Transcript trastuzumab
Managing HER2- Positive Breast Cancer in the Metastatic Setting: The Evolution of Targeted Therapies Howard A. Burris III, MD, FACP Chief Medical Officer and Director of Drug Development Sarah Cannon Research Institute Memphis, TN Lee Schwartzberg, MD Medical Director, West Clinic Chief, Division of Hematology/Oncology Professor of Medicine University of Tennessee Health Science Center Memphis, TN Breast Cancer Mortality Breast cancer mortality has dropped by nearly one-third since 1990 Early Breast Cancer Trialists’ Collaborative Group (EBCTCG) Lancet. 2011. 1 HER2+ Breast Cancer Subtypes N=114,786 ~21% HER2+ ~79% HER2- 7.1% 10.8% Breakdown of the 21% HER2+ 3.3% ER+/PR+/HER2+ 0.5% ER+/PR-/HER2+ ER-/PR+/HER2+ ER-/PR-/HER2+ Bauer K., Cancer. 2010;10:228. 2 Survival for HER2+ Subtypes • • • Clinical and pathologic features and survival of the four subtypes were compared In ER/PR+,HER2-, chemotherapy conferred significant overall survival advantages Subtype comparison revealed statistically significant differences in outcomes Onitilo A. Clin Med Res Opin. 2009;7(2):4-13. 3 Signal Transduction by the HER Family Promotes Proliferation, Survival, and Invasiveness Receptor-specific ligands HER2 HER2 HER3 HER1, HER2, HER3, or HER4 HER4 VEGF HER1 (EGFR) Plasma membrane P PI3K P SOS Tyrosine kinase domains Akt P RAS RAF MAPK Cytoplasm P MEK Cell proliferation Cell survival Cell mobility and invasiveness Nucleus Ross JS, et al. The Oncologist. 2009;14:320-368. Transcription 44 Current Assays of HER2/neu Immunohistochemistry ‘0’ (negative) ‘1+’ (negative) ‘2+’ (equivocal) ‘3+’ (positive) Fluorescence in situ hybridization (FISH) HER2 gene no amplification FISH negative Murthy SS, et al. Indian J Pathol Microbiol. 2011;54(3):532-538. HER2 gene amplification FISH positive 5 Optimal Testing Algorithm Immunohistochemistry (IHC) Breast Cancer Specimen (invasive component) Positive for HER2 protein expression IHC 3+ (defined as uniform intense membrane staining of >30% of invasive tumor cells) Positive for HER2 gene amplification HER2 testing by validated IHC assay for HER2 protein expression Equivocal for HER2 protein expression IHC 2+ Test with validated assay for HER2 gene amplification Negative for HER2 protein expression IHC 0 or 1+ Negative for HER2 gene amplification Equivocal HER2 gene amplification (Patients with HER2/CEP17 ratio ≥2.0 were eligible for the adjuvant trastuzumab trials) 6 Optimal Testing Algorithm FISH Breast Cancer Specimen HER2 gene amplification FISH positive Positive for HER2 gene amplification (FISH ratio >2.2 or HER2 gene copy >6.0) HER2 testing by validated FISH assay for HER2 gene amplification Equivocal for HER2 gene amplification (FISH ratio 1.8-2.2 or HER2 gene copy 4.0-6.0) HER2 gene no amplification FISH negative Negative for HER2 gene amplification (FISH ratio <1.8 or HER2 gene copy <4.0) Count additional cells for FISH or retest, or test with HER2 IHC Equivocal HER2 gene amplification result (Patients with HER2/CEP17 ratio ≥2.0 were eligible for the adjuvant trastuzumab trials) 7 HER2+ Metastatic Disease Case Review Treatment of a 53-Year-Old Woman With HER2-Positive Metastatic Inflammatory Breast Cancer • A 53-year-old woman presents with T4 N2 M0 ER–/PR–/HER2+ (by fluorescence in situ hybridization) right inflammatory breast cancer • She is treated with preoperative doxorubicin/cyclophosphamide (AC) chemotherapy with minimal response in the breast and axilla and in the diffuse erythema in the skin of the left breast • Her disease is not operable with expectation of clear margins 8 Polling Question 1 Which Neoadjuvant Treatment Would You Recommend? