Cell damage and cell death

Question 1

What are the causes and mechanisms of cell damage/death?

Answer 1

• Genetic
• Inflammation
• Physical
• Traumatic damage
• Infection
• Chemical

Question 2

What are the 3 basic mechanisms which causes cell death?

Answer 2

1. Necrosis
2. Apoptosis
3. Autophagic cell death

Question 3

What is the most common cause of cell death?

Answer 3

Necrosis

Question 4

When does necrosis occur?

Answer 4

Occurs after stresses such as ischemia, trauma, chemical energy

Question 5

What is apoptosis?

Answer 5

Programmed cell death

Question 6

What is apoptosis designed to do?

Answer 6

Designed to eliminate unwanted host cells through activation of a co-ordinated, internally programmed series of events affected by a dedicated set of gene products

Question 7

What is autophagic cell death responsible for?

Answer 7

Autophagy is responsible for the degradation of normal proteins involved in cellular remodeling found during metamorphosis, aging and differentiation as well as for the digestion and removal of abnormal proteins

Question 8

What is the cause of necrosis and give examples?

Answer 8

• Usually caused by lack of blood supply to cells or tissues, e.g.
	○ Injury
	○ Infection
	○ Cancer
	○ Infarction
           Inflammation

Question 9

What is affected in necrosis?

Answer 9

Whole group of cells are affected in necrosis

Question 10

What is necrosis the result of?

Answer 10

Result of an injurious agent or event

Question 11

What happens if large amounts of water enter cells?

Answer 11

If large amounts of water enter, there is irreversible swelling

Question 12

Steps involved in necrosis

Answer 12

1. Whole group of cells are affected
2. Result of an injurious agent or event
3. Energy deprivation causes changes like cell is unable to produce ATP because of oxygen deprivation
4. As there is no ATP, ion pumps don’t function and hence causing a water influx
5. Haphazard destruction of organelles and nuclear material by enzymes from ruptured lysosomes
6. Cellular debris stimulates an inflammatory response

Question 13

What are the three microscopic appearance of necrosis?

Answer 13

• Nuclear change
• Cytoplasmic change
• Biochemical change

Question 14

What do we observe in nuclear change in necrosis?

Answer 14

1. Chromatin condensation/shrinkage

2. Fragmentation of nucleus

Question 15

What do we observe in cytoplasmic changes in necrosis?

Answer 15

1. Opacification: denaturation of proteins with aggregation.

2. Complete digestion of cells by enzymes causing cell to liquify (liquefactive necrosis).

Question 16

What do we observe in biochemical changes in necrosis?

Answer 16

1. Release of enzymes such as creatine kinase or lactate dehydrogenase
2. Release of proteins such as myoglobin

Question 17

What is the function of necrosis?

Answer 17

• Removes damaged cells from an organism
• Remove cell debris
-Failure to do so may lead to chronic inflammation

Question 18

What is apoptosis?

Answer 18

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

Question 19

What are the 2 types of apoptosis and examples?

Answer 19

• Intrinsic
	○ DNA damage – p53-dependent pathway
	○ Interruption of the cell cycle
	○ Inhibition of protein synthesis
	○ Viral Infection
	○ Change in redox state
• Extrinsic 
	○ Withdrawal of growth factors (e.g. IL-3)
	○ Extracellular signals (e.g. 
           TNF)
          § T cell or NK (Natural 
             Killer) (e.g. Granzyme)

Question 20

What are caspases and what do they play a role in?

Answer 20

They are cysteine proteases that play a central role in the initiation of apoptosis

Question 21

What do caspases do?

Answer 21

Cleave proteins that have the cysteine and aspartate residues together

Question 22

How are most proteases synthesised?

Answer 22

Most proteases are synthesised as inactive precursors requiring activation

Question 23

How can the inactive precursor of proteases be activated?

Answer 23

Usually partial digestion by another protease

Question 24

What are inactive precursors known as?

Answer 24

Inactive precursors known as pro-caspases

Question 25

What is apoptosis mediated by?

Answer 25

Apoptosis is mediated by an intracellular proteolytic cascafe

Question 26

Steps in procaspase activation

Answer 26

• Inactive procaspase Y can be activated by active caspase X

- Large and small subunit form a dimer to form activated form

Question 27

Steps in caspase cascade

Answer 27

○ Active initiator caspase (i.e. 8/9) will activate other caspases
○ As a result of this activation, cytosolic proteins that contain cysteine and aspartate residues are cleaved
○ Actin cytoskeleton in cells starts to breakdown
○ Cells start to collapse
○ Caspase can activate other effector caspases (i.e. 1, 3, 6, 7) resulting in amplification of proteolysis
○ Also cleave nuclear lamin which is usually needed for the nuclear envelope

Question 28

What does the caspase activation lead to?

Answer 28

• Caspase activation leads to characteristic morphological changes of the cell such as:
	○ Shrinkage
	○ Chromatin condensation
	○ DNA fragmentation
        ○Plasma membrane 
          blebbing 

Question 29

What is the DNA fragmentation of normal cells?

Answer 29

One thick band due to high MW so doesn’t run in electrophoresis

Question 30

What is the DNA fragmentation of apoptotic cells?

