Regulation of Proteins: Haemoglobin/Myoglobin/Clotting cascade

Question 1

What kind of binding causes the sigmoidal curve of Hb and O2

Answer 1

Cooperative - with each O2 bound - Hb increases affinity for O2

Question 2

Where does oxygen bind in Hb and Myoglobin?

Answer 2

To haem groups - Fe can bond 2 Oxygen molecules (O2) either side of the plane of the pyrrole ring

Question 3

What happens to the structure of Haem in myoglobin on binding O2. Is it that relevant compared to the change in structure of Hb on binding O2?

Answer 3

Fe normally sits just below the ring, on O2 binding Fe moves up into plane of ring - movements causes movement of HisF8a nd small change in overall protein conformation. Not really as relevant as the change in Hb

Question 4

What is p50

Answer 4

Partial pressure giving 50% oxygen saturation

Question 5

Which has higher affinity for O2 myoglobin or Hb

Answer 5

Myoglobin

Question 6

What effect does cooperativity of O2 binding in Hb have on % of O2 delivery to tissues?

Answer 6

With cooperativity there is a 66% difference between the lungs and tissue meaning 66% O2 can be offloaded at tissues. Without cooperativity this would only be 38%

Question 7

What would be the consequence a the lungs/tissues of something that has very high affinity for O2

Answer 7

Good uptake at lungs low offloading at tissues

Question 8

How many BPG bind per Hb, what effect does it have? What effect on the oxyhaem cure? When would you see an increase in BPG?

Answer 8

1 per Hb
Reduces affinity for O2
At high altitude - increased O2 release at tissues.
Shifts curve to right

Question 9

Whats the conc of BPG at RBCs?

Answer 9

5mM

Question 10

What is the BOHR effect? What does it ensure? What does the BOHR effect do to the oxyhaem graph?

Answer 10

H+ and CO2 both bind Hb molecules and lower affinity for O2. Ensures release of at metabolically active tissues. Shifts to right

Question 11

What effect does CO have on Hb and humans? How do you overcome? Is it more or less dangerous in anaemic patients at 50% CO?

Answer 11

CO binds to Hb with higher affinity that O2 - prevents O2 uptake. Have to increase PPO2 to overcome. E.g. CO poisoning treatment in hosp is O2. Think less? but not sure why - something about lower affinity maybe so more O2 release at tissues so will survive longer?

Question 12

What happens to HbF with alpha-2 gamma-2 chains after birth?

Answer 12

Subsides - is foetal Hb

Question 13

What is alpha vs beta thalassemia?

Answer 13

Decreased or absent alpha or beta chains

Question 14

What happens in the different types of Thalassemia? Do symptoms for each appear before or after birth?

Answer 14

alpha - before birth
beta- baby - birth onwards

2 Beta alleles Loss of 1 beta chain = mild, loss of 2 = severe. Alpha chains precipitate on their own - severe anaemia

Hb Bart worst - usually stillborn

4 Alpha alleles Loss of 1 is silent, loss of any 2 = range of mild symptoms, loss of 3 severe, loss of all 4 = Hydrops fatalis - death

Question 15

Are alpha or beta chains unable to form stable tetramers on their own?

Answer 15

alpha are unable to form stable tetramers

beta chains can form stable tetramers with increased affinity for O2

Question 16

What are the symptoms of Thalassemia and what is the treatment?

Answer 16

Lassitude - weariness/tired
Swollen spleen
Yellow Sclera 
Increased reticulocytes in response.
Treatment is regular blood transfusion

Question 17

What is the basic structure of Hb?

Answer 17

2 alpha 2 beta chains in a tetramer

4 haem groups each carry oxygen

Question 18

What are the two Hb states? How are they formed?

Answer 18

R - relaxed high affinity = due to small rotation of subunits by 15 degrees exposes haem groups

T- tense low affinity = haem not exposed

Question 19

Which state of Hb does O2 binding promote stabilisation of?

Answer 19

R

Question 20

6 ways in which enzyme activity can be regulated in the short term?

Answer 20

Proteolytic cleavage
Covalent modification
Allosteric effectors
Isoenzymes
Substrate amount
Product inhibition

Question 21

What is product inhibition? Give an example of regulation

Answer 21

Where product inhibits forward reaction e.g. with Glycogen breakdown signals also inhibit synthesis

Question 22

What are isoenzymes and give an example of regulation

Answer 22

Same enzyme different catalytic properties - e.g. Gluco and Hexokinase

Question 23

What are allosteric effectors and give an example of regulation.

Answer 23

Regulation via a site that isn’t the active site can be activating or inhibiting. E.g. PFK - ATP is an allosteric inhibitor.

Question 24

Do allosterically regulated enzymes show Michaelis Mentes kinetics?

Answer 24

No- show sigmoid not hyperbolic. Sigmoid is between high affinity R state and low affinity T state

Question 25

What are zymogens? Give an example of regulation

Answer 25

Precursor proteins that are activated when needed via proteolytic cleavage. e.g. Digestive enzymes, blood clotting cascade.

Question 26

What is covalent modification as an enzyme regulation method? Give an example

Answer 26

Covalently modifying protein either reversibly or irreversibly. E.g. Phosphorylation reversible.