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 9 Discussion Case Review – Progression I Howard A. Burris III, MD, FACP Lee Schwartzberg, MD Case Review – Progression I The patient is subsequently treated with 3 cycles of preoperative weekly paclitaxel/trastuzumab with no response, followed by worsening erythema extending onto her chest wall below her breast and ipsilateral and contralateral supraclavicular fossa. 11 Polling Question 2 Which Treatment Would You Recommend for Case Progression I ? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 12 Discussion Case Review – Progression II Howard A. Burris III, MD, FACP Lee Schwartzberg, MD Case Review – Progression II • The patient is treated with capecitabine/lapatinib for 6 cycles, with improvement in the erythema and a 30% reduction in tumor volume in breast and all nodal metastatic disease • She undergoes a left modified radical mastectomy and has diffuse residual disease in her breast and axilla with diffuse skin and tumor lymphovascular invasion • The margins of resection are clear • She receives radiation therapy and resumes capecitabine/lapatinib postoperatively; however, she develops signs of coronary spasm that require discontinuation of capecitabine 14 Polling Question 3 Which Treatment Do You Recommend for Case Progression II? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 15 Discussion Case Review – Progression III Howard A. Burris III, MD, FACP Lee Schwartzberg, MD Case Review – Progression III • The patient continues lapatinib/trastuzumab for 9 months and then develops progressive disease over the right chest wall as well as bilateral supraclavicular adenopathy • Restaging reveals new pulmonary metastases • Her physician is interested in enrolling her in a trial evaluating investigational HER2-targeted agents and refers her to the ongoing phase IB trial of trastuzumab emtansine (T-DM1)/paclitaxel/pertuzumab 17 Polling Question 4 Which of the Following Statements Regarding Novel HER2-Targeted Agents Is Correct? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 18 Discussion Howard A. Burris III, MD, FACP Lee Schwartzberg, MD Targeted Agents for HER2+ Breast Cancer Trastuzumab Bevacizumab VEGF T-DM1 EGFR VEGFR P P P P PI3-K HER2 P P P P Pertuzumab Akt/PKB PTEN mTOR Lapatinib Neratinib 4E-BP1 S6K1 elF-4E Protein synthesis Cell growth, proliferation, survival, metastasis, angiogenesis 20 Proposed Mechanisms of Action of Trastuzumab Spector N., J Clin Oncol. 2009;27:5838. 21 HER2 Targeting With Trastuzumab Has Changed the Natural History of HER2-Positive Advanced Breast Cancer 1991-2007 Dawood S., et al. J Clin Oncol. 2009;28:92. 22 Polling Question 5 With which of the following statements regarding HER2+ MBC do you agree? