DNA/Ch Damage & Repair

Question 1

What is the mass of a positron and/or electron?

Answer 1

0.511 MeV

Or

9.11 x 10^-31 kg

Question 2

What is the principal interaction between photons and tissue in radiotherapy?

Answer 2

The Compton effect

Question 3

What is the dependency of the photoelectric effect on atomic no, Z, and photon energy, E?

Answer 3

PE Effect ∝ Z³/E³

Question 4

Why are photons in the PE effect range undesirable for RT?

Answer 4

Since PE depends on Z³, it would result in preferential absorption of the photons by bone.

Also, the low energy results in poor tissue penetration.

Question 5

What is the order of the minimum energy required to ionize an atom?

Answer 5

10 — 25 eV

MNEMONIC: IOnize → 10

Question 6

Why are the other members of the EM spectrum, besides XR and gamma rays, not ionizing radiations?

Answer 6

They do not have enough energy to ionize any existing element on this earth.

Question 7

Where in their tracks do charged particles deposit most of their energy?!

Answer 7

They deposit it at the end of their tracks (Bragg peak)!

Question 8

How does the probability of pair production depend on photon energy and atomic number?

Answer 8

It increases rapidly with both.

Question 9

What critical structure plays an important role is protecting DNA from radiation damage?

Answer 9

Histone proteins

Question 10

Which DNA damage is most implicated in cell death?

Answer 10

double strand breaks

Question 11

What is the function of RAD51?

Answer 11

It is a protein (recombinase) which plays a role in homologous recombination repair.

Question 12

What type of biological damage occurs from exposure to UV radiation?

Answer 12

Formation of pyrimidine dimers, pyrimidine (-4) pyrimidone photoproducts, and Thymine-Thymine dimers.

MNEMONIC: UV causes “P”ho”t”osynthesis

Also, dimerization is most associated with UV rays.

Question 13

How much temperature change does radiation cause?

Answer 13

5 Gy only causes 0.0001 C change!

Question 14

What causes T-T dimer formation?

Answer 14

UV Rays

Question 15

What is the frequency of each type of damage caused by radiation?

Answer 15

Base damage > single-strand breaks > double-strand breaks

Question 16

What is the atomic source of XRs?

Answer 16

They are produced extranuclearly.

Question 17

What is the atomic source of gamma rays?

Answer 17

They are produced intranuclearly.

Question 18

What causes damage in the case of neutron bombardment?

Answer 18

It is the recoil proton.

Question 19

What is LET?

Answer 19

Linear energy transferred

It is the amount of energy transferred per unit of length traveled.

Question 20

How does DNA damage compare between high LET and low LET radiation?

Answer 20

High LET radiation causes much more damage than low LET radiation for the same dose.

Question 21

Are most therapeutically used radiations (gamma, electrons, photons, etc) high or low LET?

Answer 21

Low LET.

Question 22

What are some examples of high LET radiation?

Answer 22

• α particles
• Carbon ions

Question 23

What is the Compton Scatter?

Answer 23

Photon interacts with an outer shell electron. The photon and the electron are scattered.

Question 24

Which electron shell does a PE effect photon interact with?

Answer 24

Inner shell!

Question 25

How do PE effect, Compton scatter, and pair production compare to one another?

Answer 25

Question 26

How does Ra-226 decay?

Answer 26

It decays into Radon (Rn) and an α particle

Question 27

Why is the alpha particle considered so dangerous?

Answer 27

If we breathe an alpha particle, there is no real way to remove it. It can sit there and cause damage for years and years.

Question 28

What is the direct action of radiation?

Answer 28

Direct interaction with and damage to the critical targets.

For high LET radiation, Most (NOT ALL) of the damage is due to direct effects.

Question 29

What is the indirect effect of radiation?

Answer 29

Production of free radicals, which can diffuse and cause damage.

For low LET radiation, 2/3 (67%) of the damage is due to indirect effects. The remaining 1/3 is 2/2 direct effects.

Question 30

What is the diameter of DNA?

Answer 30

2 nm

Question 31

What is the diameter around DNA in which a water molecule (hydroxyl radicle) must be produced to inflict damage to the DNA?

Answer 31

4 nm

Question 32

What feature of a radioprotector contribtues to its action?

Answer 32

The sulfhydryl group (-SH)

It is present in glutathione (GSH)!

Question 33

How long before RT should patients stop taking anti-oxidants?

Answer 33

2-3 weeks!

