HORMONAL BASIS OF CANCER

Question 1

hormone indication with cancer

Answer 1

exogenous (HRT) and endogenous hormones drive cell division

the more cells divide the more chance they get for mutations

Question 2

possible carcinogenic mechanisms of cancer

Answer 2

• estrogen binds to receptor and sends grow signal to cell
• estrogen directly induces cell growth pathways such as ERK, PI3K
• estrogen metabolism makes nasty metabolites which can DNA damage
• estrogen down regulates DNA damage repair so cancer cells continue to grow gathering more mutations

Question 3

risk factors for breast cancer

Answer 3

• early menarche
• late menopause
• post menopausal obesity
• hormone replacement therapy

Question 4

how could being overweight cause cancer

Answer 4

1. fat cells make extra hormones and growth factors
2. hormones and growth factors provoke more cell division
3. this increases the chance of cancer cells being produced
4. which can then continue to divide and cause a tumour

Question 5

HRT and cancer

Answer 5

HRT slightly increases the risk of breast cancer, ovarian cancer, and sometimes womb cancer (risk is small)

HRT is an effective treatment of menopause, for most the benefits outweigh the risks

Question 6

how to target the oestrogen receptor

Answer 6

• reduce/block the formation of estrogens (aromatase inhibitors)
• block estrogen interaction with ER (ER antagonists)

Question 7

ER positive breast cancer

Answer 7

• 75% of breast cancer are ER positive
• these women can be treated with hormonal therapy
• tamoxifen, anastrozole, letrozole, exemestane

Question 8

advantages of Tamoxifen (ER antagonist)

Answer 8

• reduces risk of ER+ breast cancer
• more effect against invasive breast cancer
• benefits persist when its no longer taken
• strengthens bones
• lowers LDL cholesterol

Question 9

disadvantages of tamoxifen (ER antagonist)

Answer 9

• increases risk of uterine cancer
• increases risks of blood clots
• causes menopause-like symptoms

Question 10

tamoxifen vs aromatase inhibitors

Answer 10

• AI tend to be used when tamoxifen fails - fewer s/e/?
• tamoxifen prevents binding E to ER
• AI prevents production of Es

Question 11

personalised medicine - herceptin

Answer 11

Herceptin (Trastuzumab) for HER2 protein plus breast cancers

Question 12

mechanisms of action of herceptin

Answer 12

1. antibody dependent cell-mediated toxicity (ADCC)
2. lysis of HER2- expressing cells through complement (C’) activation
3. monoclonal antibody selectivity, targets the extraceullar domain of the HER2 protein

Question 13

side effects of herceptin

Answer 13

infusion reactions (itching, flushing, nausea)
headache
abdominal pain

Question 14

combination of chemotherapy drugs

Answer 14

FEC-T
fluorouracil (5FU)
epirubicin
cyclophosphamide
taxotere (docetaxel)

Question 15

prostate cancer

Answer 15

• most common cancer diagnosed, 2nd most frequent cause of death
• in first instance, locally invasive (androgen-dependent)
• recurring metastatic (castration-resistant) prostate cancer - incurable, prognosis is 16-18 months

Question 16

treatment strategies for prostate cancer

Answer 16

• all strategies coupled with active surveillance - monitoring the levels of prostate-specific antigen (PSA)
• surgery (radical prostatectomy)
• radiotherapy (branchytherapy)
• chemotherapy
• androgen depravation therapy (ADT)

Question 17

androgen depravation therapy (ADT)

Answer 17

• AR antagonists (steroidal vs non-steroidal; e.g. chlormadinone acetate vs flutamide)
• inhibitors of androgen synthesis e.g. abiraterone - inhibits extragonadal and intraumoral synthesis of androgens

Question 18

role of androgens in prostate cancer

Answer 18

• prostate cells (normal and malignant) are physiologically dependent on androgens to grow, function and proliferate
• testosterone is the primary male androgen majorly produced in the testes
• dihydrotestosterone (DHT) is a metabolite of testosterone and is a more potent androgen
• testosterone doesn’t cause cancer but promotes and encourages growth

Question 19

androgen deprivation can help to induce apoptosis or at the very least prevent further growth. it can be achieve in two ways:

Answer 19

1. surgical or medical ‘castration’; stops the production of testosterone
2. anti-androgen therapy; inhibits the action of testosterone preventing its interaction with the receptors on the prostate cancer cells

Question 20

inhibitors of androgen biosynthesis drugs

Answer 20

ketoconazole
abiraterone
TAK-700
TOK-001

Question 21

androgen receptor blockers

Answer 21

bicalutamide
nilutamide
flutamide
enzalutamide
ARN-509

Question 22

enzalutamide mechanism of action

Answer 22

• inhibits androgens binding to AR
• inhibits AR nuclear translocation
• inhibits AR mediated DNA binding