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 23 Trastuzumab in First-Line Treatment Slamon et al, 20011 Vogel et al, 20022 Burstein et al, 20033 Marty et al, 20054 Kaufman et al, 20095 Valero et al 20116 469 114 54 186 207 263 Treatment AC/EC + H or T+H vs chemo H VH D+H vs D Anas + H vs Anas DCbH vs D+H Response Rate 50% vs 32%* 35% (IHC 3+) 34% (FISH+) 68% 61% vs 34%* 20.3% vs 6.8%* 72% vs 72% Median TTP 7.4 vs 4.6 mo* 3.8 mo (H at 4 mg/kg) 3.5 mo (H at 2 mg/kg) NR 11.7 vs 6.1 mo* 4.8 vs 2.4 mo* 10.3 vs 11.1 mo Median PFS NR NR NR NR 4.8 vs 2.4 mo* NR 25.1 vs 20.3 mo* 24.4 mo NR 31.2 vs 22.7 mo* 28.5 vs 23.9 mo 37.4 vs 37.1 mo Studies N Median OS AC, anthracycline + cyclophosphamide; Anas, anastrozole; T, paclitaxel; D, docetaxel; EC, epirubicin + cyclophosphamide; H, trastuzumab; mo, months; PFS, progression-free survival; OS, overall survival; RR, response rate; TTP, time to progression; VH, vinorelbine + trastuzumab; *statistically significant 1. Slamon DJ, et al. N Engl J Med. 2001:344(11):783-792; 2. Vogel CL, et al. J Clin Oncol. 2002;20:719-726; 3. Burstein HJ, et al. J Clin Oncol. 2003;21(15):2889-2895; 4. Marty M, et al. J Clin Oncol. 2005;23(19):4265-4274; 5. Kaufman B, et al. J Clin Oncol. 2009;27(33):5529-5537; 6. Valero V, et al. J Clin Oncol. 2011;29:149-156. 24 NCCN Guidelines • • • • Preferred agents for trastuzumabexposed HER2 + disease Lapatinib + capecitabine Trastuzumab + other first-line agents Trastuzumab + capecitabine Lapatinib + trastuzumab National Comprehensive Cancer Network (NCCN) Breast Cancer Guidelines, 2012 available at www.nccn.org. 25 Lapatinib: Targeting HER2 and EGFR • Lapatinib oral tyrosine kinase inhibitor of ErbB1 and ErbB2 – Blocks signaling through EGFR and HER2 homodimers and heterodimers – May also prevent signaling between ErbB1/ErbB2 and other ErbB family members Phospholipid cell membrane PTEN P13K Lapatinib Shc Grb2 Ras Raf So8 pAkt Rusnak DW, et al. Mol Cancer Ther. 2001;1:85-94; Xia W, et al. Oncogene. 2002;21:6255-6263. pErk 26 Randomized Phase III Study EGF10015 • Progressive, HER2+ MBC or LABC • Previously treated with anthracycline, taxane, and trastuzumab* • No prior capecitabine Stratification: • Disease sites • Stage of disease R A N D O M I Z E N=528 Lapatinib 1250 mg po qd continuously + Capecitabine 2000 mg/m2/d po days 1-14 q 3 wk Capecitabine 2500 mg/m2/d po days 1-14 q 3 wk Patients on treatment until progression or unacceptable toxicity, then followed for survival * Trastuzumab must have been administered for metastatic disease Geyer C, et al. N Engl J Med. 2006;355:2733-2743. 27 Progression-Free Survival Lapatinib + Capecitabine Capecitabine No. of pts 160 161 Progressed or died 45 (28%) 73 (45%) Median PFS, wk 36.9 17.9 Hazard ratio (95% CI) 0.48 (0.33, 0.70) P-value (log-rank, 1-sided) 0.000045 Cumulative Progression-Free Survival(%) 100 90 80 70 60 50 40 30 20 Lapatinib + Capecitabine 10 Capecitabine 0 0 10 20 Geyer C, et al. N Engl J Med. 2006;355:2733-2743. 30 40 Time (weeks) 50 60 70 28 Overall Survival: Capecitabine ± Lapatinib 100 Lapatinib + Capecitabine Cumulative Survival (%) 90 Capecitabine 80 70 60 50 40 Lapatinib + Capecitabine 160 29 (18%) NR No. of pts Deaths Median OS 30 20 Capecitabine 161 29 (18%) NR Hazard ratio (95% CI) 0.93 (0.55, 1.59) P-value (log-rank, 2-sided) 0.800 10 0 0 10 20 30 Geyer C, et al. N Engl J Med. 2006;355:2733-2743. 40 50 Time (weeks) 60 70 80 90 29 Alive without Progression (Cumulative %) OS With Lapatinib ± Trastuzumab in MBC 100 80% 80 OS Outcome L (n=145) L+T (n=146) Died, n (%) 113 (78) 105 (72) Median, mo 9.5 14 HR (95% CI) 60 56% 70% 0.74 (0.57-0.97) Log-rank P-value 0.026 6 Month OS 40 41% L L+T 20 12 Month OS 0 0 Patients at Risk, n L 148 L + T 148 5 10 121 102 88 65 15 20 25 Months From Randomization 64 47 43 28 25 13 Blackwell KL, et al. San Antonio Breast Cancer Symposium (SABCS) 2009. Abstract 61. 