Cell Responses to RT

Question 1

How to get plating efficiency?

Answer 1

Plate cells and do not radiate them (control).
The colony # that form gives you the plating efficiency!

Question 2

Formula to calculate surviving fraction (SF)?

Answer 2

Colonies counter / (cells plated x plating efficiency)

Question 3

What are the axes for L-Q survival curves plots?

Answer 3

log of SF against linear dose!

Question 4

For a L-Q cell survival curve, is the shoulder the linear or the quadratic part?

Answer 4

It is the linear part! it is directly proportional to D.

This is counter intuitive but it is so because we plot log of the surviving fraction!

Question 5

For a linear-quadratic (LQ) cell survival curve, is the “straight” slope the linear or the quadratic part?

Answer 5

It is the quadratic part! It is directly proportional to D²

This is counter intuitive but it is so because we plot log of the surviving fraction!

Question 6

What is the α/β ratio?

Answer 6

It is the dose in Gy at which the linear and quadratic components of cell killing are equal.

Question 7

For high LET radiation (neutrons, α particles), which part of the cell survival curve fraction (α or β) is predominant?

Answer 7

It is almost 90-99% α!

Question 8

What is the other popular model of cell survival?

Answer 8

The target theory model developed by Puck and Markus.

Question 9

What is D_o?

Answer 9

It comes from the Puck and Markus model of cell survival curve.

It is the dose at which the surviving fraction is reduced to 37%.

Conceptually, it is the dose to hit each cell in the culture one time.

Question 10

Why was 37% chosen as the surviving fraction for D0?

Answer 10

Because ln(0.37) = 1.

It makes calculations easier

Question 11

Is D_o the same at any portion of the cell survival curve?

Answer 11

Yes, as long as you are on the slope (NOT the shoulder) of the curve.

Question 12

What is D₁ ?

Answer 12

It is the initial slope, due to single event killing, the dose to reduce survival to 37%

Question 13

What is Dq (quasithrehold dose)?

Answer 13

You extend the straight portion of the curve back towards the y axis.

Where this line crosses SF 1 on y-axis, you get Dq from the x-axis.

Where this line intersects the y axis, that value gives you the n. n is a surrogate for how big the shoulder of the curve is.

Question 14

How do we define cell death in radiation?

Answer 14

Loss of reproductive ability

aka senescence

Question 15

What is the single-hit, single-target model?

Answer 15

Observed biological effect results from a single energy deposit. There is no shoulder to this curve!

It only occurs in three scenarios:

• high-LET radiation (alpha, neutrons)
• cells are in the M phase
• cells have a defect in their DNA repair

Question 16

What is the single-hit, multi-target model?

Answer 16

A cell has multiple targets that need to be hit for it to be killed. All must be hit before the cell dies!

Question 17

What are the assumptions of the target theory model?

Answer 17

• Ionizations near molecules cause structural changes (in DNA)
• There is a mathematical relationship between dose and effect
• Each ionization event is random (Poisson distribution)

Question 18

Between the L-Q and the target theory cell survival models, which one is the most accurate?

Answer 18

L-Q!

These curves are usually identical. It’s how we think about them that differs.

The T-T model was developed for a single-cell type. Thus, it works better for single-cell types or cells in culture.

In practice, for tissues with multiple cell types, the L-Q model is much more accurate.

Question 19

For two given D_o, which cell line is more radiosensitive?

Answer 19

The one with the lower D_o

Question 20

For a given set of n values from target theory model, which one is likely to belong to a radiation with high LET?

Answer 20

n = 1

Question 21

What kind of damage is represented by α and β?

Answer 21

α represents non-repairable damage. A single hit with high LET radiation does all the damage required to kill.

β represents repairable damage. Such damage usually requires two hits from two different radiation tracks separated by time. The damage may be repaired during this time!

Question 22

Why do we fractionate radiation instead of giving it as a single dose?

Answer 22

This allows for much more normal tissue sparing than if we were to give it as a single dose.

Question 23

Does apoptosis cause inflammation?

Answer 23

No, no cell contents are spilled out. Therefore, there is no inflammation.

