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mTOR: a new pathway to target in oncology

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Sensor of physiological signals 'Downstream' of PI3K / AKT pathway ... 2 condition the tumor to adapt to growth under hypoxic conditions and promote ... – PowerPoint PPT presentation

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Title: mTOR: a new pathway to target in oncology


1
mTOR a new pathwayto target in oncology
  • Madlaina Breuleux, PhD
  • Novartis Phrma AG
  • Basel, Switzerland

2
The mTOR pathway and cancer
mTOR (mammalian Target Of Rapamycin)
  • A high molecular weight serine-threonine kinase
  • Senses and responds to cellular nutrient and
    energy levels
  • Influences protein translation regulating G1
    progression, S-phase entry, and ultimately cell
    growth and proliferation
  • Functions downstream of the PI3 kinase / AKT
    pathway, which is often deregulated in human
    cancer
  • mTOR pathway deregulation causes loss of growth
    control in cancer

3
mTOR A central controller of tumor cell growth
4
mTOR A controller of angiogenic processes
5
RAD001 (Everolimus) An oral mTOR pathway
inhibitor
  • Broad antiproliferative and antitumor properties
  • Inhibits the mTOR pathway
  • Sensor of physiological signals
  • Downstream of PI3K / AKT pathway
  • RAD001 activity associated with overactivation of
    the PTEN / PI3K / AKT pathway
  • Inhibits tumor cell growth
  • Delays G1/S phase progression
  • Sensitises tumor cells to targeted and
    chemotherapeutic agents
  • Anti-angiogenic properties
  • Direct and indirect activity
  • Phase IB/II clinical trials in oncology

Model of RAD001 binding to intracellular receptor
(FKBP-12) to form complex inhibiting mTOR pathway
6
p-AKT levels correlate with RAD001 sensitivity
7
RAD001 Broad in vivo antitumor activity
8
mTOR inhibition decreases angiogenesis
  • mTOR regulates HIF-1a and HIF-2a expression
    (transcription factors mediating hypoxia-induced
    gene expression)
  • HIF-1a/2a are normally degraded by VHL protein
  • HIF-1 and HIF-2 condition the tumor to adapt to
    growth under hypoxic conditions and promote
    angiogenesis and metastasis

HIF hypoxia-inducible factor VHL von
Hippel-Lindau protein.
9
Evidence of antiangiogenic activity
  • Tumor xenograftbearing mice single 5 mg/kg oral
    dose
  • RAD001 plasma levels never exceed the in vitro
    IC50 for HCT116 (colon) or KB-31 (epidermoid)
    tumor cells
  • However, both HCT116 and KB-31 xenografts are
    sensitive to RAD001 in vivo at this dose
  • RAD001 levels exceed the in vitro IC50 for VEGF-
    or FGF-stimulated human umbilical vein
    endothelial cultures (HUVECs)
  • RAD001 inhibits tumor cell VEGF production in
    vitro and decreases tumor and plasma VEGF levels
    in animal models
  • RAD001 selectively inhibits VEGF-dependent
    angiogenic response in vivo, and reduces
    microvessel density in tumors derived from
    sensitive or resistant cell lines
  • These data suggest an antiangiogenic effect
    against tumors

10
RAD001 reduces microvessel density (B16/BL6)
Vehicle Controls
RAD001
Significant reduction in microvessel density
following RAD001 treatment in primary tumor and
cranial lymphnode metastases (shown)
11
RAD001 Combination potential
Although RAD001 has antiproliferative activity as
a monotherapy, its potential may be better
realized in combination with other therapeutic
agents
  • Chemotherapeutics
  • DNA-damaging agents (i.e. cisplatin,
    temozolomide)
  • Topoisomerase inhibitors (i.e. doxorubicin)
  • MT active agents (i.e. Taxol)
  • Targeted therapeutics
  • ErbB inhibitors (i.e. AEE788 trastuzumab)
  • Estrogen antagonists - aromatase inhibitors (i.e.
    letrozole)
  • BCR-ABL, Kit inhibitors (i.e. imatinib)
  • VEGFR inhibitors (i.e. PTK787)
  • IGF-1R inhibitors (i.e. AEW541)
  • Radiotherapy

12
Combinations with cisplatin(in RAD001-sensitive
H596 NSCLC xenografts)
Tumor Volumes
Body Weights
Combinations of RAD001 and low-dose cisplatin
elicit a more potent antitumor effect than either
agent alone (also in model derived from resistant
line)
P lt 0.05 versus controls by the Dunnett test.
13
Cisplatin combinations Potentiate cell
death(A549 cells cell death with sub-optimal
cisplatin concentrations)
Significant fold induction with P lt 0.05,
t-tests two-way ANOVA indicates
highlysignificant interaction between RAD001 and
cisplatin P lt 0.001.
14
Cell death is dependent on p53 status
Significant fold induction with P lt 0.05,
t-tests.
15
The p53/p21 response
  • DNA damage (i.e cisplatin treatment) activates
    p53.
  • In the presence of extensive DNA damage, p53
    initiates a cell death program.
  • In the presence of sub-optimal DNA damage, p53
    induces p21 expression, a cell cycle inhibitor,
    allows DNA repair (and cell survival).
  • RAD001 inhibits p21 expression forcing tumor cell
    death even at suboptimal cisplatin concentrations
    (non-lethal DNA damage)

Beuvink et al. Cell. 2005120747-759.
16
Rationale for combination with letrozole
  • Akt activation predicts a worse outcome for
    breast cancer patients treated with endocrine
    therapy.
  • Activated Akt mediates resistance to antiestrogen
    therapy (related to HER2 overexpression).
  • mTOR inhibition restores responses to tamoxifen
    in breast cancer models with high levels of Akt
    activity.
  • Synergistic in vitro and in vivo effects have
    been seen with combined antiestrogen therapy and
    mTOR inhibition.

17
Inhibition of estrogen-induced proliferation(arom
atase-expressing MCF7 cells)
Highly significant interactions (??? p lt 0.001
two-way ANOVA) Synergistic effects (isobologram
analysis) Also in aromatase-expressing T47D cells
18
Potential RADIANT Trials
TUNEL
YOPRO
Decreased cell viability as compared to single
agents (YOPRO ?? p lt 0.01 two-way
ANOVA). Defined as apoptosis (TUNEL ? p lt 0.05
Friedman Test). Also in aromatase-expressing T47D
cells
19
Summary
  • mTOR acts as a central regulator of tumor cell
    growth and survival, and activation of the
    PI3K/AKT pathway may predict tumor response to
    mTOR inhibition.
  • RAD001 exhibits a broad antitumor activity, and
    inhibits elements of the angiogenic process.
  • Combination therapy targeting mTOR and other
    targets/processes deregulated in human cancer may
    provide enhanced anticancer activity.

Targeting deregulated pathways has been a
successful clinical strategy in cancer.
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