1. Androgen Receptor signaling axis in castration-resistant prostate cancer
Lucarelli Giuseppe, MD, PhD
Urology and Kidney Transplantation Unit Dept of Emergency and Organ Transplantation University of Bari
This program is supported by an educational donation provided by 1

2. Prostate cancer disease continuum
Castration Resistant Prostate Cancer
Prostate cancer disease continuum
Death
Docetaxel/chemotherapy
2nd-line hormonal therapies
Castration
Bicalutamide
Flutamide
Nilutamide
Tumour volume
Local therapy*
Abiraterone
Cabazitaxel
Continued AR signalling
Symptoms
Asymptomatic
Non-metastatic
Metastatic
Hormone-sensitive
Castration-resistant
Time
AR, androgen receptor
Kohli & Tindall. Mayo Clin Proc 2010;85:77–86.

3. CASTRATE RESISTANT PROSTATE CANCER
PATHOPHYSIOLOGY
Testosterone
serum levels
(ng/dl)
Disease progression
tumor burden
(PSA levels)
150
100 50
Serum testosterone
Castration
threshold 20
Stimulation of Tumor Growth
time
De Bono ESMO Educational Program, Genitourinary Cancers modified

4. The road to resistance Pathway AR dependence Mechanism
Hypersensitive AR dependent AR amplification
AR splice variants
Promiscuous AR dependent AR mutation
Outlaw AR dependent Cross-talk with GF
signaling pathways
Bypass AR indipendent Parallel survival
pathways
Lurker cells AR indipendent Epithelial stem cells

5. Five possible pathways to androgen independence
Five possible pathways to androgen independence.   a | In the hypersensitive pathway, more androgen receptor (AR) is produced (usually by gene amplification), or AR has enhanced sensitivity (not shown) to compensate for low levels of androgen, or more testosterone is converted to the more potent androgen, dihydrotestosterone (DHT), by 5 -reductase. b | In the promiscuous pathway, the specificity of the AR is broadened so that it can be activated by non-androgenic molecules normally present in the circulation. c | In the outlaw pathway, receptor tyrosine kinases (RTKs) are activated, and the AR is phosphorylated by either the AKT (protein kinase B) or the mitogen-activated protein kinase (MAPK) pathway, producing a ligand-independent AR. d | In the bypass pathway, parallel survival pathways, such as that involving the anti-apoptotic protein BCL2 (B-cell lymphoma 2), obviate the need for AR or its ligand. Finally, e | in the lurker cell pathway, androgen-independent cancer cells that are present all the time in the prostate — possibly epithelial stem cells — might be selected for by therapy.

6. AR amplification AR gene amplifications are observed in 20-25% of CRPC
but they are very rare in primary tumors
Chen CD et al, Nature Medicine  10, (2004)

7. Higher AR levels convert antagonists to agonists
Chen CD et al, Nature Medicine  10, (2004)

8. Cell-cycle genes (UBE2C) steroidogenic enzymes
AR splice variants
Expression of
Cell-cycle genes (UBE2C)
Upregulation of
steroidogenic enzymes

9. AR mutations

10. T877A mutant (Thr→Ala) L701H mutant (Leu→His) Double T877A
E2/Prog
Double T877A
L701H mutant
(Zhao XY, Nat Med: 6, 2000)
E2/Prog
H874Y mutant
(His→Tyr)
Inappropriate
interaction with
AR coactivators
The promiscuous androgen receptor.   a | Mutations that broaden the specificity of the androgen receptor (AR): in the wild-type receptor, testosterone (T) and dihydrotestosterone (DHT) are agonists, whereas flutamide is an antagonist. The T877A mutant is activated by various non-androgenic steroid hormones, and flutamide also behaves as an agonist. The L701H mutant has reduced affinity for DHT and binds corticosteroids, but when the T877A and L701H mutations are combined, the resulting receptor (ARccr) has high affinity for corticosteroids. b | Models of the ligand-binding sites from the wild-type AR (left) and ARccr (right) with DHT bound, showing the extra space generated by the mutation of residues 701 and 877. Residues 701 and 877 are shown as space-filling models (carbon, white; nitrogen, blue; oxygen, red), and DHT is shown as a ball-and-stick model. A hydrogen bond can form between DHT and T877, but not between DHT and A877.

11. Q640Stop mutation generates a constitutively activated mutant AR
DHT 100 nM
DHT 100 nM
Q640Stop mutation generates
a constitutively activated mutant AR

13. AR Coactivators Coactivators PCa Expression Function
ARA70 Controversial data Enhances AR activities
or Tumor suppressor?
ARA Up-regulated Enhances AR activation
(Estradiol+Flutamide)
ARA ″
p Ligand indipendent
activation by IL-6
SRC Up-regulated Enhances AR activation
(Adrenal androgens)
TIF Up-regulated ″
PIAS Up-regulated
RAC Up-regulated Correlation with
grade & stage
AR coactivators augment functional activity of the receptor
by interacting with histones and are implicated
in ligand indipendent activation of the AR