Question 27

How do you phosphorylate something? Why is it so useful (5)?

Answer 27

Add terminal P of ATP to ser, thr, tyr OH group.

1) Links energy status of cell to metabolism through ATP
2) Reversible
3) Amplification
4) Can then make H+ bonds with effector molecule
5) Adds two - charges can completely change protein shape

Question 28

Which are two long term methods of enzyme regulation to increase activity?

Answer 28

1) Increased synthesis

2) Reduced degradation - ubiquitin pathway stimulates degradation

Question 29

What enzyme regulatory mechanisms control the blood clotting cascade and how ?

activating
inhibiting
clot breakdown

Answer 29

Zymogens - many of the factors are proteases - cleave next bit.

Amplification - cascade and + feedback

Allosteric activation - e.g. Thrombin on factor V, VIII and XI

Degradation by proteases - factor V and VIII degraded by protein C

Specific inhibitors - Bind to Thrombin (AT3) and block its activity. Enhanced by heparin. AT3 does not bind to thombomodulin bound thrombin.

Fibrinolysis by proteolytic cleavage of zymogen plasminogen to plasmin which breaks clot - used in brain clots

Question 30

What do endopeptidases do in the clotting cascade? What does this lead to?

Answer 30

Cleave zymogens to activate - many are Factors. Leads to amplification of signal, each factor activates the next.

Question 31

Is Fibrin an enzyme?

Answer 31

No

Question 32

Is Thrombin an enzyme?

Answer 32

Yes

Question 33

What is the role of Gla domains Kringle domains and calcium in the coagulation pathway?

Answer 33

Gla domains target the protease function of prothrombin to the appropriate site for activation (site of damage) . Kringle domains keep prothrombin in inactive form. Ca2+ ions bind to Gla domains and help localise clots to site of damage

Question 34

What are Gla domains? What do they allow?

Answer 34

gamma-carboxyglutamate residues. Post translational modification of coagulation factors in liver. Addition of COOH groups to Glu residues to form carboxyglutamate (Gla). Allow interaction with sites of damage and bring together clotting factors.

Question 35

Which three things help ensure the clot is made at exactly the site of damage? Say how

Answer 35

Gla - target prothrombin to the site of damage
Kringle - help keep prothrombin in inactive form until needed
Ca2+ - binds to Gla domain helps localise clots to site of damage.

All ensure clotting factors are at site of damage.

Question 36

How does fibrinogen –> fibrin –> clot (2)

Answer 36

1) Thrombin cleaves fibrinopeptides A and B from central globular domain of fibrinogen
2) Globular domains at the C term ends of the beta and gamma chains then interact with exposed sequences at the N termini of the cleaved beta and alpha chains to form a fibrin mesh or clot

Question 37

How does this soft clot become a hard clot? Which two enzymes?

Answer 37

Further cross-linking - enzymes

Transglutaminase

Question 38

How is transglutaminase activated?

Answer 38

From a zymogen proteolytically cleaved by Thrombin

Question 39

Give an example of a disease caused by a problem with an allosteric activitor (regulates enzyme activity)

Answer 39

Haemophilia factor VII deficiency

Question 40

Which pathway extrinsic or intrinsic is self sustaining?

Answer 40

Intrinsic

Question 41

Is factor VIII a protease? How does it work?

Answer 41

No, activates other proteases - IX

Question 42

How is clotting amplified and accelerated?

Answer 42

Factor VIII increased by limiting proteolysis by thrombin and factor Xa - this positive feedback amplifies the clotting signal and accelerates clot formation.

Question 43

How do you treat Haemophilia?

Answer 43

Recombinant factor VIII

Question 44

How is the intrinsic pathway self-sustaining?

Answer 44

Allosteric activation by Thrombin + feedback on factor V, VIII and XI

Question 45

Defects in protein C can lead to what disease?

Answer 45

Thrombotic

Question 46

Which drug acts on AT3? What is the role of AT3?

Answer 46

Heparin

AT3 is a specific inhibitor- binds to thrombin (not when bound to thrombomodulin)

Question 47

How is a clot broken down? What is the basis for treatment of?

Answer 47

Plasmin - fibrinolysis to fibrin fragments

Of embolic stroke caused by blood clot

Question 48

Name 5 ways Thrombin is involved in the regulation of the coagulation cascade?

Answer 48

• Catalyses fibrinogen - fibrin by cleaving A and B sites on fibrinogen (fibrinopeptides)
• When thrombomodulin binds to thrombin it activates protein PKC which degrades V and VIII
• Thrombin has a + allosteric effect on factors V VIII and XI
• Thrombin activates protransglutaminase to transglutaminase which catalyses further cross linking to form ‘hard clot’

Question 49

What are the three stages that lead to stopping the clotting process?

Answer 49

1) Coagulation factor dilution in blood
2) AT3 binding to thrombin
3) Protein C degrades factors V and VIII - activated by Thrombomodulin

Question 50

What is the role of Thrombomodulin and Protein C?

Answer 50

Thrombomodulin binds to thrombin and activates Protein C which degrades factors V and VIII - stops clotting process