylomicrons?

Answer 21

Dietary fat transport

Question 22

What is the role of VLDLs?

Answer 22

Endogenous fat transport

Question 23

What is the role of IDLs?

Answer 23

LDL precursor

Question 24

What is the source of VLDLs?

Answer 24

Liver

Question 25

What is the role of LDLs?

Answer 25

Transport of cholesterol

Question 26

What is the role of HDLs?

Answer 26

Reverse cholesterol transport

Question 27

What cells lining the brush border of the small intestine absorb dietary fat?

Answer 27

Enterocytes

Question 28

What are stored within chylomicrons?

Answer 28

Triglycerides

Question 29

What do high-density lipoproteins donate to chylomicrons?

Answer 29

Apoproteins

Question 30

What is the fate of chylomicrons?

Answer 30

Lipoprotein lipases located on endothelial cells enzymatically hydrolyse the triglycerides into fatty acids and glycerol, these enter into adipocytes.

Question 31

What occurs within adipocytes to fatty acids and glycerol?

Answer 31

Formed into triglycerides and stored within adipocytes
beta oxidation
Hormone sensitive lipase regulates the storage of triglycerides within adipocytes

Question 32

How are fatty acids transported within the blood?

Answer 32

As albumin

Question 33

Describe the life cycle of chylomicrons?

Answer 33

Nascent chylomicrons with triglycerides –> HDL transfers apoproteins –> Chylomicrons releases NEFA & glycerol –> Recycled in liver

Question 34

What forms the monolayer of lipoproteins?

Answer 34

Cholesterol, and phospholipids

Apoproteins

Question 35

What does the lipoproteins encapsulate?

Answer 35

Cholesterol esters and triacylglycerides

Question 36

Where does lipoprotein synthesis occur?

Answer 36

Occurs within the liver

Question 37

What are cholesterol esters formed from?

Answer 37

Formed from cholesterol and the dactyl chain of phosphatidylcholine by lecithin cholesterol acyltransferase

Question 38

How are cholesterol molecules transported in the blood?

Answer 38

Converted into cholesterol esters, and stored within LDLs

Question 39

Why is cholesterol converted into cholesterol esters?

Answer 39

Ester linkages remove hydroxyl group, decreasing the water solubility

Question 40

What is the function of HDLs?

Answer 40

Extracts cholesterol from cell surface membrane, converting them into cholesterol esters via LCAT
reverse cholesterol transport, transports to liver, and reduces total serum cholesterol

Question 41

What is the initial stage of beta oxidation?

Answer 41

Conjugation with coenzyme A in the cytosol by acyl CoA synthetase forming an acyl-Coa species

Question 42

What is the function of beta-oxidation?

Answer 42

Reduced hydrogen carriers (NADH, FADH2) used in ATP synthesise by oxidative phosphorylation
Acetyl-CoA used as a substrate in the TCA cycle

Question 43

How are fatty-acyl-CoA molecules transported into the inner mitochondrial membrane?

Answer 43

Carnitine shuttle, modified by carnitine palmitoyl transferase -1 to acyl carnitine

Question 44

What cytosolic enzyme converts carnitine into acyl carnitine?

Answer 44

Carnitine acyltransferase-1

Question 45

What transports acyl carnitine across the inner mitochondrial membrane?

Answer 45

Carnitine translocatie

Question 46

What is the destination of acyl carnitine within the matrix?

Answer 46

Acyl carnitine is cleated by Carnitine acyltransferase-II into carnitine and acyl-CoA

Question 47

What is the fate of acyl-CoA?

Answer 47

Acyl-CoA undergoes beta oxidation

Question 48

What type of disorder is primary carnitine deficiency?

Answer 48

Autosomal recessive disorder

Question 49

Which gene encodes for carnitine transporter protein?

Answer 49

SLC22A5

Question 50

What does the mutation in the SLC22A5?

Answer 50

Reduced ability to intake acylcarnitine into matrix for beta oxidation

Question 51

When does beta-oxidation end?

Answer 51

Until acetyl-CoA forms

Question 52

Palmitoyl-CoA is a 16 carbon compound, how many acetyl-CoA potentially forms?

Answer 52

8 Acetyl-CoA molecules, 16 carbon compound is consecutively decarboxylated to remove 2 carbons from acyL-CoA, forming acetyl-CoA

Question 53

How many cycles of beta-oxidation is required to generate 8 acetyl-CoA molecules?

Answer 53

7

Question 54

What is the fate of acetyl-CoA?

Answer 54

Oxidised in the TCA cycle provided oxaloacetate is present; used for lipogenesis; and the formation of ketone bodies.

Question 55

What are the products of one cycle of beta oxidation?

Answer 55

1 ATP, 1 FADH2, 1NADH, x acetyl-CoA

Question 56

How many molecules does acetyl-CoA yield?

Answer 56

12 ATP
3NADH = 3 x 3 = 9
FADH2 = 2
+ ATP.

Question 57

How many high energy bonds are utilised in beta oxidation?

Answer 57

2 ATP –> AMP

Question 58

How many ATP molecules does 16 Carbon molecule yield?