30 35 1 30 Neo-ALTTO: Study Design Invasive operable HER2+ BC T>2 cm (inflammatory BC excluded) LVEF50% N=450 Stratification: • T≤5 cm vs. T>5 cm • ER or PgR + vs. ER & PgR – • N 0-1 vs N≥2 • Conservative surgery or not lapatinib paclitaxel R A N D O M I Z E trastuzumab paclitaxel lapatinib trastuzumab paclitaxel lapatinib S U R G E R Y F E C trastuzumab X 6 wks + 12 wks 3 lapatinib trastuzumab 34 weeks 52 weeks of anti-HER2 therapy Baselga J, et al. SABCS 2010. 31 Neo-ALLTO: Pathologic Response 70 P=0.0001 P=0.001 (%) Response 60 50 51.3% P=0.34 40 46.9% P=0.13 30 20 24.7% 29.5% 27.6% 20.0% 10 0 L N=154 T N=149 L+T N=152 pCR Pathologic Complete Response L N=150* T N=145* L+T N=145* tpCR Locoregional (total) pCR L, lapatinib; T, trastuzumab; L+T, lapatinib plus trastuzumab; pCR, pathologic complete response. * Excludes 15 patients with non-evaluable nodal status Baselga J, et al. SABCS 2010. 32 Investigational Anti-HER2 Agents Polling Question 6 Which of the following have demonstrated benefit in patients with HER2+ MBC who experienced disease progression on trastuzumab? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 34 Polling Question 7 Which of the following is true of trastuzumabDM1? Please see the multiple answer options on the right and select an answer. Once you submit your answer, your answer selection will be compared with your peers’ responses. The best answer(s) will be discussed in the subsequent slides and commentary. 35 Trastuzumab-DM1 36 T-DM1 Selectively Delivers a Highly Toxic Payload to HER2-Positive Tumor Cells • Trastuzumab-like activity by binding to HER2 • Targeted intracellular delivery of a potent antimicrotubule agent, DM1 T-DM1 binds to the HER2 protein on cancer cells Receptor-T-DM1 complex is internalized into HER2-positive cancer cell Potent antimicrotubule agent is released once inside the HER2positive tumor cell 37 Trastuzumab-TDM1 • Trastuzumab-DM1 (T-DM1) is a novel anti-HER2 antibody drug conjugate in development for treatment of HER2-positive metastatic breast cancer (MBC).T-DM1 combines the HER2targeting properties of trastuzumab2 with targeted delivery of a highly potent antimicrotubule derivative, DM1 – T-DM1 binds to HER2 with an affinity similar to that of trastuzumab. – It is hypothesized that after binding to HER2, T-DM1 undergoes receptor-mediated internalization, 7 resulting in intracellular release of DM1. 38 TDM1 Versus Trastuzumab + Docetaxel 1st line T-DM1 3.6 mg/kg Q3W until PD HER2-positive, recurrent locally advanced BC or MBC (n=137) 1:1 Trastuzumab 8 mg/kg dose; 6 mg/kg Q3W PD + Docetaxel 75 or 100 mg/m2 Q3W Crossover T-DM1 • Randomized, phase II, international, open-label study • HER2-positive, measurable disease required • Stratification factors – World region, prior adjuvant trastuzumab therapy, disease-free interval • Primary endpoints: PFS by INV, safety • Key secondary endpoints: ORR, clinical benefit, OS, QOL, symptom control Perez EA, et al. ESMO 2010. Abstract LBA3. 