Question 24

What is a mitotic catastrophe?

Answer 24

This happens when the DNA is damaged to the point that when the cell goes to divide, it cannot and must die off. It usually occurs after one or a few abortive mitotic cycles.

The cell remains active until it goes to divide.

Question 25

What is necroptosis?

Answer 25

It is a programmed (regulated) form of necrosis and inflammatory cell death. It is caspase-independent and often used as a defense mechanism (suicide) against viruses.

Question 26

What proteins (kinases, etc) are involved in necroptosis signaling?

Answer 26

1. RIP-1 → RIP-3 activation
2. RIP3 → MLKL activation (trimer formation)
3. Plasma membrane permeabilization

Mnemonic: RIP MLK

Question 27

What is pyroptosis?

Answer 27

It is an inflammatory form of apoptosis associated with the antimicrobial response. it requires induction of caspase-1 by pyroptosome.

It involves membrane rupture and the release of damage-associated molecular pattern molecules (DAMP).

Question 28

What are some initial changes to a cellular membrane that are observed during apoptosis?

Answer 28

Phospholipid phosphatidylserine translocates to the outer leaflet of the plasma membrane.

Question 29

What is the hallmark feature of apoptosis?

Answer 29

Formation of apoptosis blebs.

Question 30

How is apoptosis observed on Agarose gel electrophoresis?

Answer 30

DNA laddering.

This happens because DNA breakdown happens in a very orderly fashion, generally around nucleosomes.

it fragments the DNA in multiples of 185 bp fragments (May contain 1, 2, 3, or more of these 185 bp units)

Question 31

Does the cell shrink or swell up in apoptosis?

Answer 31

Shrinks

Question 32

Does the cell swell or shrink during necrosis?

Answer 32

Swell

Question 33

What are the most common pro-apoptotic proteins?

Answer 33

Bax, Noxa, Bid, Puma

Bid goodbye

Question 34

What are the most common pro-survival proteins?

Answer 34

Bcl-2, Bcl-XL

Question 35

What is the DNA domain difference between pro-survival and pro-apoptotic proteins?

Answer 35

The BH4 domain

Question 36

What role does p53 protein play in apoptosis?

Answer 36

It turns on Puma, Noxa, and Bax

Question 37

What is the importance of apoptosis in different cancers?

Answer 37

Lymphomas > Carcinomas > Sarcomas (NO apoptosis)

Question 38

What are the steps involved in the extrinsic apoptosis pathway?

Answer 38

1. TNFR, TRAIL, and/or Fas are activated by TNF, TRAIL R1/R2, and Fas ligands respectively.
2. These activate caspase 8 (extrinsic pathway initiator caspase)
3. This rapidly activates killer caspases 1, 3, 4, 6, and 7 (effector caspases)
4. This sets into motion a cascade of protease events that result in cell death.

Mnemonic: EXtrinsic → Eight, X (ten)

Question 39

What are the steps involved in the intrinsic apoptosis pathway?

Answer 39

1. ATM senses DNA damage and activates p53.
2. p53 activates Bax/Bak/Bad and other pro-apoptotic proteins.
3. Proteins cause mitochondria to leak cytochrome c
4. Cytochrome c activates caspase 9 (intrinsic pathway initiator caspase)
5. This rapidly activates killer caspases 1, 3, 4, 6, and 7 (effector caspases)
6. This sets into motion a cascade of protease events that result in cell death.

Mnemonic: INTrinsic → nINe, Two

Question 40

What type of cell death involves the release of cytochrome-C from mitochondria?

Answer 40

Apoptosis

Question 41

Where do endonucleases cut DNA?

Answer 41

Within the DNA.

Question 42

Where do exonucleases cut DNA?

Answer 42

At the ends of the DNA.

Question 43

What is the bp difference between different rungs of the apoptosis DNA ladder on gel electrophoresis?

Answer 43

185 bp

Question 44

What kind of DNA fragmentation is seen on Agarose gel electrophoresis in necrosis?

Answer 44

No patterns. Just a smear of DNA from one end to the other 2/2 random nature of DNA degradation.

Question 45

What is an annexin assay?

