Mechanisms Of Disease 2

Question 1

What is the function of necrosis?

Answer 1

Removes damaged cells from a organism
Failure to do so may lead to chronic inflammation (necrosis induces acute inflammation to clear cell debris via phagocytosis)

Question 2

What causes necrosis?

Answer 2

Usually a lack of blood supply (injury, infection, cancer, infarction, inflammation)

This decreases the ppO2 in the affected area and a decrease in the pH

Question 3

Describe the process of necrosis step by step.

Answer 3

1. Result of an injurious agent or event
2. Initial events are reversible, later ones die
3. Lack of oxygen prevents ATP production
4. As ATP require for ion pumps to work - cells swell due to a influx of water
5. Lysosomes rupture; enzymes released degrade other organelles and nuclear material haphazardly
6. Cellular debris released, triggering inflammation

Question 4

What nuclear changes occur in NECROSIS under a microscope?

Answer 4

Nuclear changes:

• chromatin condensation/shrink
• fragmentation of nucleus
• dissolution of chromatin by DNAse

Question 5

What cytoplasmic changes occur during NECROSIS under a microscope?

Answer 5

• opacification: protein denaturation and aggregation - turns white
• complete digestion of cells by enzymes causing cell to liquify

Question 6

What biochemical changes occur during NECROSIS under a microscope?

Answer 6

• release of enzymes (creatine kinase and lactate dehydrogenase)
• release of proteins (myoglobin)

Question 7

What is the function of apoptosis?

Answer 7

Selective process for the deletion of superfluous, infected or transformed cells

Involved in:
- Embryogenesis
- Metamorphosis
- Normal tissue turn over

Question 8

Describe the step by step process of apoptosis

Answer 8

1. Programmed cell death of one or few cells
2. Events are irreversible and is energy dependent (requires ATP)
3. Cells shrink as the cytoskeleton is dissembled
4. Orderly packaging of organelles and nuclear fragments into membrane bound vesicles
5. New molecules are expressed on vesicle membranes that stimulate phagocytosis without causing a inflammatory response

Question 9

What cytoplasmic changes occur during APOPTOSIS under a microscope?

Answer 9

• shrinkage of cell + organelles packaged into membrane vesicles.
• cell fragmentation + membrane bound vesicles bud off
• phagocytosis of cell fragments by adjacent cells and macrophages
• minimal leakage of cytosolic components so no inflammation

Question 10

What nuclear changes occur during APOPTOSIS under a microscope?

Answer 10

• nuclear chromatin condenses on the nuclear membrane
• DNA cleavage

Question 11

What biochemical changes occur during APOPTOSIS under a microscope?

Answer 11

- expression of charged sugar molecules on the outer surface of membrane of vesicles

• protein cleavage l protease, caspases

Question 12

What is metamorphosis?

Answer 12

Tadpoles tail is lost by apoptosis

Question 13

What is interdigital web loss?

Answer 13

The webs between paws are lost in mouse paw development
Also occurs in humans (syndactyly)

Question 14

What are the two types of apoptosis?

Answer 14

Intrinsic

• viral infection (on,y once virus is in cell)
• Inhibition of protein synthesis
• DNA damage

Extrinsic

• withdrawal of survival, factors
• Extracellular signals
• T cell or NK

RELATIVE TO THE CELL

Question 15

What are capsases?

Answer 15

The point of convergence for causes of apoptosis.
They are cysteine proteases.
Arrange themselves to form a activation cascade, where one cleaves and activates the next.

Question 16

What are the different type of caspases?

Answer 16

Initiator caspases

• 8,9
• few molecules

Effector caspases

• 1,3,6,7
• more and more molecules

Question 17

What occurs during a caspase cascade?

Answer 17

1. A inactive procaspase Y is cleaved by active caspase X where a pro domain (NH2) is removed
2. Caspase Y is now active and consists of a small and large subunit
3. Active caspase Y can activate other caspases

Question 18

What is the function of the caspase cascade?

Answer 18

Cleavage of cytosolic proteins

Cleavage of nuclear lamina (nuclear membrane)

Question 19

What is the effect of caspase activation?

Answer 19

Leads to characteristic morphological changes:

• shrinkage
• chromatin condensation
• DNA fragmentation
• plasma membrane blabbing

Question 20

How are initiator caspases activated?

