Cancer Chemotherapy & Pharmacology

Question 1

Cancer

Answer 1

= uncontrolled growth and spread within the body of abnormal forms the body’s own cells.

Question 2

Cancer cells

Answer 2

1. uncontrolled proliferation
2. de-differentiation
   - immature
   - loss of function
   - ‘immortal’
3. Invasiveness
   - actively leave tissue of origin
4. Metastasis
   - can proliferate in foreign tissues

Question 3

Chemotherapy

Answer 3

Chemotherapy = drugs that are selectively toxic to the invading organism (or cancer) but harmless or having minimal effects on the host (or normal cells)

Goal of chemotherapy is aimed at near total cancer cell kill Used in conjunction with surgery and radiotherapy

Question 4

Anti-cancer drug classes: cytotoxic agents (DNA)

Answer 4

Alkylating
Antimetabolites
Cytotoxic antibodies
Plant derivatives and similar compounds

Question 5

Anti-cancer drug classes: hormonal

Answer 5

Hormones/antagonists

• disrupt hormone dependent tumour growth

Question 6

Anti-cancer drug classes: non-cytotoxic

Answer 6

Protein kinase inhibitors

Monoclonal antibodies

Question 7

Cytotoxic drugs: Alkylating agents

Answer 7

Eg. Cyclophosphamide, cisplatin, dacarbazine, ifosfamide, melphalan

Form intra-strand covalent bonds in DNA

• impedes transcription & replication
• induces apotosis

Question 8

Cyclophosphamide uses

Answer 8

Use:
• Strong effects on lymphocytes
• Anti-cancer drug and immunosuppressant
lymphoma, breast cancer, leukemia, myeloma
• One of most commonly used alkylating agents • Given orally or i.v.
• Inactive until metabolized by P450 in liver

Question 9

Cyclophosphamide side effects

Answer 9

immune suppression, carcinogenic,

bone marrow toxicity (myelosuppression), GIT lining damage, nausea/vomiting, haemorrhagic cystitis (bladder), alopecia

Question 10

Cytotoxic drugs: Antimetabolites

Answer 10

Eg. Methotrexate, 5-fluorouracil, mercaptopurine, cytarabine

Block metabolic pathways involved in DNA / RNA synthesis

Question 11

Methotrexate

Answer 11

• Folate is essential for synthesis of purine nucleotides (building blocks of DNA/RNA)
• Inhibits dihydrofolate reductase
=> inhibits production of purines/pyrimidines

Question 12

Methotrexate uses and side effects

Answer 12

Use:
• Orally (also i.m., i.v., i.t.) • Anticancer:-
Breast and lung cancer, leukemia, lymphoma • Immunosuppressant (Rheumatoid Arthritis)

Side effects: Bone marrow toxicity (myelosuppression), GIT lining damage, nausea/vomiting, pulmonary and liver toxicity, hair loss (alopecia)

Question 13

Cytotoxic drugs: Cytotoxic antibiotics

Answer 13

Eg. Doxorubicin, mitomycin, dactinomycin, epirubicin

From microbes (Streptomyces spp.), too toxic as antibiotic drugs Prevent cell division via multiple effects on DNA/RNA synthesis - Bind to DNA and/or - inhibit topoisomerase enzyme

Question 14

Doxorubicin mechanism

Answer 14

• Topoisomerase II inhibitor (DNA gyrase)
• Binds to DNA (between base pairs)
• Traps DNA bound topoisomerase II

Question 15

Doxorubicin use

Answer 15

• Given i.v. (possible necrosis at injection site)
• Broad use for solid and blood tumours
• Not given with radiotherapy (cumulative toxicity)

Question 16

Doxorubicin side effects

Answer 16

myelosuppression, nausea/vomiting, hair loss (alopecia), cardiotoxicity (high doses)

Question 17

Non cytotoxic drugs 1: Antibodies

Antibody mechanisms

Answer 17

neutralise and flag invaders for destruction

Inhibit growth factors or GF receptors

1. Bind to agonist or receptor (inhibition)
2. Increase receptor internalisation
3. complement-dependent cytotoxicity 2. anti-body-dependent cell-mediated cytotoxicity (ADCC) via TC (CTL) cells

