GSK Oncology Axel Hoos, MD, PhD Senior Vice President, Oncology R&D March 8, 217
GSK pipeline Oncology R&D Strategy Maximizing survival through transformational medicines and combinations Cancer Epigenetics Immuno-Oncology Long-term survival & cures First-in-class medicines Reprogram cancer cells Stimulate anti-tumour immunity Cells as medicines Combination therapy Cell & Gene Therapy 2
Main Trends SOC replacements Elimination of chemotherapy from SOC regimens Immune profiling Patient selection to predict response New technologies Expansion of the toolbox Today CURE Substantial survival improvements Across wide populations Complex combinations Maximise efficacy Improved endpoints Accelerated development 3
Oncology Pipeline Snapshot Mechanism Pre-clinical Phase I Phase II OX4 agonist (GSK3174998) ICOS agonist (GSK335969) BCMA ADC (GSK 2857916) TLR4 agonist (GSK179591) Novel small molecule targets ImmTacs mab-dabs and dual-specific Abs BET inhibitor (GSK525762) LSD-1 inhibitor (GSK2879552) EZH2 inhibitor (GSK2816126) PRMT5 inhibitor (GSK3326595) PI3K beta inhibitor (GSK2636771) Novel small molecule targets NY-ESO-1 TCR-T CAR-T and TCR-Ts Solid tumours, Heme Malignancies Solid tumours Multiple Myeloma Cancer Solid tumours, Heme Malignancies AML, SCLC Solid tumours, Heme Malignancies Solid tumours, Lymphoma Prostate cancer Sarcoma, Multiple Myeloma, NSCLC, Ovarian cancer, Melanoma Immuno-Oncology Epigenetics Cell & gene therapy Other targeted therapies Notch2/3 (tarextumab) Collaboration with a third party. SCLC 4
Immuno-Oncology: 3 Generations of Therapies Generation 1 Generation 2 Generation 3 YERVOY ipilimumab (CTLA-4) KEYTRUDA pembrolizumab (PD-1) TECENTRIQ atezolizumab (PD-L1) Multiple therapies under development 21 211 212 213 214 215 216 217 218 219 PROVENGE sipuleucel-t (Cell Therapy) BLINCYTO blinatumomab (BITE) OPDIVO nivolumab (PD-1) Approved Under development IMLYGIC T-Vec (Oncolytic Virus) Hoos A, Nat Rev Drug Discov 216 5
3 rd Generation Opportunities Spectrum of immuno-oncology modalities T-Cell Immunity Adaptive Immunity B-Cell Immunity Innate Immunity Cytokines Cellular Therapies - NK Cells Cancer Vaccines T-cell Checkpoint Modulators Checkpoint Modulators Connector Bi-specific Abs - Approved therapies Dual-specific Abs Small Molecules Oncolytic Viruses Adjuvants 6
3 rd Generation Opportunities GSK s multi-modality pipeline T-Cell Immunity Adaptive Immunity B-Cell Immunity Innate Immunity Cytokines Cellular Therapies - NK Cells* Cancer Vaccines T-cell Checkpoint Modulators Checkpoint Modulators Connector Bi-specific Abs - GSK Pipeline * in planning Dual-specific Abs Small Molecules Oncolytic Viruses Adjuvants 7
GSK2857916: First-in-class anti-bcma-adc, proof of concept in multiple myeloma B Cell maturation antigen (BCMA) All doses: ORR = 8/3 (27%; 95% CI: 12.3%, 45.9%) At >Ph2 dose 3.4 mg/kg: ORR= 6/9 (66.7%; 95% CI:.29,.92%) High-expression target in multiple myeloma and some NHL Phase I data presented at ASH December 216 Antibody drug conjugate (ADC) with MMAF (auristatin derivative) Immunogenic cell death inducer Phase I efficacy in refractory population: ~67% RR at > phase II dose Next steps: - Rapid development for monotherapy - Combinations with SOC and novel agents Safety observations: Thrombocytopenia, transient Corneal toxicity: dry eye, blurry vision, reversible ASH: American Society of Hematology. 8
Percent survival Percent survival GSK3174998 OX4 agonist mab GSK3174998 is one of several OX-4s in clinic Dual mechanism: enhancing effector T-cell and suppressing T-regs 1 8 6 4 Survival in animal model (CT26) OX-4 + PD-1 aox4 /apd-1 Collaboration with MD Anderson Phase I Study under way in eight cancers Combination with Merck PD1 started 3Q16 2 1 control apd-1 2 3 4 5 6 Time (days) aox4 Survival in animal model (CT26) OX-4 + TLR-4 7 8 9 TLR4a / aox4 Combination with GSK TLR4 expected to start in 2H217 5 TLR4a control 5 Source: GSK, data on file. Study day aox4 1 15 9