39 T-DM1 Versus Trastuzumab (T) + Docetaxel (D) in HER2-Positive MBC With No Prior Chemotherapy for MBC T-DM1 (n=67) T+D (n=70) 47.8% 41.4% 37.3% 75.0% Efficacy Summary Overall response rate (ORR) Safety Summary Grade ≥3 adverse event (AE)† † Most common AEs, any grade, T + D: alopecia: 66.2%, neutropenia: 57.4%, diarrhea: 45.6% — these were 1.5%, 7.5%, and 10.4% in pts receiving T-DM1. Most common AEs, any grade, T-DM1: nausea: 47.8%, fatigue: 46.3%, pyrexia: 35.8% — these were 39.7%, 46.2%, and 20.6% in pts receiving T + D. Perez EA, et al. Proc ESMO 2010. Abstract LBA3. 40 Median Progression-Free Survival (months) T-DM1 Activity: Improved PFS 15 P=0.035 10 14.2 9.2 5 Treatment with T-DM1 reduced the probability of disease progression or death by 41% compared with Trastuzumab + Docetaxel HR=0.59, P=0.035 0 T-DM1 trastuzumab + docetaxel HER2+ locally advanced or metastatic Hurvitz S, et al. ECCO-ESMO 2011. Abstract 5001. 41 EMILIA (TDM4370g) Phase III Study: T-DM1 Versus Lapatinib/Capecitabine in HER2+ MBC PD or unacceptable toxicity Patients with HER2+ locally advanced or metastatic breast cancer following treatment with a taxane and trastuzumab (N=980) T-DM1 q3w (n=490) Lapatinib + Capecitabine q3w (n=490) • Primary endpoint: PFS by IRF, OS, safety • Secondary endpoints: QoL (FACT B), DOR, PFS by investigator assessment ClinicalTrials.gov. NCT00829166. 42 Phase III MARIANNE Study: T-DM1 ± Pertuzumab in HER2+ MBC PD Trastuzumab + Taxane (n=364) Patients with HER2+, previously untreated MBC T-DM1 + Pertuzumab (n=364) (N=1092) T-DM1 + Placebo (n=364) • Primary endpoints: PFS as assessed by IRF, AEs – Superiority design with a noninferiority analysis – Interim futility analysis: option to drop experimental arm • Secondary endpoints: OS, TTF by IRF, ORR, CBR, DOR ClinicalTrials.gov. NCT01120184. 43 HER2-Targeted Therapy With Pertuzumab • Monoclonal antibody and pan-HER inhibitor • Binds to a distinct epitope on the HER2 extracellular domain • Prevents dimerization Trastuzumab Fisher, et al. J. Mol. Biol. 2010;402:217-229. Pertuzumab 44 Pertuzumab Recognizes Different Epitopes HER2 Ligand-binding domain (inactive) Pertuzumab Trastuzumab Cell membrane Tyrosine kinase domain 45 Pertuzumab Demonstrates Synergistic Activity With Trastuzumab HER2 receptor Pertuzumab Trastuzumab Subdomain IV of HER2 • Preferentially inhibits ligandindependent HER2 signaling • Prevents shedding of HER2 ECD • Flags cells for destruction by the immune system Junttila, et al. Cancer Cell. 2009. Dimerization domain of HER2 • Inhibits formation of HER2 dimer pairs • Suppresses multiple HER signaling pathways, leading to a more comprehensive blockade of HER2driven signaling • Flags cells for destruction by the immune system 46 HER2:HER3 Dimers May Provide an Escape Mechanism From Trastuzumab Homodimers HER2:HER2 HER3:HER3 Heterodimers HER4:HER4 HER1:HER2 HER1:HER3 HER1:HER4 HER2:HER3 HER2:HER4 HER1:HER1 + HER3:HER4 + + + + + + + + + + + + + + Signaling activity Tzahar E., et al. Mol Cell Biol. 1996. Sergina NV, et al. Nature. 445:437-441. 47 CLEOPATRA: Phase III Trial Evaluating Adding Pertuzumab N=808 HER2-positive Metastatic Breast Cancer Primary Outcome: Progression-Free Survival R First-Line HER2-positive MBC First-Line MBC Could have received prior adjuvant trastuzumab Treatment A: 400 patients Docetaxel* + Trastuzumab + Pertuzumab Treatment B: 400 patients Docetaxel* + Trastuzumab + Placebo 1:1 randomization stratification by (1. pretreated or de novo, 2. region) * At least 6 cycles of docetaxel Baselga J, et al. N Engl J Med. 2012;366:109-119. 