14. Outlaw receptor
RAS
ADT results in de-repression of alternative survival pathways and in recalibration of prostate cancer tissue androgen levels leading to partial restoration of AR transcriptional activity.
How growth factor signal transduction creates outlaw receptors.   In the tumour cells of a patient receiving androgen ablation therapy, HER-2/neu (and possibly other receptor tyrosine kinases) can become overexpressed. HER-2/neu indirectly activates mitogen-activated protein kinase (MAPK). MAPK might phosphorylate the androgen receptor (AR), creating an androgen-independent 'outlaw' receptor. An alternative means by which HER-2/neu (or other pathways) might activate the AR is by activating the AKT (protein kinase B) pathway. In this pathway, activation of receptor tyrosine kinases, such as HER-2/neu, increase the level of phosphatidylinositol (3,4,5)-trisphosphate (PtdIns(3,4,5)P3) by activating phosphatidylinositol 3-kinase (PI3K). Another pathway might involve inactivation of the lipid phosphatase PTEN, so that PtdIns(3,4,5)P3 can no longer be converted back to its substrate, PtdIns(4,5)P2. AKT is activated by PtdIns(3,4,5)P3, and might be able to produce an outlaw AR by phosphorylating it. AKT can also activate parallel survival pathways by phosphorylating and inactivating pro-apoptotic molecules such as BAD and procaspase-9. ARE, androgen response element; PSA, prostate-specific antigen.
Karantos et al. Oncogene 2013 (in press)

15. 2. Impairs nuclear translocation
MDV-3100-Enzalutamide
Enzalutamide is an AR signalling inhibitor that inhibits AR signalling in three distinct ways:
3. Blocks DNA binding and activation
1. Blocks AR binding
Cytoplasm
Nucleus
2. Impairs nuclear translocation
Enzalutamide
DHT
Enzalutamide
Enzalutamide AR
2–3 fold lower affinity than DHT
Tran et al. Science 2009;324:787–90; Watson et al. Proc Natl Acad Sci USA 2010;107:16759–65.

16. Androgen metabolism in prostate cancer
Intratumoral androgens in CRPC tumors are maintained at levels sufficient to activate the AR signaling pathway
Activated steroidogenesis pathways provide an adaptive response to ADT, facilitating CRPC tumor survival in a low exogenous androgen environment.
The maintenance of intratumoral androgens can be accounted for in part by intratumoral or intracrine biosynthesis of steroid hormones, either via the uptake and conversion of adrenal androgens or potentially via de novo steroidogenesis.

17. Classic pathway
Backdoor pathway

18. Expression of steroidogenic enzyme transcripts in primary and metastatic prostate tumors
Soft tissue metastases from CRPC shows elevated testosterone compared to primary tumors
Transcripts encoding all enzymes involved in the sequential biosynthesis of testosterone and DHT from cholesterol precursors were expressed in the majority of castration-resistant metastatic tumors examined
Montgomery RB, Cancer Res 2008;11, 68

19. Meccanismo d’azione di abiraterone
Steroidogenesi
ipokaliemia
Ipertensione
sovraccarico di fluidi
Cholesterol
Desmolase
Renin-angiotensin
Deoxy-
corticosterone
Pregnenolone
Pregnenolo
Progesterone
Corticosterone
Aldosterone X
CYP17
17α-hydroxylase
17α-OH-
pregnenolone
17α –OH-
progesterone
11-Deoxy-
cortisol
Cortisol
ACTH
CYP17
C17,20-lyase
5α-reductase
DHEA
Androstenedione
Testosterone
DHT
CYP19:
aromatasi
Abiraterone
Estradiolo
Yang, Drugs. 2011; Attard, JCO 2008

20. Meccanismo d’azione di abiraterone
Steroidogenesi
Cholesterol
Basse dosi di steroidi minimizzano la tossicità mineralcoticoide - correlata
Desmolase
Renin-angiotensin
Deoxy-
corticosterone
Pregnenolone
Progesterone
Corticosterone
Aldosterone X
CYP17
17α-hydroxylase
17α-OH-
pregnenolone
17α –OH-
progesterone
11-Deoxy-
cortisol
Cortisol
ACTH
CYP17
C17,20-lyase
5α-reductase
DHEA
Androstenedione
Testosterone
DHT
CYP19:
aromatasi
Abiraterone + prednisone
Estradiolo
Yang, Drugs. 2011; Attard, JCO 2008

21. Stromal-epithelial interactions and intratumoral androgen biosynthesis
Alterations in androgen transport
normal
BPH
PCa
SLCO1B3
Wright JL, Cancer Epidemiol Biomarkers Prev. 2011

22. Conclusions
Persistent activation of AR signaling in CRPC suggests that
a majority of prostate cancers progress through pathways that
continue to activate the cellular AR program.
While the introduction of potent steroidogenic inhibitors such as abiraterone, in combination with novel AR inhibitors such as MDV3100, holds significant promise for the concept of multi-targeted AR pathway blockade, the optimal timing, sequence, and potential combinatorial strategies using new AR pathway inhibitors are critical unanswered questions in the treatment of men with CRPC.

23. Prostate cancer is not the only cause of death in men