What are the latest treatment advances for HER2-positive metastatic breast cancer? Eric Winer, MD, director of the Breast Cancer Program in the Susan F. Smith Center for Women's Cancers, discusses some of the latest research and treatment options.
This presentation was originally given as part of the 2015 Metastatic Breast Cancer Forum, held on October 17 at Dana-Farber Cancer Institute in Boston, Mass.
For more information, visit www.susanfsmith.org
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The Latest Treatments for HER2-Positive Breast Cancer
1. Treatment Advances in HER2+
Breast Cancer
Eric P. Winer, MD
Chief Clinical Strategy Officer
Director, Breast Cancer Program
Dana-Farber Cancer Institute
Eric_Winer@dfci.harvard.edu
2. In 1995, HER2+ breast cancer was
one of the most aggressive types
of breast cancer and was very
difficult to treat.
4. 1.0
0.0
0.2
0.4
0.6
0.8
P < 0.001
0 5 10 15 20 25
Months
Trast + CT (n = 235)
Median TTP = 7.4 mon
CT alone (n = 234)
Median TTP = 4.6 mon
Probability
Chemotherapy +/- Trastuzumab:
Proportion of Patients with Cancer Under Control
Slamon DJ, et al. N Engl J Med. 2001;344(11):783-792.
When trastuzumab was first approved based on the results
above, few thought it would have such a profound effect
on the course of HER2+ breast cancer
5. A Trial That Could Have Failed…
• Unexpected toxicity
• Inaccurate testing for HER2
• Little enthusiasm for antibody-based
therapy in the late 90s
And yet impact on disease management and survival
has been far greater than suggested in initial trial
6. Critical Observation:
HER2 Addiction
This means that HER2+ breast cancer
is dependent on HER2 signaling
even when the cancer gets worse
after initial treatment with trastuzumab
7. Capecitabine +/- Lapatinib
Time to Progression
70
10
20
30
40
50
60
70
80
90
0
100
* Censors 4 patients who died due to causes other than breast cancer
10 20 30 40 50 600
Time (weeks)
Capecitabine
Lapatinib +
Capecitabine
43%28%Progressed or died*
19.736.9Median TTP, wk
161160No. of pts
%ofpatientsfreefromprogression*
Geyer et al, NEJM 2006
Objective Response rate 22% vs 14%
HR 0.51 (0.35-0.74)
p=0.0016
8. Progression-Free Survival: Lapatinib
vs Lapatinib + Trastuzumab
L
N = 145
L+T
N = 146
Progressed or Died, n 128 127
Median, wks 8.1 12.0
Hazard ratio (95% CI) 0.73 (0.57, 0.93)
P value 0.008
6 Mo PFS
Cumulative%AlivewithoutProgression
Subjects At Risk
148
148
L
L+T
53
73
21
42
13
27
5
8
0
2
13%
28%
0
20
40
60
80
100
0 10 20 30 40 50 60
Time from Randomization (wks)
Blackwell et al, JCO 2010
ORR 6.9% vs 11.3%, NS
Significant improvement in
overall survival also seen
9. HER2+ Disease: Major Clinical
Advances Over The Past 15+ Years
1998
Initial Randomized
Trial Demonstrating
Benefit of Trastuzumab
2002
First Preoperative
Trials Reported
2005
Three Large
Adjuvant Trials
Reported
2005
Lapatinib
Approved
2007-
2008
Initial Trials
Of T-DM1,
Pertuzumab,
Neratinib
Phase II
Randomized
Trial of T-DM1
2010
2010
Preoperative
Trials of
Dual Blockade
Phase III
of Pertuzumab
2011
Phase III
of T-DM1
vs Cape/Lap
with subsequent
approval
2012
Pertuzumab
Preop
Approval
2013
Neratinib
2015
10. Trastuzumab and Pertuzumab Bind to Different
Regions on HER2 and Have Synergistic Activity
HER2
receptor
Trastuzumab
Pertuzumab
Subdomain IV of HER2
Dimerisation domain
of HER2
10
11. CLEOPATRA:
Phase III Trial of Docetaxel + Trastuzumab vs
Docetaxel + Trastuzumab + Pertuzumab
• End points
– PFS and OS
– quality of life
– biomarker analysis
1:1
HER2-positive
MBC
(53% no prior chemo
10% prior trastuzumab)
Docetaxel + trastuzumab
+ placebo
Docetaxel + trastuzumab
+ pertuzumab
N=800
12. Improvement with Pertuzumab in
Cleoapatra
• Disease control (progression free survival)
–6 months
• Overall survival
–15 months (biggest benefit ever seen)
14. Maytansine analogue DM1 (antitubule akin to vincas)
conjugated to trastuzumab – similar to gemtuzumab
(Myelotarg)
Beeram et al. J Clin Oncol 2008.
Trastuzumab-DM1
(T-DM1), a HER2 Antibody-Drug Conjugate
Average number DM1
molecules/monoclonal
antibody=3.5
Y
T-MCC-DM1
HER2-mediated
internalization
T-MCC-DM1
T
Lysine-
MCC-
DM1
Lysosomal
degradation
Active metabolite cannot cross plasma
membrane (no bystander effect)
15. HER2 Gene Amplification Results in Marked
Overexpression of HER2 Proteins
(and therefore a great target)
2,000,000 HER2 proteins on cancer cell
16. EMILIA Study Design
• Primary end points: PFS by independent review, OS, and safety
• Key secondary end points: PFS by investigator, ORR, duration of
response, time to symptom progression
1:1
HER2+ (central)
LABC or MBC
(N=980)
• Prior taxane and
trastuzumab
• Progression on
metastatic tx or
within 6 mos of
adjuvant tx
PD
T-DM1
3.6 mg/kg q3w IV
Capecitabine
1000 mg/m2 orally bid, days 1–14, q3w
+
Lapatinib
1250 mg/day orally qd
PD
Blackwell et al, ASCO 2012
and NEJM 2012
21. Prognosis After Diagnosis of
HER2+ Brain Metastases
Overall Survival Pre- and Post-
Trastuzumab Era in HER2+
Patients with Brain Mets
Karam et al, Radiat Oncol 2013
Dijkers et al, Clin Pharmacol 2010
More recent series have suggested that
median survival approaching 2 years
22. Untreated Brain Metastases Before and
After Treatment With T-DM1
Baseline After 4 Cycles
Bartsch et al
J Neurooncol 2013
23. Resected
HER+ Brain
Metastases
Histology
Genomic/Genetic/Epigenetic
Primary Tx
in mammary gland
Primary Tx
in the brain
Secondary expansion
Testing drugs/
Drug combinations
Study mechanisms of
Drug sensitivity and
resistance
PDX Models of Brain Metastases Derived From Resection of
Brain Metastases in Patients With HER2+ Disease
Personal Communication:
Jean Zhao
24. Treatment Approach For Patient
Presenting With HER2+ MBC in 2015
First Line:
Taxane +
Trastuzumab +
Pertuzumab
Second Line:
TDM-1
Third, Fourth….Line
Capecitabine + Lap
Capecitabine + Trast
Vinorelbine + Trast
Lapatinib + Trast
Other chemo + Trast
Endocrine Therapy + Trast
Important Exception:
Some patients with ER+/PR+ disease can be treated up front
with hormonal therapy +/- anti-HER2 therapy
25. Summary
• Great progress to date, but there further
progress needed
• We cannot be complacent and rest on the
advances that have been made
• Major problems:
– Drug resistance
– Brain metastases
– Treatment-related toxicities
– Cost of therapy