Answer 45

It is an assay for detecting apoptosis.

It detects phosphatidylserine on cell surfaces as they undergo apoptosis.

Question 46

What sort of genetic changes cause intrinsic radioresistance?

Answer 46

• Raf overexpression
• N-, H-, and K-ras point mutations
• Bcl2 overexpression
• Her2/neu overexpression

Question 47

What is the role of Bcl2 overexpression in apoptosis control?

Answer 47

Overexpression leads to radioresistance as it is a pro-survival (NOT pro-apoptotic protein).

Question 48

What is the number of tumor cells and doublings in 1g of tumor?

Answer 48

• 10⁹ cells
• 30 doublings

Question 49

What is the formula for tumor control probability?

Answer 49

P = e^-n

Question 50

What is TD50?

Answer 50

Tumor Dilution 50%

Number of tumor cells required to induce a tumor in 50% of recipient mice

Question 51

What is TCD50?

Answer 51

Tumor Control Dose 50%.

The dose required to control 50% of tumors.

Question 52

How many cells/tumor would be left by TCD37?

Answer 52

1 cell per tumor

This translates into a tumor control probability of 0.37 (37%)

Question 53

How is cell survival related to TCD?

Answer 53

Survival = 1 - TCD

Question 54

How many cells/tumor would be left by TCD90?

Answer 54

0.1

Or in 100 treated patients, only 10 tumor cell is left behind.

Question 55

How many cells/tumor would be left by TCD95?

Answer 55

0.05

Or 5 in 100 tumor cells

Question 56

How many cells/tumor would be left by TCD99?

Answer 56

0.01

Or in 100 treated patients, only 1 tumor cell is left behind.

Question 57

What are giant cells?

Answer 57

They are huge cells with multiple nuclei.

They represent cells undergoing mitotic catastrophe after the formation of chromosome aberrations.

Question 58

What is the primary mechanism of cell death following irradiation?

Answer 58

Mitotic catastrophe 2/2 missegregation of genetic material 2/2 chromosome aberrations or damage to replication machinery.

Question 59

What is the role of caspases in apoptosis?

Answer 59

They activate DNAses, which cleave DNA between nucleosomes.

Question 60

What is the final step in apoptosis?

Answer 60

Loss of membrane integrity
The membrane blebs off and disappears

Question 61

Does apoptosis occur singly or in clusters?

Answer 61

Singly.

Necrosis, by contrast, occurs in clusters.

Question 62

What is the initial intracellular event that kickstarts the intrinsic apoptotic pathway?

Answer 62

Leakage of cytochrome c from mitochondria.

Question 63

How does Bcl.XL prevent apoptosis?

Answer 63

Inhibits the release of cytochrome c from mitochondria.

Question 64

What is synthetic lethality as it relates to two genes?

Answer 64

Two genes are considered synthetically lethal if the inactivation of one out of the two does not cause cell death. However, inactivation of both does cause cell death.

Question 65

How does caspase 3 paradoxically cause tumor growth?

Answer 65

It is induced in irradiated, dying cells.

Caspase 3 acts via paracrine signaling and stimulates the growth of neighboring cells.

Question 66

What is the role of beclin?

Answer 66

It is an important part of autophagy.

It promotes the development of autophagosomes.

Mnemonic: Bec → beak (phagy?!)

Question 67

What part of the cell cycle are most cells in the body in?

Answer 67

G0 (out of the cell cycle)

Question 68

What part of the cell cycle are most tumor cells in?

Answer 68

G1

Question 69

Which part of the cell cycle or G0 is most radioresistant?

Answer 69

G0

Question 70

What is the R point in the cell cycle?

Answer 70

Restriction point.

It is a point in the G1 phase up till which cells need growth factors to continue in the cell cycle

After this, the cells do not need growth factors to complete the cell cycle.

Question 71

Which part of the cell cycle is the most variable in length between different cell types?

Answer 71

G1

Question 72

Which phases of the cell cycle are included in the interphase?

Answer 72

G1, S, and G2

Question 73

What is 3H-TdR used for?

Answer 73

It can be used to measure DNA synthesis.