Question 34

What is the conversion between Rads and Gray?

Answer 34

100 Rads = 1 Gy

or

1 Rad = 1cGy

Question 35

What are the main conversions between the different units of radiation?

Answer 35

Question 36

What are the main conversions between different units of radiation?

Answer 36

Question 37

What is the average natural background radiation exposure per year in the US?

Answer 37

3 mSv

Question 38

What is the paradigm of radiation injury?

Answer 38

Question 39

What kind of double-strand break is error-free?

Answer 39

Homologous recombination: This uses the duplicate of a chromosome (identical chromatid) as a template to repair the DS break. This happens during the late S and G2 phases of the cell cycle, when chromosomes are duplicated!

Question 40

What is the most common cell cycle phase in a tumor?

Answer 40

G1 phase

Question 41

What is the most common mechanism of DS DNA break repair in tumor cells?

Answer 41

Since most cells are in G0, and G1 phases, when identical chromatics are not available, ds breaks are repaired by non-homologous end joining. This process is very error-prone.

Question 42

What is the most sensitive method of measuring DNA damage in modern times?

Answer 42

Comet assays

Question 43

What is a comet assay?

Answer 43

It is a gel electrophoresis system for detecting DNA breaks.

Question 44

What kind of DNA damage does Comet assay under neutral conditions pick up?

Answer 44

DS DNA breaks ONLY

MNEMONIC: Neutral = double-sided

Question 45

What kind of DNA damage does Comet assay pick up under alkaline conditions?

Answer 45

SS DNA breaks
AND
DS DNA breaks

MNEMONIC: Single = One-sided

Question 46

What method of measuring DNA can sense both damage and repair?

Answer 46

Pulse field gel electrophoresis (PFGE)

A pulsed electric current is run through a gel, causing broken DNA to migrate to one end of the gel. The extent of migration depends on the amount of damage.

Question 47

What is a micronuclear assay?

Answer 47

It is a method for detecting DNA damage. It looks at cells under a microscope and measures the amount of micronuclei, which are small nuclei-like structure that contain acentric fragments.

Question 48

What is a dicentric fragment?

Answer 48

It has two centromeres.

Question 49

What is an acentric fragment?

Answer 49

It has lost its centromere (no centromere).

Question 50

What is a chromosome vs. a chromatid aberration?

Answer 50

When damage occurs before the DNA is replicated in anticipation of cell division, it is a chromosome aberration.

If the chromosome is duplicated, usually only one of the chromatids will be damaged.

Question 51

What is chromatid aberration?

Answer 51

When damage occurs after DNA replication, usually only one chromatid is damaged and it is called a chromatid aberration.

Question 52

What lethal aberration results in the formation of dicentric chromosomes and acentric bodies?

Answer 52

When breaks occur in two different chromosomes and they join together inappropriately before replication. The replication process results in the formation of dicentric chromosomes (can segregate) and acentric fragments (are lost)

Question 53

What are acentric fragments?

Answer 53

They lack a centromere and thus cannot attach to the microtubule apparatus.

They are lost during cell division, and they usually represent loss of a large chunk of DNA.

Question 54

What lethal aberration results in the formation of ring chromosomes and acentric bodies?

Answer 54

When radiation strikes two parts of the SAME chromosome causing two breaks, the ends of the larger fragment join together, forming a ring. The smaller fragments turn into acentric bodies, which are eventually lost.

Question 55

What lethal aberration results in the formation of an anaphase bridge and acentric bodies?

Answer 55

Chromatid-type aberration

Occurs in post-replication chromosomes. Breaks occur in sister chromatids, which join together. Two smaller fragments also join together, forming an acentric fragment, which is lost.

Question 56

What lethal process results in the formation of an anaphase bridge and acentric bodies?

Answer 56

Occurs in post-replication chromosomes. Breaks occur in sister chromatids, which join together. Two smaller fragments also join together, forming an acentric fragment, which is lost.

Question 57

What is a symmetrical translocation?

Answer 57

Exchange of material between chromosomes. Can result in oncogene activation!

Question 58

What is chromosomal deletion?

Answer 58

It results in the loss of a part of the chromosome. It can result in the loss of suppressor genes and subsequent oncogenic progression.

Question 59

What is the ratio of DS to SS breaks caused by radiation?

Answer 59

1:25

Question 60

What is CDK4?

Answer 60

They are cyclin-dependent kinases that play a role in the progression of cell cycle from G1 to S phase.