Answer 58

129

Question 59

What occurs during hypoglycaemia?

Answer 59

Ketone body formation,

Question 60

What does acetyl-CoA form during ketone body formation ?

Answer 60

Acetyl CoA forms acetoacetate, D-hydroxybutyrate and acetone (ketone bodies); ketogenesis occurs in liver mitochondria.

Question 61

What organs do ketone bodies supply?

Answer 61

Brain, heart, skeletal muscle

Question 62

What is lipogenesis?

Answer 62

Lipogenesis is the metabolic formation of fat; utilising two enzymes: acetyl CoA carboxylase and fatty acid synthase.

Question 63

How are fatty acids formed?

Answer 63

Elongation , reduction and dehydration

Question 64

What protein are developing fatty acyl groups linked to?

Answer 64

Acyl carrier protein

Question 65

Compare the carriers between lipogenesis and and beta oxidation?

Answer 65

Acyl carrier protein v CoA.

Question 66

What is the reduction power for lipogenesis?

Answer 66

NADP

Question 67

What is the reducing power for beta oxidation?

Answer 67

FAD/NAD+

Question 68

Where does lipogenesis occur within a cell?

Answer 68

Cytoplasm

Question 69

Where does beta oxidation occur within a cell?

Answer 69

Mitochondrial matrix.

Question 70

What is MCADD?

Answer 70

Medium chain acyl-CoA dehydrogenase deficiency

Question 71

What is the pathology of MCADD?

Answer 71

Prevents degradation of triacylglycerols and fatty acids, thus inhibiting B-oxidation, reducing ATP synthesis

Question 72

What are the recommendations for patients with MCADD?

Answer 72

Adhere to high carbohydrate diet, should not fast longer than 10-12 hours

Question 73

What are the metabolic features of the brain?

Answer 73

Requires continuous supply of glucose, cannot metabolise fatty acids
Ketone bodies used as a partial substitute

Question 74

What are the metabolic features of the heart?

Answer 74

Cardiac cycle and cardiac contraction designed for aerobic respiration.
Utilises Krebs cycles substrates
Cell necrosis and death

Question 75

What is gluconeogenesis?

Answer 75

The biochemical process, in which the respiratory substrate, glucose is synthesised from non-carbohydrate sources (amino-acids, lactate and glycerol)- the process mainly occurs in the liver and the cortex of the kidney; occurs when body carbohydrate levels are insufficiently low. Maintains blood glucose level.

Question 76

Which precursors enter gluconeogenesis?

Answer 76

Pyruvate, oxaloacetate, dihydroxyacetone phosphate

Question 77

What is the aim of the gluconeogenic pathway?

Answer 77

Lactate generated by skeletal muscle taken liver, lactate dehydrogenase through Cori cycle produce pyruvate

Question 78

What amino acids supply gluconeoegenesis?

Answer 78

Glucogenic amino acids

Question 79

What molecule is used to form dihydroxyacetone?

Answer 79

Glycerol backbone

Question 80

Which reaction must be bypassed first for gluconeogenesis?

Answer 80

Phosphoenolpyruvate + ADP –> Pyruvate + ATP (Pyruvate kinase)

Question 81

What is the first step of gluconeogenesis?

Answer 81

Pyruvate carboxylated into oxaloacetate, ATP required

Decarboxylated and phosphorylate to yield phosphoenolpyruvate

Question 82

How many additional high energy bonds required ?

Answer 82

Four

Question 83

What do ketogenic amino acids form?

Answer 83

Undergo ketogenesis to form ketone bodies

Question 84

Under anaerobic conditions what processes occur?

Answer 84

Cardiac glucose output increases, gluconeogenesis, glycogenolysis

Question 85

What are isoforms?

Answer 85

Different forms of hexokkinase within muscle and liver, maximally active at different concentrations of glucose

Question 86

What is Michaelis constant (KM)?

Answer 86

Concentration of substrate at which enzyme function at half-maximal rate (Vmax)

Question 87

What is the Km of hexokinase-1 found in the muscle?

Answer 87

0.1mM active at low concentrations of glucose, operation of maximal velocity

Question 88

What molecule is hexokinase sensitive to inhibition to?

Answer 88

Glucose-6-phosphate

Question 89

What happens under anaerobic conditions to hexokinase-1?

Answer 89

Accumulation of glucose-6-phosphate results in inhibition of activity

Question 90

What comparison of sensitive is hexokinase-1 in muscle compared to hexokinase-4 (liver)?

Answer 90

Higher km, less sensitive to glucose-6-phosphate (glycogen)

Question 91

What is glucose-6-phosphatase?

Answer 91

Found in liver, catalyses the reverse reaction of hexokinase, generating glucose from glucose-6-phosphate

Question 92

What is the function of glucagon?

Answer 92

Secreted during hypoglycaemic conditions; stimulates increased glucose cardiac output (glycognenlysis & gluconeogensis)

Question 93

Which cell secretes glucagon?

Answer 93

Alpha cells of the islets of Langerhans

Question 94

What effect does adrenaline have of glucose?

Answer 94

Increases rate of glycolysis, gluconeoegenesis and fatty acid release