Cells incorporate it into synthesizing DNA.

It emits β particles, which can be read.

It is called “auto-radiography.”

It takes weeks to months.

Question 74

What is BrdU?

Answer 74

Like 3D-TdR, it is taken up by synthesizing DNA.

An antibody directed against it is then used to label the DNA.

It is also used as a radiosensitizer.

Question 75

How does hydroxyurea affect cell cycle progression?

Answer 75

It kills cells in the S phase and blocks G1-S progression.

All the cells in culture progress to G1 and arrest there.

Question 76

How long does hydroxyurea take to synchronize the cell cycle?

Answer 76

The length of G2, M, and G1 phases.

Question 77

What is a drug-dependent method of synchronizing the cell cycle?

Answer 77

Hydroxyurea.

Question 78

What is the order of sensitivity of different phases of the cell cycle to radioactivity?

Answer 78

M > G2 > G1 > late-S phase

In practice, M and G2 are almost equally radiosensitive.

Question 79

What is the most radioresistant phase of the cell cycle?

Answer 79

Late S -phase

Question 80

What kind of conditions can make M-phase cells more radioresistant?

Answer 80

Hypoxic conditions.

Question 81

How do the survival curves of cells in different phase of the cell cycle compare to one another?

Answer 81

M phase usually has no shoulder (single-hit kinetics).

The more radioresistant a phase is, the more shoulder it has.

Question 82

How does cell sensitivity to radiation vary through the G1 phase?

Answer 82

Cells are more resistant in the early G1 phase, followed by a sensitive period in the late G2 phase.

Question 83

Which cell cycle-specific problem does fractionation avoid?

Answer 83

Cell-cycle synchronization.

Sensitive cells are killed off.

Resistant cells cycle to the more sensitive phases of the cell cycle.

Question 84

What is sublethal damage?

Answer 84

Damage that can be repaired in hours.

If it is combined with a second dose, it can create lethal damage.

Sublethal damage is represented by the shoulder of the cell survival curve

Question 85

What is potentially lethal damage?

Answer 85

This damage is usually lethal, but modulation of the post-radiation environment increases survival.

Question 86

Why do we fractionate with respect to reassortment?

Answer 86

To allow reassortment of tumor cells into the more radiosensitive phases.

To spare normal tissue by allowing time for tissue repair.

Question 87

What effect does fractionation have on repopulation?

Answer 87

As we fractionate, we give the tumor more time to repopulate.

Question 88

How does decreasing the dose rate affect survival?

Answer 88

There is a trend towards increased survival at low dose rates.

Testes and embryos are notable exceptions.

Question 89

Between what doses is the dose-rate effect most evident?

Answer 89

0.01 - 1 Gy/min

Question 90

How does dose rate affect testes?

Answer 90

Testes more sensitive to low-dose rates than high-dose rates (an exception to the rule).

Question 91

How does dose-rate affect the fetus?

Answer 91

Low-dose rates are more damaging because you will affect many phases of pregnancy as opposed to just one (receiving dose all at once).

This is also an exception to the usual dose-rate rule!

Question 92

Can stem cells within the jejunum be morphologically distinguished from their progeny?

Answer 92

They cannot be distinguished morphologically. However, they can be distinguished functionally, by their ability to reproduce and repopulate the crypts.

Question 93

What did the Till & McCulloch studies show?

Answer 93

They injected bone marrow cells into lethally-irradiated mice. Some of these cells developed colonies and nodules in the bone marrow of the recipient mice.

The donor mice were also irradiated, and it was shown that increasing doses required an increased number of harvested cells for Spleen colony formation.

Question 94

What feature distinguishes autophagy from other forms of cell death?

Answer 94

Reversability.

Question 95

How does D_o relate to the slope of the survival curve?

Answer 95

slope = 1/D_o

Question 96

What is the relationship between the extrapolation factor, n, quasi threshold dose, Dq, and D0?

Answer 96

ln(n)= Dq/D0

Question 97

What is the qualitative meaning of Dq?

Answer 97

It is the total amount of sublethal damage that cells must acquire before lethality occurs.

It is the threshold under which the multitarget, single-hit model is not applicable.