Question 61

What are the two proteins involved in non-homologous end joining?

Answer 61

Artemis and DNA-PKcs

Question 62

What are the units/subunits of DNA-PKs?

Answer 62

It has a catalytic subunit and two small accessory proteins, Ku70 and Ku80.

Question 63

What family/domain does DNA-PK belong to?

Answer 63

It belongs to the phosphatidyl inositol 3-kinase-like protein kinase (PIKK) family

Question 64

What does knocking out DNA-PK in mice result in?

Answer 64

It causes a SCID-like syndrome, which causes radiosensitivity and immunodeficiency.

Question 65

What are some of the characteristics of SCID mice?

Answer 65

• They are radiosensitive
• They exhibit low levels of NHEJ 2/2 loss of DNA-PKs
• They lack immune systems, which permits human tumor grafts to grow on/in them.

Question 66

What kind of DNA repair can cells of patients with xeroderma pigmentosum not repair?

Answer 66

They cannot repair damage from UV light (pyrimidine dimers) 2/2 a lack of nucleotide excision repair.

They are NOT sensitive to ionizing radiation!

Question 67

What’s the role of MRE11 and what kind of disorder does it cause?

Answer 67

It is a protein (endo and exonuclease) that plays a role in DS DNA repair (both homologous and NHEJ).

A deficiency causes the ataxia-telangiectasia-like disorder.

Question 68

What is the role of Artemis protein?

Answer 68

NHEJ.

It cleaves any DNA loops or hairpins that can form during NHEJ, preparing the ends for ligation by ligase.

It ARTiculates the DNA for NHEJ.

Question 70

What are the first molecular signals for ds DNA breaks?

Answer 70

ATR

ATM
Exists as an inactive dimer in all cells
Radiation and ds DNA breaks break the dimer and activate it

Question 71

What protein is deficient in ataxia-telangiectasia?

Answer 71

Ataxia-telangiectasia mutated (ATM) protein is deficient in this disease. It plays a central role in ds DNA breaks repair and regulation of the cell cycle post-radiation.

This makes these people exquisitely susceptible to damage by radiation.

Do not confuse with MRE11, which causes AT-like syndrome, NOT AT itself.

Question 72

How are base pair damages repaired?

Answer 72

Base pair excision repair.

These are the most common type of damage following radiation.

Question 73

What percentage of the population is heterozygous for mutations a/w Ataxia-telangiectasia?

Answer 73

1-2%

Question 74

What is potentially lethal damage (PLD)?

Answer 74

• PLD is the amount of radiation damage that can be modified by the post-radiation environment
• Usually, if cell division is delayed (2/2 environment), the cells can repair this PLD. However, if they are egged on to divide, they do not repair this damage and die in the process of dividing

Question 75

Does neutron radiation cause any sublethal damage?

Answer 75

Virtually none.

Question 76

Which genetic syndrome makes people most sensitive to radiation?

Answer 76

Ataxia telangiectasia.

Question 77

Which protein localizes to the site of DNA double-strand breaks, and is used as a marker of DNA damage and repair.

Answer 77

γH2AX, the phosphorylated histone variant of H2AX, localizes to DNA double-strand break sides rapidly after damage and acts as a docking site for other DNA repair proteins.

Question 78

Which proteins first bind to the double-strand break sites during NHEJ? What’s the sequence of events?

Answer 78

Ku70/Ku80 heterodimer

They recruit the catalytic subunit of DNA-PK

Artemis, XLF, and DNA Ligase IV a/w XRCC1 are sequentially activated.

Question 79

What is the first signaling event at the site of a DSB that starts the DNA repair process?

Answer 79

Phosphorylation of H2AX at serine 139 by ATM (kinase).

Question 80

Persistently elevated levels of γH2AX 24 hours after DNA damage signal?

Answer 80

Poor DNA damage repair.

Question 81

What kind of DNA damage repair uses PARPs?

Answer 81

• SS DNA break repair
• PARPs are enzymes that detect single-strand breaks and initiate NER response

Question 82

What is the minimum amount of energy required to cause an ionization event?

Answer 82

10-12.5 eV

Question 83

What is D0?

Answer 83

It’s the dose required to reduce surviving cell fraction to 37%.

Question 84

What kind of damage does 1 Gy (or D₀) inflict?

Answer 84

≥ 5000 base damages
1000 SS breaks
30-40 DS breaks

Question 85

What LET is a/w clustered damage at low dose rates?