Question 18

Antibodies: Herceptin

Answer 18

HER2 is an oncogenic growth factor receptor (human epidermal growth factor receptor 2)
• Expressed breast cancer cells in ~25% breast cancer patients (aggressive form)
• Often used in combination with a taxane (e.g. docetaxel)

Question 19

Herceptin mechanisms

Answer 19

Mechanism
A. Prevents receptor activation
B. Induces anti-body-
dependent, cell mediated
cytotoxicity (ADCC)
C. Enhances receptor
internalization
=> decreases receptor active number

Question 20

Herceptin side effects

Answer 20

Side effects:
Hypotension, chills / fever, GI disturbances, fatigue, may induce hypersensitivity reactions
Possible liver and cardio toxicity

Question 21

Non-Cytotoxic drugs 2: Tyrosine kinase inhibitors

Answer 21

e.g imatinib

Inhibit protein kinases involved in growth factor receptor signaling => Targeted therapeutics (= lower side effects than cytotoxics)

Question 22

Imatinib - uses and SE

Answer 22

• inhibits oncogenic cytoplasmic kinase (Bcr/Abl)
• Unique oncogene in chronic myeloid leukemia (CML)
• Also inhibits kinase of platelet derived growth factor

Use:
• Given orally for CML • Some GIT tumors

Side effects:
GIT disturbances (pain, diarrhoea), nausea, headaches, fatigue, ~rashes

Question 23

Hormonal anti-cancer drugs: (non-cytotoxic 3)

Answer 23

E.g Tamoxifen (anti oestrogen);

Used in hormone-dependent tumors (breast, uterus, prostate) Þ Hormone receptors expressed in malignant cells

1: Suppress hormone synthesis/secretion
2: Antagonise hormone action

Question 24

Tamoxifen mechanism

Answer 24

Mechanism:
• Competes with endogenous oestrogen in breast cells (not in bone or endometrium)
• Inhibits transcription of oestrogen-dependent genes • Decreases expression of some growth factors

Question 25

Tamoxifen use and SE

Answer 25

Use:
• Effective in some hormone-dependent breast cancers
• May be preventative (used in high risk women)

Beneficial side effects:
• lowers LDL cholesterol => Risk of heart disease
• Strengthens bones
• Reduces breast cancer risk

Side effects: similar to menopause
Increase uterine cancer risk, and blood clot risk

Question 26

Tamoxifen problems

Answer 26

Resistance

already be resistant or develop resistance to effects of anti-cancer drugs

• Kinetic changes: uptake / metabolism
  (e. g. cyclophosphamide)
• Dynamic changes: enzyme
  (e. g. methotrexate)
• Induction of multiple drug resistance (MDR1) gene (P-glycoprotein / abc transp.)
  (e. g. Doxorubicin)

Limited efficacy
Single drugs can have varied effectiveness in many cancers

Question 27

Combination therapy

Answer 27

1. produces synergistic cell kill => increase efficacy (r.r.)
2. decreases development of resistance
3. decreases side effects

Guide for combinations
• Have some efficacy when used alone
• Drugs with different limiting side effects
• Use drugs with different mechanisms of action

Question 28

anti Cancer drugs side effects

Answer 28

Nausea and vomiting:
Major side effect from many anti-cancer drugs Common reason for decreased patient compliance
Myelosuppression: bone marrow toxicity
Major limiting side effect of many anti-cancer drugs
Results in low blood cell counts (anemia/fatigue, fever, bruising, susc inf.) - neutropenia

Question 29

Side effect management

Answer 29

Side effect management
Combination therapy:
Can increase cytotoxic effects on cancers without increasing s.e.

Dosing regimes: larger doses with 2-3 week gaps =>

1: allows bone marrow to recover
2: can get more effective cell kill than more frequent small doses

Pharmacological management:
Nausea and vomiting can be controlled using 5-HT3 receptor antagonists (ondansetron or granisetron) or metoclopramide Folinic acid: used with high doses of methotrexate
G-CSFs

Question 30

SUMMARY

Answer 30

• Cytotoxics = more side effects, and more severe
• Targeted therapies = less side effects, very expensive
• Problems include lack of efficacy, resistance and side effects
• Nausea and vomiting = big problems for seeing cycles completed.
• Combination therapy, different dosing regimes and pharmacological management
helps get around several of the problems.