Question 98

What is another name for mean D0 or D37?

Answer 98

Mean lethal dose

Question 99

What is the relationship between D10 and D37?

Answer 99

D₁₀ = 2.3 x D_o

Question 100

Which cancer cell lines have apoptosis as the primary mechanism of cell death?

Answer 100

Leukemia and lymphoma

Question 101

What is the qualitative meaning of n, the extrapolation number), in the target theory model?

Answer 101

It is the number of hits to one target required to cause cell killing.

Question 102

What is the D0 for most mammalian, well-oxygenated cells?

Answer 102

1-2 Gy range

Question 103

What is the equation for a single hit, single target equation for the target theory model?

Answer 103

S = e^-D/D0

Question 104

How is D10 related to D0?

Answer 104

D10 = 2.3 x D0

Question 105

In the expression SF_x, what is the dose of radiation being used?

Answer 105

it is x Gy

Question 106

What are the initiator caspases? What’s their function?

Answer 106

Caspases 2, 8 , 9, & 10.

They initiate downstream executioner caspases that directly produce cellular effects.

Question 107

Which caspases are the executioners?

Answer 107

Caspases 1, 3, 4, 6, & 7

Question 108

What is the function of XIAP (BIRC4) during apoptosis?

Answer 108

It inhibits caspases.

XIAP = X-linked Inhibitor of Apoptosis

Question 109

Is apoptosis a common mechanism of cell death in epithelial tumors?

Answer 109

No.

Mitotic catastrophe is the main mechanism of cell death in such tumors.

Question 110

What triggers the intrinsic apoptotic pathway?

Answer 110

Damage to DNA or plasma membrane

Question 111

How does radiation damage plasma membranes?

Answer 111

It does so by activating sphingomyelinase, which hydrolyzes sphingomyelin and generates ceramide.

Ceramide then acts as a second messenger for apoptosis via the mitochondrial system.

Question 112

What are the morphological markers of mitotic catastrophe/senescence?

Answer 112

Multinucleation
Giant cells

Question 113

What’s the difference b/w senescence and quiescence?

Answer 113

• Senescent → metabolically active but cannot divide
• Quiescent → metabolically active and can re-enter the cell cycle, if needed

Question 114

What are some molecular markers of mitotic catastrophe/senescence?

Answer 114

p16
β-galactosidase

Question 115

How is autophagy induced?

Answer 115

1. Inhibition of mTOR
2. Activation of PI3K
3. Mitochondrial activation of ERK
4. Activation of JNK

Question 116

Which molecules mediate radiation-induced senescence?

Answer 116

it is caused by elevated p16 and p21, and permanent arrest in G1.

Question 117

What activates the extrinsic apoptotic pathway?

Answer 117

Membrane death receptors:

• TNFR
• TRAIL R-1
• TRAIL R-2
• FAS

These are activated by binding to TNF, TRAIL and FAS ligands.

Downstream, they activate caspase 8.

TRAIL = TNF-related apoptosis-inducing ligand

Question 118

How are cells undergoing apoptosis removed from tissue?

Answer 118

They are engulfed by phagocytes, which are recruited by increased expression of phosphatidylserine residues on the outer surface of the plasma membrane.

Question 119

What is the function of DIABLO?

Answer 119

It is the protein that inhibits the inhibitors of apoptotic proteins (IAPs) from inhibiting caspases, thereby, promoting apoptosis.

Question 120

Does apoptosis require energy?

Answer 120

Yes, it uses up ATP!

Question 121

What does the TUNEL assay identify?

Answer 121

NEL stands for nick-end labeling.

This assay labels DNA fragments generated during apoptosis.

Question 122

What is the chromosomal reason for mitotic cell death?

Answer 122

Misassortment of genetic material into daughter cells 2/2 asymmetrical chromosomal aberrations.

Question 123

What is an autophagosome?

Answer 123

An organelle that sequesters the cellular component to be removed.

It then fuses with a lysosome and digests the contents.

Question 124

Which family of proteins controls autophagy?