Answer 30

○ Can see clear laddering
○ Fragments
○ In apoptotic cells, nucleosomes and the DNA around them are intact but there is activation of nucleases that cleave within nucleosomes

Question 31

What is the DNA fragmentation of necrotic cells?

Answer 31

Smear

Question 32

How is the fragmentation of necrotic cells?

Answer 32

Fragmentation of DNA is random because cells do not have nucleosomes

Question 33

What are the 3 microscopic appearances of apoptosis?

Answer 33

• Nuclear changes
• Cytoplasmic changes
• Biochemical changes

Question 34

What are the nuclear changes of the microscopic appearance of apoptosis?

Answer 34

1. Nuclear chromatin condenses on nuclear membrane

2. DNA cleavage

Question 35

What are the cytoplasmic changes in the microscopic appearance of apoptosis?

Answer 35

○ Shrinkage of cell. Organelles packaged into membrane vesicles
○ Cell fragmentation. Membrane bound vesicles bud off
○ Phagocytosis of cell fragments by macrophage and adjacent cell
○ No leakage of cytosolic components

Question 36

What are the biochemical changes in the microscopic appearance of apoptosis?

Answer 36

○ Expression of charged sugar molecules on outer surface of cell membranes (recognised by macrophages to enhance phagocytosis)
○ Protein cleavage by proteases, caspases

Question 37

How do we activate initiator caspase?

Answer 37

By induced proximity

Question 38

Examples of induced proximity

Answer 38

• In response to receptor dimerization upon ligand binding

- Cytochrome C release from the mitochondria

Question 39

What is the extrinsic pathway?

Answer 39

• Transmembrane receptor can recruit adaptor protein
○ Adaptor protein will make dimers through death domain
○ Can also bring with it inactive procaspase 8
• Cells receive death ligand (TNF)

Question 40

What does TNF induce the formation of?

Answer 40

TNF induces the formation of a death inducing signalling complex

Question 41

Steps involved in the formation of DISC

Answer 41

• TNF brings receptors that come together
• Close proximity brings together procaspase 8
• Proteolysis of procaspase 8 results in activation

Question 42

What does cytochrome C trigger?

Answer 42

Another way of triggering apoptosis

Question 43

What does it mean if cytochrome C is present in the mitochondrial matrix protein?

Answer 43

If cytochrome C detected in cytoplasm, indicates cell will die

Question 44

What does cytochrome C have a binding site on?

Answer 44

Has a binding site on APAF

Question 45

What does APAF have and what can it bind and recruit?

Answer 45

APAF has domain that can bind and recruit procaspases

Question 46

What is the release of cytochrome C regulated by?

Answer 46

Regulated by the BCL family

Question 47

What do BCL-2 family members form?

Answer 47

BCL-2 family members form dimers

• Homodimers
• Heterodimers

Question 48

Examples of antiapoptotic factors

Answer 48

• BCL-2

- BCL-XL

Question 49

Examples of pro-apoptotic factors

Answer 49

-Bax

Question 50

Where is Bax located?

Answer 50

Bax is located in mitochondrial membrane

Question 51

What do Bax dimers create?

Answer 51

Bax dimer creates pore in the middle of the mitochondrial membrane

Question 52

What can cytochrome C be released through and to activate what?

Answer 52

Cytochrome C can be released through the pore into the cytosol to activate caspase 9

Question 53

What does BCL-2 form in normal cells and what does this prevent from escaping?

Answer 53

In normal cells, BCL-2 forms a ‘lid’ on top of the pore of the dimer so cytochrome C cannot escape

Question 54

What type of signal is Akt/PKB kinase?

Answer 54

Is a survival signal

Question 55

What is the substrate of Akt/PKB kinase?

Answer 55

Substrate of this is the pro-apoptotic protein BAD

Question 56

Where is BAD located and phosphorylated by what?

Answer 56

BAD is in the cytoplasm and can be phosphorylated by AKT

Question 57

What is phosphorylated BAD?

Answer 57

Phosphorylated BAD is inactive

Question 58

What happens if the cell stops receiving survival signal?

Answer 58

• Akt is no longer active so cannot phosphorylate BAD

- Excess unphosphorylated BAD can compete with BAX for binding to BCL-2

Question 59

What happens when apoptosis occurs due to DNA damage and what happens if this doesn’t happen?

Answer 59

P53 TF is activated which activates transcription of cell cycle inhibitor P21 to stop cell cycle and try to repair DNA
-If this doesn’t happen, P53 will activate transcription of autogenes

Question 60

What is one of the target genes of P53 and what does this mean?

Answer 60

• One of target genes of P53 is BAX so increased transcription of BAX

• Excess of BAX = excess BAX dimers that can create pores for the cytochrome C to pass through
  
  • This is because there are not enough BCL-2 molecules to act as a lid to the pore

Question 61

What does activation caspase 9 cause?

Answer 61

Cell death

Question 62

What are the most common mutations in cancer?

Answer 62

Mutations in the p53 gene are the most common mutations in cancer

Question 63

What do some mutations destroy the ability of to induce apoptosis?

Answer 63

Some mutations destroy the ability of p53 to induce apoptosis