(PM3B) Chemotherapy

Question 1

What is a benefit of combination chemotherapy?

Answer 1

Increased remission

Question 2

What is a downside of combination chemotherapy?

Answer 2

Increased side effects

Question 3

What are some potential chemotherapy targets?

Answer 3

(1) Nucleic acids
- DNA double helix
- DNA synthesis
- Amino acid synthesis

(2) Protein targets – enzymes/ receptors/ structural proteins

(3) Other biomacromolecules – cell surface feature (different on cancer cells to normal cells)

Question 4

What do alkylating drugs do?

Answer 4

Damage DNA

Interfere with cell replication

e.g. procarbazine/ cyclophosphamide

Question 5

Briefly, what are cytotoxic antibiotics?

Answer 5

Interact with proteins + DNA

e.g. doxorubicin

Question 6

Briefly, what are antimetabolites?

Answer 6

Incorporated into new nuclear material

Combine irreversibly with vital cellular enzymes

Prevent normal cellular division

e.g. methotrexate/ 5-fluorouracil

Question 7

Briefly, what are sex hormones and hormone antagonists?

Answer 7

Target biological hormone pathways

Interact with receptor binding sites

e.g. oestrogens/ progesterones

Question 8

Briefly, what are drugs that affect the immune response?

Answer 8

Include antiproliferative immunosuppressants + immunomodulating drugs

e.g. thalidomide (unlicensed) adesleukin

Question 9

Briefly, what are vinca alkaloids?

Answer 9

Target structural proteins

e.g. vinblastine/ vincristine

Question 10

Give an example of a chemotherapy drug not classified.

Answer 10

Taxanes

Question 11

What are alkylating agents?

Answer 11

Highly electrophilic compounds

React with nucleophiles (to form covalent bonds)
- Can react with any nucleophilic group

In DNA: purine bases
- N1 + N3 of adenine
- N3 of cytosine
- N7 in guanine is MOST targeted

Include nitrogen mustards, cisplatin + analogues, mitomycin C

Question 12

What is the mechanism of action of alkylating drugs?

Answer 12

(1) Drugs with 2 alkylating drugs can bind to guanine on each chain to cross-link the strands

(2) Disrupts replication/ transcription

Can also link 2 guanines on the same chain
- Prevents access by DNA enzymes required for DNA function

Question 13

What is cyclophosphamide?

Answer 13

Alkylating drug

Prodrug - metabolised in the liver to active form

Question 14

What is cisplatin?

Answer 14

Alkylating drug

Aggressive treatment

Called CISplatin due to two chlorine are on same side (not diagonal)

Question 15

What happens to cisplatin in the body?

Answer 15

(1) Enters extracellular environment

(2) Diffuses inside the cell

(3) Chlorine concentration is low inside the cell

(4) Hydrolysis of chlorine (loss)

(5) Replaced with water

(6) Reacts (crosslinks) with DNA at N7 of guanine (nucleophile)

Question 16

What does cisplatin that actually reacts with the DNA in the cell look like structurally? What processes has it undergone?

Answer 16

Two hydroxyl groups where the chlorine groups were previously

Undergone hydrolysis

Question 17

How does cisplatin react with DNA?

Answer 17

N7 of guanine acts as a nucleophile

Cisplatin is electrophile

Kinks DNA if binding 2 guanines on same side

Question 18

What are cytotoxic antibiotics?

Answer 18

Intercalating agents

Contain a planar aromatic region

Get in between DNA base pairs to inhibit enzymes + distort its structure

e.g. anthracyclines – cardiotoxic side effects

Question 19

How do cytotoxic antibiotics enter the DNA?

Answer 19

Via the major groove of the double helix

Intercalates using the tricyclic system

Charged amino group attaches to the sugar via an ionic bond to DNA backbone

Question 20

What is the purpose of intercalation of the DNA by cytotoxic antibiotics?

Answer 20

Inhibition of topoisomerase 2

Which is crucial for effective DNA replication + mitosis

Question 21

What is etoposide?

Answer 21

Targets topoisomerase 2

NOT via intercalation

Heterocyclic ring system, NOT aromatic

Binds to DNA + protein to keep ends apart – to inhibit re-ligation

Question 22

What are antimetabolites?