Answer 20

Activate themselves when in close proximity

Question 21

How is extrinsic apoptosis induced?

Answer 21

By ligand binding to receptors, causing receptor multierisation, which leads to the activation of the initiation caspase

Question 22

What are the molecules involved in the ligand induced multimerisation?

Answer 22

Outside cell/on surface:
- receptor
- ligand

Inside cell:
- death adaptor
- procapase-8

Question 23

What is the structure of the receptor?

Answer 23

Ligand binding domain

DEATH DOMAIN

Question 24

What is the structure of the death adaptor?

Answer 24

DEATH DOMAIN

DEATH EFFECTOR DOMAIN

Question 25

What is the structure of the procaspase-8?

Answer 25

DEATH EFFECTOR DOMAIN

protease domain

Question 26

Describe ligand induced multimerisation using TNF (tumour necrosis factor)

Answer 26

1. TNF binds to TNFR
2. Brings together per the death domains of the receptors in close proximity which creates a environment for other proteins containing these domains is favoured.
3. Death adapter protein (FADD) associates/dimerises with the receptors death domain
4. This leads to a high concentration of death effector proteins, inducing a environment for other molecules with the death effector domain to bind
5. Procaspase-8 then binds/dimerises with FADD
6. A death inducing signalling complex (DISC) is formed
7. Procaspase-8 is then released through auto proteolysis and can induce a caspase cascade in the cell

Question 27

How is intrinsic apoptosis induced?

Answer 27

By cytochrome c released from mitochondria.

(One form of extrinsic apoptosis can also use cytochrome C)

Question 28

What is cytochrome c?

Answer 28

Mitochondrial matrix protein

Released in response to oxidative stress by a “permeability transition”

Question 29

What molecules are induced in cytochrome c induced apoptosis?

Answer 29

Cytochrome

APAF-1

Procaspase-9

Question 30

What is the structure of APAF-1?

Answer 30

• cytochrome binding site
• APAF domain
• CASPASE RECRUITING DOMAIN

Question 31

What is the structure of procaspase-9?

Answer 31

• CASPASE RECRUITING DOMAIN
• protease domain

Question 32

Describe cytochrome c induced apoptosis.

Answer 32

1. Cytochrome binds to APAF-1
2. Creates a environment of high caspase recruitment domain affinity
3. Procaspase-9 binds to APAF-1 and a Apostosome forms
4. Auto proteolysis activates caspase 9

Question 33

How is the real ease of cytochrome c from the mitochondria regulated?

Answer 33

By a pore made of BCL-2 family of proteins

Some are not membrane proteins

All have a BH3 domain used to form dimers

Question 34

What are the 2 types of BCL-2 proteins and they’re function?

Answer 34

Pro-apoptotic:
- facilitate cytochrome c release

Anti-apoptotic:
- repress cytochrome c release

Question 35

Describe the example of BAX and BCL-2 and BAD

Answer 35

1. BAX only - cytochrome c is released
2. BAX and BCL-2 - cytochrome c remains in mitochondria (BCL-2 is not a membrane protein and blocks the use of the BAX channel)
3. BAX and BCL-2 and BAD - cytochrome c can leave mitochondria as BAD has a greater affinity for BCL-2 it displaces it and prevents it from binding to BAX

Question 36

How does TP53 regulate BCL-2?

Answer 36

1. Transcription is driven by TP53
2. Increased BAX production
3. More BAX inserted into membrane
4. Increased permiability of cytochrome c

5. Cytochrome c leaves mitochondria and cell death occurs

Question 37

How do growth factors regulate BCL-2 by phsophorylation?

Answer 37

1. Growth factors from survival signals activate Akt/PKB which phosphorylated BAD
2. BAD cannot bind to BCL-2
3. Cell survives ac cytochrome c cannot leave the mitochondria

Question 38

Why is necrosis usually more damaging then apoptosis?

Answer 38

Apoptosis is a controlled process where the cell contents are packaged in membrane and not released. This means the surrounding tissue is protected from damaging molecules such as proteases.

Question 39

Explain why lack of oxygen causes cells to swell as part of necrosis

Answer 39

Lack of oxygen prevents oxidative phosphorylation

Less ATP production

Lack of ATP prevents normal function of sodium channels

Leads to a altered ionic balance across the membrane leading to the entry of water into the cytoplasm.