Answer 85

High LET

Question 86

What is the function of X-ray complementing factor 1 (XRCC1)?

Answer 86

It works with DNA ligase during base excision repair. It’s also involved in SS break repair. Mutations in this can make cells 1.7-fold more sensitive to radiation.

Question 87

What is the maximum RT dose that can be determined through peripheral blood lymphocyte assay?

Answer 87

4 Gy

Lymphocytes undergo rapid apoptosis and disappear after such doses.

Question 88

What is the minimum amount of RT dose that can be determined through dicentric chromosomes in the peripheral blood?

Answer 88

0.25 Gy or 25 cGy

Question 89

What is the dose relationship between the number of dicentric chromosomes and radiation dose?

Answer 89

Linear quadratic for low LET radiation

Linear for high LET radiation

Question 90

What is the minimum energy required to eject an electron?

Answer 90

12.6 eV

Question 91

What is the minimum energy required to cause an ion pair?

Answer 91

25 eV

Question 92

How many ion pairs are present in a blob and what is its diameter?

Answer 92

• 12 ion pairs
• 7 nm diameter
• More common w/ high LET radiation

Question 93

How many ion pairs are present in a spur and what is its diameter?

Answer 93

• 3 ion pairs
• 4 nm diameter
• More common w/ low-LET radiation

Question 94

Do high LET radiation (densely ionizing) produce more or fewer OH radicals than low LET radiation?

Answer 94

Less because of extensive ion and radical recombination within spurs and blobs!

Question 95

What is the order of the life of free radicals?

Answer 95

10^-10

Question 96

How soon after irradiation is H2AX protein phosphorylated?

Answer 96

15 mins

Question 97

Does the formation of terminal deletions follow a linear or exponential dose-response?

Answer 97

It follows a linear dose response since these are single-hit lesions.

Question 98

Is RAD52 involved in NHEJ or HR?

Answer 98

HR, along w/ BRCA 1/2
It recruits RAD51

Question 99

What are some features of people with LIG4 syndrome?

Question 100

Which enzyme is deficient in a person with LIG4 syndrome?

Answer 100

DNA ligase IV, which is involved in NHEJ.

Question 101

What is the main type of repair associated with UV-induced DNA damage?

Answer 101

Nucleotide (not base) excision repair.

NER is defective in people with XP.

Question 102

What gene is defective in Li Fraumeni syndrome?

Answer 102

p53

Question 103

Defects in HR or NHEJ confer more radiosensitivity?

Answer 103

NHEJ

Question 104

What kind of lesion leads to the formation of micronuclei?

Answer 104

Acentric fragments

Question 105

What is a quadriradial aberration? Which condition has a high number of such aberrations?

Answer 105

It is an illegitimate interchromosomal recombination, accompanied by crossing over.

They are found in abundance in people with Fanconi anemia.

Question 106

What is mitophagy?

Answer 106

It is the selective removal of damaged mitochondria.

Question 107

What is ribophagy?

Answer 107

Selective removal/degradation of ribosomes.

Question 108

What is reticulophagy?

Answer 108

Selective removal/degradation of the endoplasmic reticulum.

Question 109

What is pexopathy?

Answer 109

Selective removal/degradation of peroxisomes

Question 110

What is lipophagy?

Answer 110

Selective removal/degradation of lipids.

Question 111

Which drugs are FDA approved for the inhibition of autophagy?

Answer 111

Chloroquine and hydroxychloroquine (anti-malarial drugs)

Question 112

What is a functional endpoint within the context of radiation response?

Answer 112

It is an endpoint that is downstream of clonogenic survival and can include:

• organ/tissue function
• toxicity
• whole animal survival

Question 113

What is a clonogenic endpoint within the context of radiation response?

Answer 113

An endpoint that directly measures the replicative capacity of cells

Question 114

Between α and β, which represents lethal damage, and which represents sublethal damage?

Answer 114

α = lethal, unrepairable damage indep of fx or dose rate
β = sublethal damage, depends on fx and dose rate

β may become 0 if RT is given at a low dose rate over extended periods of time, giving the cells enough time to repair sublethal damage. Alternatively, high dose rates increase β.

Question 115

What is the spleen colony assay?

Answer 115

Measures radiation sensitivity of bone marrow cells in vivo.

Question 116

Are Xeroderma Pigmentosum patient cells sensitive or resistant to RT?

Answer 116

They have normal sensitivity to RT, but are relatively more resistant than people with syndromes that lead to defects in DNA damage repair.