48 CLEOPATRA: Response Data 100 90 4.2 5.5 Patients (%) 80 70 60 74.6 50 40 ORR: 80.2% 65.2 ORR: 69.3% 0 PR SD PD 30 20 10 CR 20.8 1.5 14.6 3.8 Trastuzumab + Docetaxel + Pertuzumab (n=343) Baselga J, et al. N Engl J Med. 2012;366:109-119. 1.5 Not evaluable 8.3 Trastuzumab + Docetaxel + Placebo (n=336) 49 CLEOPATRA: Independently Assessed PFS 100 Ptz + T + D: median 18.5 months Pbo + T + D: median 12.4 months 90 80 PFS (%) 70 60 50 40 (HR: 0.62; 95% CI: 0.51-0.75; P<0.0001) 30 20 10 0 0 Pts at Risk, n Ptz + T + D 402 Pbo + T + D 406 5 10 15 20 25 30 35 40 32 17 10 7 0 0 0 0 Months 345 311 267 209 139 93 83 42 Stratified by previous treatment status and region Baselga J, et al. N Engl J Med. 2012;366:109-119. 50 CLEOPATRA: OS Curve Baselga J, et al. N Engl J Med. 2012;366:109-119. 51 CLEOPATRA: Safety Trastuzumab + Docetaxel + Pertuzumab (n=407) Adverse Events (%) Trastuzumab + Docetaxel + Placebo (n=397) All Grades Grade 3/4 All Grades Grade 3/4 Diarrhea 66.8 7.9 46.3 5.0 Alopecia 60.9 NR 60.5 NR Neutropenia 52.8 48.9 49.6 45.8 Nausea 42.3 NR 41.6 NR Fatigue 37.6 NR 36.8 NR Rash 33.7 NR 24.2 NR Decreased appetite 29.2 NR 26.4 NR Mucosal inflammation 27.8 NR 19.9 NR Asthenia 26.0 NR 30.2 NR Peripheral edema 23.1 NR 30.0 NR Constipation 15.0 NR 24.9 NR Febrile neutropenia 13.8 13.8 7.6 7.6 Dry skin 10.6 NR 4.3 NR Leukopenia NR 12.3 NR 14.6 Baselga J, et al. N Engl J Med. 2012;366:109-119. 52 CLEOPATRA: Conclusions • Adding pertuzumab to first-line trastuzumab/docetaxel in HER2+ locally recurrent or MBC improves PFS vs trastuzumab/docetaxel alone • Median PFS prolonged 6.1 months according to independent review – PFS improvement consistent across nearly all patient subgroups – ORR higher with addition of pertuzumab to trastuzumab/docetaxel • Pertuzumab associated with increased incidence of mild and manageable diarrhea, rash, mucosal inflammation, febrile neutropenia, and dry skin • Incidence of cardiac toxicities comparable between treatment arms – Symptomatic LVSD: Ptz + T + D (1.0%) vs Pbo + T + D (1.8%) Baselga J, et al. SABCS 2011. Abstract S5-5. 53 Inhibitors of EGFR-receptors Neratinib Neratinib Gajria D Chandarlapaty S. Expert Rev Anticancer Ther. 2011;11(2):263-75 Review. 54 Neratinib Description • Neratinib is an oral, multi-targeted, irreversible tyrosine kinase inhibitor • In preclinical studies, has been shown to target the ErbB1 (EGFR), ErbB2 (HER2), and ErbB4 (HER4) kinases • Mechanism: covalently binds to ErbB2 at ATP binding site and inhibits tyrosine kinase activity resulting in G0/G1 cell cycle arrest 55 Randomized Phase II: Neratinib Versus Lapatinib + Capecitabine in Locally Advanced or MBC Progression-Free Survival Neratinib L+C n Median PFS 95% CI P-value 117 116 4.5 mo 6.8 mo 3.1–5.7 mo 5.9–8.2 mo 0.231 L, lapatinib; C, capecitabine; PFS, progression-free survival; CI, confidence interval. Overall Survival Neratinib L+C n Median OS 95% CI P-value 117 116 19.7 mo 23.6 mo 18.2 mo–NE 18.0 mo–NE 0.280 L, lapatinib; C, capecitabine; OS, overall survival; CI, confidence interval; NE, not estimable. Most Common Adverse Events Most frequently observed severe adverse events in the trial were diarrhea and hand-foot syndrome; 28% of the patients in the neratinib arm and 10% of the patients in the L/C arm of the trial experienced rade 3/4 diarrhea. 