Answer 22

Target enzymes

Structurally resemble the preexisting purines + pyrimidines

Mistaken by the cell for normal metabolites

Can become incorporated into the DNA – do not allow DNA function
- Can cause strand breaks/ premature chain termination

Question 23

Give an example of a dihydrofolate reductase inhibitor.

Answer 23

Methotrexate

Question 24

What is the mechanism of action of methotrexate (a dihydrofolate reductase inhibitor)?

Answer 24

Inhibit dihydrofolate reductase

Which is essential for folate metabolism

Slows DNA synthesis + proliferation

Question 25

What are some side effects of antimetabolites?

Answer 25

(1) Bone marrow suppression

(2) Mucositis

(3) Diarrhoea

Question 26

Why is folinic acid given with methotrexate for chemotherapy?

Answer 26

Overcomes metabolic block caused by methotrexate

Rescues patient from toxic effect of treatment

Is a tetrahydrofolate so provides an alternative source for the synthesis of nucleic acids

Question 27

When is methotrexate given in chemotherapy?

Answer 27

Often in combination

To treat neoplastic cancers

Question 28

Name a thymidylate synthetase inhibitor.

Answer 28

5-fluorouracil

Question 29

What is a thymidylate synthetase inhibitor?

Answer 29

Allow synthesis of thymidine to be terminated

Stops DNA synthesis

Question 30

Why is 5-fluorouracil considered a suicide substrate?

Answer 30

Inhibits thymidylate synthetase irreversibly

Question 31

Which cancers are 5-fluorouracil used in chemotherapy?

Answer 31

(1) Breast cancer

(2) Liver cancer

(3) Skin cancer

Question 32

What are some side effects of 5-fluorouracil?

Answer 32

(1) Neurotoxic side effects

(2) Cardiotoxic side effects

Question 33

What are antimetabolite DNA polymerase inhibitors?

Answer 33

Prevents DNA polymerase replicating DNA

Can lead to DNA chain termination

Incorporated into DNA strand

e.g. cytarabine

Question 34

What is cytarabine?

Answer 34

Antimetabolite

DNA polymerase inhibitor

Question 35

Give an example of an antimetabolite DNA polymerase inhibitor.

Answer 35

Cytarabine

Question 36

What are the vinca alkaloids?

Answer 36

Inhibit tubulin polymerisation in cell division

e.g. vincristine/ vinblastine/ vindesine

Question 37

How are vinca alkaloids sourced?

Answer 37

NOT synthesised

Found in plants – adjusted slightly

Question 38

What are taxanes?

Answer 38

Inhibit tubulin depolymerisation

Question 39

What is the mechanism of action of taxanes?

Answer 39

(1) Bind to ß subunit of tubulin

(2) Binding accelerates polymerisation + stabilises resultant microtubules

(3) Inhibits depolymerisation because of this

(4) Cell division cycle stopped at G2/M stage

Question 40

What is a kinase inhibitor?

Answer 40

Target enzymes (structural proteins) – switches off oncogenic signalling

(1) Prevents phosphorylation of signalling proteins

(2) Inactivates signalling proteins

(3) Stops cellular processes

Question 41

How can cells develop resistance to kinase inhibitors?

Answer 41

Mutation of key amino acids in kinase binding site

Question 42

What are hormone based therapies?

Answer 42

Used for hormone dependent cancers

Hormone antagonists can be used to block hormone action

e.g. tamoxifen

Question 43

Why are glucocorticoids used in chemotherapy?

Answer 43

Treatment of leukaemia + lymphoma

Target glucocorticoid receptor signalling

(1) Bind to glucocorticoid receptors

(2) Inhibits cytokine production

(3) Alters oncogene expression

(4) Induces cell cycle arrest + apoptosis

Question 44

What are monoclonal antibodies?

Answer 44

Cancer cells have individually specific antigens which have been over-expressed

Antibodies that recognise a distinct antigen

Question 45

What types of monoclonal antibody are there?

Answer 45

(1) Trigger immune response to attack cancer cells, e.g. rituximab

(2) Block signals related to cell division, e.g. trastuzumab

(3) Deliver drugs/ radiation to cancer cells, e.g. ibritumomab