Answer 124

• At least 30 proteins from the Atg family.
• Atg8 and Atg6 care called LC3 and Beclin-1 respectively.
• AuTophaGy = ATG

Question 125

What is Anoikis?

Answer 125

Programmed cell death that occurs when cells are placed in an unfamiliar organ or tissue.

Cancer cells must overcome anoikis to metastasize.

Question 126

Which protein is a/w anoikis?

Answer 126

BIM-EL

BIM-EL → Bak, Bax activation → cytochrome c release → cell death

Question 127

What is a jejunal crypt stem cell assay?

Answer 127

Mouse intestines are irradiated with enough dose (≥11 Gy) to destroy the villi.

After 3.5 days, some of the jejunal crypts will start to regenerate.

1 regenerating crypt = 1 surviving clonogenic cell.

Endpoint = crypts per circumference.

Question 128

What is a bone marrow stem cell assay?

Answer 128

Donor mice irradiated with a test dose

Recipient mice irradiated with a supralethal dose ≥9 Gy (all bone marrow cells are killed).

Donor bone marrow injected into recipient mice.

Donor stem cells form colonies in the spleen which can be easily counted (this takes ~10 days).

1 colony = 1 surviving clonogenic cell. Endpoint = colonies per 10n donor stem cells.

Question 129

What is a skin clone assay?

Answer 129

High-dose radiation is used to create a “moat” of dead skin, with an “island” of intact skin in the middle.

The skin “island” is then irradiated with a test dose.

This area of skin regrows after 12–24 days as a series of nodules.

1 nodule = 1 surviving clonogenic cell.

Endpoint = skin nodules per cm2.

Question 130

What is a kidney tubule assay?

Answer 130

For each mouse, one kidney is irradiated and one is spared.

Wait 60 weeks, and then compare the number of intact kidney tubules on the irradiated side versus the unirradiated side.

Endpoint = % of tubules intact.

Question 131

What are spheroid systems?

Answer 131

Model tumor system

Uses a tumor cell line that grows as spheroids in cell culture (clumps of many cells, not single cells)

Spheroids are more “in vivo like” than a monolayer of cells, but less complex than what is found in an animal tumor model

Spheroids are irradiated while intact, and separated into single cells for plating and colony formation

Question 132

What are the morphological markers of mitotic catastrophe/senescence?

Answer 132

Multinucleation
Giant cell

Question 133

What is an unstable aberration?

Answer 133

Prevents chromosomes from properly segregating during mitosis

They decline in number over time, because it is highly likely to cause cell death.

Question 134

What is a stable aberration?

Answer 134

Do not affect chromosome segregation during mitosis.

Can persist for years, because it is unlikely to cause cell death.

Question 135

How is cell survival related to TCD?

Answer 135

Cell Survival = 1 - TCD

Question 136

What’s the mnemonic for cyclins and CDKs?

Answer 136

• DEAB, 6421 (↓ order)
  – Cyclin D + CDK 4/6 → G1-S transition
  – Cyclin E + CDK 2 → G1-S transition
  – Cyclin A + CDK 1→ G2-M transition
  – Cyclin B + CDK 1 → G2-M transition

Question 137

Are microbial cells (bacterial, yeast, etc.) more or less sensitive to radiation than human cells?

Answer 137

Less because of their ↓ DNA content

Question 138

How does the slope of the LQ curve change w/ increasing dose?

Answer 138

• It continues to bend w/ increasing dose, which is not what is observed experimentally
• However, it models the shoulder and the initial portion of the survival curve really well

Question 139

How does the slope of the LQ curve change w/ increasing dose?

Answer 139

• It continues to bend w/ increasing dose, which is not what is observed experimentally
• However, it models the shoulder and the initial portion of the survival curve really well

Question 140

Which phase of the cell cycle is cyclin A synthesized in?

Answer 140

S & G2

Question 141

Which phase of the cell cycle is cyclin B synthesized in?

Answer 141

G2 & M

Question 142

Which phase of the cell cycle is cyclin D/E synthesized in?

Answer 142

G1

Question 143

What’s the STING pathway?

Answer 143

• Stimulator of Interferon Genes (STING) pathway is activated in response to radiation
• Promotes inflammation