56 Combination Treatments of Novel Anti-HER2 Agents 57 Phase II Trial of Trastuzumab + Pertuzumab in HER2-Positive MBC Patients Progressing During Trastuzumab-Based Therapy Cohorts 1 and 21 Cohort 32 HER2-positive MBC Progressed on trastuzumab + chemotherapy (Cohorts 1 and 2, n=66) Pertuzumab + trastuzumab (n=66) HER2-positive MBC Progressed on trastuzumab + chemotherapy (n=29) Pertuzumab (n=29) Pertuzumab + trastuzumab (n=15) Primary objectives • Safety and efficacy Population • ≤3 prior lines cytotoxic therapy (including adjuvant treatment) 1. Baselga J, et al. J Clin Oncol.. 2010; 28;1138-1144. Baselga J, et al. SABCS 2009. 58 Pertuzumab/Trastuzumab Combination Therapy More Active Than Treatment With Either Agent Alone Cohorts 1 and 2 (P+H) (n=66) Cohort 3 (P) (n=27) Cohort 3 (P&H) CR (%) 7.6 0.0 0.0 PR (%) 16.7 3.4 21.4 ORR (%) 24.2 3.4 21.4 SD (%) 25.8 6.9 21.4 CBR 50.0 10.3 37.5 50.0 82.8 57.1 (CR+PR+SD> 6 months) PD (%) CR, complete response; PR, partial response; SD, stable disease * n=27, as at data cut-off 2/29 patients had not reached overall best response endpoint (8 cycles of assessment during this phase); †n=11, as at data cut-off 4/15 patients had not reached overall best response endpoint (8 cycles of assessment during this phase); ‡at data cut-off, 21 (31.8%) patients had not experienced PD 1. Gelmon, et al. ASCO 2008; 2. Baselga, et al. JCO. 2010; 3. Baselga, et al. SABCS 2009. 59 Phase IB/II Trial of T-DM1 + Pertuzumab in Patients With Locally Advanced and MBC Who Were Previously Treated With Trastuzumab Phase IB/II: HER2-positive MBC in all therapeutic lines (n=67) Primary endpoints • Safety • ORR by RECIST 1.0 Secondary endpoints • PFS • DoR Dose escalation phase (completed) Expansion phase (completed) T-DM1 + pertuzumab (n=9) T-DM1 + pertuzumab (n=58, including 22 first line) Phase IB: 3+3 dose escalation • Cohort I: T-DM1 3.0 mg/kg; pertuzumab (840 mg loading dose, 420 mg maintenance dose) • Cohort II: T-DM1 3.6 mg/kg; pertuzumab (840 mg loading dose, 420 mg maintenance dose) Phase II • Expansion at dose level established in Phase Ib Heavily pretreated population • Median of 6 prior therapeutic agents in the metastatic setting Miller K, et al. ASCO 2010. 60 T-DM1 + Pertuzumab Shows Promising Efficacy in Patients Pretreated With Trastuzumab + Lapatinib Results Total, n (%) (n=28) PR 10 (35.7) SD 13 (46.4) PD 4 (14.3) Missing 1 (3.6) • ORR was 35.7% (10/28 patients), per investigator assessment – All responses were confirmed PRs – 1/13 patients with SD had an unconfirmed response Miller K, et al. ASCO 2010. 61 T-DM1 + Pertuzumab Has an Encouraging Safety and Tolerability Profile Key AE (%) Grade 3 (%) Grade 4 (%) Total (all grades) (%)* Any Events 36.4 4.5 100 Fatigue 13.6 0 52.3 Nausea 4.5 0 5 .0 Thrombocytopenia 6.8 4.5 27.3 Diarrhea 2.3 0 25.0 Vomiting 4.5 0 22.7 AST increase 6.8 0 20.5 Dyspnea† 2.3 0 20.5 AST, aspartate aminotransferase * One Grade 5 AE was reported (pneumonia) in a patient who died before her first tumor assessment. This AE was considered to be unrelated to study treatment; †Primarily attributed to pneumonia or the disease under study (lung metastases and pleural effusions). Miller K, et al. ASCO 2010 Poster 1012. 