Question 117

How does β (L-Q model) depend on dose rate?

Answer 117

The higher the dose rate, the larger the β
The lower the dose rate, the smaller the β (can even be 0)

Question 118

How do the timelines of the 4 R’s of radiation compare with one another?

Answer 118

Repair - hours
Redistribution - multiple hours
Reoxygenation - hours-days
Repopulation - days

Question 119

What is the equation for a purely exponential survival curve?

Answer 119

L-Q model → S = e ^-αD
Target theory model → S = e ^-D/D_o

Question 120

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

Answer 120

SF = e ^-D/D₀

Question 121

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

Answer 121

Each cell has multiple independent targets, all of which must be hit to kill the cell.

It applies to mammalian cells irradiated with low LET radiation.

Question 122

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

Answer 122

SF = 1 - (1-e ^-D/D_o)ⁿ

Question 123

What is a typical value for D_o?

Answer 123

D_o ~ 1 Gy

Question 124

How is D₁₀ related to D_o?

Answer 124

D₁₀ = 2.3 x D_o

Question 125

Conceptually, what does D_q represent?

Answer 125

A cell’s repair capacity

Question 126

Conceptually, what does D₀ represent?

Answer 126

A cell’s radiosensitivity

Question 127

What is Cockayne syndrome?

Answer 127

Makes pts photosensitive
Does not increase cancer risk

It’s COCKY but does no real harm

Question 128

What is effective D_o?

Answer 128

It applies to multi-fraction regimens.

D eff_o = - ln(SF_D) / D

where D is the fraction size

D eff_o is always larger than D_o

Question 129

What are some features of people with LIG4 syndrome?

Answer 129

• Radiation sensitivity
• Immunodeficiency

Question 130

What is microhomology-mediated end-joining (MMEJ)?

Answer 130

Cells deficient in HR rely on MMEJ (previously called alternate-NHEJ) to repair dsDNA break repairs.

The damaged portion is resected, and micro-sequences at the ends are identified and re-annealed. Deletions occur during MMEJ.

Question 131

What’s the sequence of events for an indirectly ionizing radiation to cause a biological effect?

Answer 131

• Free e^- liberation from H₂O (Compton process) → water ion radical formation
• Water ion radical (H₂O⁺) combines w/ another H₂O molecule → hydronium ion (H₃O ⁺) and hydroxyl (free) radical formation (OH^.)
• hydroxyl radical diffuses a short distance and breaks bonds → biological 𝛥

Question 132

What are the approximate lifetimes of a water ion radical (H₂O⁺), hydroxyl radical (OH^.), and DNA radical (R^.)?

Answer 132

• H₂O⁺: 10^-10s
• OH^.; 10^-9s
• R^.; 10^-5s

Question 133

How do cells decide whether ds DNA damage is repaired by NHEJ or HR?

Answer 133

• ATM phosphorylation and activation be MRN complex
• ATM supports the formation of γH2AX to mark sites of ds DNA damage
• 53BP1 binds to ds DNA breaks and prevents end resection → NHEJ
• BRCA1 is upregulated in S phase, and can displace 23BP1 to promote end resection → HR

Question 134

What is boron neutron capture therapy?

Answer 134

• Boron is injected into a blood vessel and preferentially collects in tumor cells.
• The patient receives radiation therapy with low-energy, thermal neutrons.
• The neutrons are captured by boron, leading to the formation of Li-7, α particle, and energy, resulting in localized tumor damage.

Question 135

What’s deaminated cytosine?

Answer 135

• Deamination of cytosine turns it onto uracil (U), which is found in RNA and not DNA
• If this happens in DNA, it will be recognized and repaired

Question 136

Can methylation and acetylation be part of normal covalent DNA modifications?

Answer 136

Yes!

Question 137

Which cells in the body have a genomic DNA (gDNA) and complementary (cDNA) that is different that the normal body cells?

Answer 137

• B and T cells
• They undergo site-specific rearrangement (VDJ recombination using NHEJ) in order to produce a range of antibodies and identify a range of foreign DNA
  – That’s why mice that lack NHEJ are immunodeficient!

Question 138

What is the MRN complex?

Answer 138

• It’s the ds DNA break repair sensing apparatus, composed of 3 subunits
  – Mre11: Endo & exonuclease that resects DNA ends and initiates homologous recombination
  – Rad50: Bridges DNA ends
  – Nbs1: Interacts w/ ATM