62 NEOSPHERE: Study Design TH (n=107) docetaxel + trastuzumab Patients with operable or locally advanced /inflammatory* HER2-positive BC Chemo-naïve and primary tumors >2 cm (N=417) FEC q3w x 3 trastuzumab q3w cycles 5–17 S THP (n=107) docetaxel + trastuzumab + pertuzumab U R FEC q3w x 3 trastuzumab q3w cycles 5–17 G HP (n=107) trastuzumab + pertuzumab TP (n=96) docetaxel + pertuzumab E docetaxel q3w x 4→FEC q3w x 3 trastuzumab q3w cycles 5–17 R Y FEC q3w x 3 trastuzumab q3w cycles 5–21 Study dosing: q3w x 4 BC, breast cancer; FEC, 5-fluorouracil, epirubicin and cyclophosphamide; H, trastuzumab; P, pertuzumab; T, docetaxel * Locally advanced=T2-3, N2-3, M0 or T4a-c, any N, M0; operable=T2-3, N0-1, M0; inflammatory=T4d, any N, M0 63 Gianni L, et al. SABCS 2010. NEOSPHERE: pCR Rates P=0.0198 P=0.0141 50 P=0.003 pCR, % 95% CI 40 45.8 30 20 29.0 24.0 10 0 16.8 TH H, trastuzumab; P, pertuzumab; T, docetaxel Gianni L, et al. SABCS 2010. THP HP TP 64 Summary: Pertuzumab and T-DM1 Are Promising New Therapeutic Agents for HER2-Positive MBC Pertuzumab • First HER2 dimerization inhibitor • Has demonstrated encouraging clinical efficacy and tolerability in combination with trastuzumab • Offers a more comprehensive approach to blocking HER2-driven signaling than trastuzumab alone T-DM1 • First HER2-directed ADC delivering cytotoxic drug specifically to HER2-positive tumor cells while retaining the biological activity of trastuzumab • Has demonstrated encouraging clinical efficacy and tolerability in heavily pretreated patients Clinical trials of both agents are ongoing, including pertuzumab and T-DM1 in combination 65 AVEREL: Study Design Women with previously untreated HER2-positive locally recurrent/metastatic breast cancer (N=424) Trastuzumab 6 mg/kg† + Docetaxel 100 mg/m2 + Bevacizumab 15 mg/kg, all given q3w (n=216) Trastuzumab 6 mg/kg† + Docetaxel 100 mg/m2, both given q3w (n=208) Stratified by previous (neo)adjuvant taxane, adjuvant trastuzumab, hormone receptor status, measurable disease Treatment until disease progression or unacceptable toxicity* • Primary endpoint: PFS (investigator assessed) • Secondary endpoints: OS, ORR, duration of response, TTF, safety * Planned minimum of 6 docetaxel cycles administered; †Trastuzumab 8 mg/kg loading dose given. Gianni L, et al. SABCS 2011. Abstract S4-8. 66 AVEREL: PFS, Interim OS Analysis, and Response T + Doc + Bev (n=216) T + Doc (n=208) Median PFS (Investigator assessment) 16.5 Median PFS (IRC assessment) Median OS Outcome, Months • • HR (95% CI) P Value 13.7 0.82 (0.65-1.02) 0.0775 16.8 13.9 0.72 (0.54-0.94) 0.0162 38.5 38.3 1.01 (0.74-1.38) (unstratified) 0.9543 0.94 (0.68-1.30) (stratified) 0.7078 ORR similar between T + Doc + Bev and T + Doc in investigator assessment (74.3% vs 69.9, respectively; P=0.3492) ORR significantly higher with addition of Bev in IRC assessment (76.5% vs 65.9, respectively; P=0.0265) Gianni L, et al. SABCS 2011. Abstract S4-8. 67 AVEREL: Conclusions • Addition of bevacizumab to first-line treatment with trastuzumab and docetaxel in patients with HER2positive advanced breast cancer may prolong PFS – Findings not significant according to investigator-assessed PFS (primary endpoint; P=0.0775) – Findings significant according to independent review of PFS (exploratory endpoint; P=0.0162) • Bevacizumab-associated AEs led to higher incidence of discontinuation of any study drug Gianni L, et al. SABCS 2011. Abstract S4-8. 68 Discussion Thank You! Howard A. Burris III, MD, FACP Lee Schwartzberg, MD