OS (%) % of total CD4 T cells Cell count/ L % of total CD4 T cells GSK335969 First-in-class ICOS agonist mab ICOS in ipilimumab-treated patients GSK335969 Uniquely engineered IgG4 mab with agonist function and no cell depletion Evolved from patient selection biomarker Enhances T-cells associated with clinical benefit Universal mechanism across multiple cancers: Phase I ongoing in 8 cancers Possible use after CTLA-4 and PD-1 in unresponsive or refractory patients Possible anchor for combinations: Expected start in combo with Merck PD-1 in 2Q17 8 6 4 2 1 8 6 4 2 CD4 ICOS T cells Baseline W7 W12 W24 Ipilimumab Responders Ipilimumab Non-Responders CD4 ICOS T cells CD4 ICOS 4 CD4 ICOS >4 12 24 36 48 Time (months) DiGiacomo, Clin Immunol Immunother 213 6 1 8 6 4 2.1.1 1 1 1 ICOS Ab (ug/ml) T cell Proliferation in-vitro 25 2 15 1 5 T cell Activation in-vitro CD69+ CD4 T cells 24hr after stimulation Ki67+ CD4 T cells 48hr after stimulation.1.1 1 1 1 ICOS Ab (ug/ml) 1
GSK179591: TLR4 agonist Pre-clinical combination synergy Glycolipid TLR-4 agonist compound TLR4 + OX4 Activates dendritic cells and innate immunity, positively modulates tumour microenvironment Strong combination potential with several IO agents Potential mechanistic synergies with OX4 and ICOS agonist mabs TLR4 + ICOS Phase I in healthy volunteers under way to determine dose and PD effects Phase I combination with OX-4 in cancer patients expected to start 2H17 11
Change in target lesion from baseline (%) NY-ESO-1 TCR-T Cell Therapy TCR T-cell therapy Sarcoma Phase I/II: Individual patient complete response (CR) Baseline Day 2: Inflammation Day 1: CR 5% ORR in synovial sarcoma Ongoing studies in myeloma, ovarian cancer and other solid tumours Planned studies in combination with checkpoint modulators 6 4 2 Sarcoma Phase I/II: Best response in treated patients (N=12)* Best response Stable disease Confirmed complete or partial response 17 15 FDA Breakthrough designation -2-4 -15-16 -26 EMA PRIME designation Collaboration with Adaptimmune Note: GSK3377794 subject to exercise of option by GSK -6-8 -1-12 Excludes 3 subjects who did not receive a T-Cell Infusion. One subject with disease progression is excluded because lesion could not be measured *Subjects did not receive the target cell dose -5 261* 23 26* 27 2 24 22 29 25 28 21 Source: GSK, data on file. Subject number -55-58 -64-7 -1 12
Partnerships GSK partnerships in Cell Therapy and Clinical Translational Research Cell Therapy Oncology Clinical & Translational Consortium And others 13
Epigenetics clinical programs Dhanak et al Nature, 213 LSD1 EZH2 PRMT5 BET 14
gic5, µm GSK525762: BET inhibitor Broad activity across multiple tumor types preclinical cell line models 762 Blocks binding of BET family proteins (BRD2, 3 and 4) to acetylated histones causing targeted changes in gene expression including oncogene silencing 1 Preclinical data: Activity of GSK525762 in many cancer types (gic5 < 1 M) 1 1.1.1.1 Nature 21;468:1119-1123 15
GSK525762: Potential First-in-class BET Inhibitor Early clinical efficacy in NMC; Progress in many tumour types Preliminary evidence of clinical activity in NUT midline carcinoma (NMC) (AACR 216) Across all dose cohort (n=17):12% RR At 8/1 mg doses (n=9): 22% RR Progress in Ph I since AACR 216 Solid Tumor: CRPC and ER positive BC expansion cohorts completed; TNBC, SCLC, NMC cohorts ongoing Heme: Dose finding in AML completed; dose finding in NHL and MM ongoing; expansion cohorts commencing April 217 Anticipate presenting heme clinical data by YE 217 Expect start of combination studies in 217 Pre-clinical data suggest combination synergy Combo in ER positive BC with fulvestrant (active) Combo in mcrpc with abiraterone or enzalutamide (start ~2Q) Other novel combos in 217 and 218 1 8 6 4 2-2 -4-6 -8-1 X X Spider plot of % change from baseline in target lesion diameter X X X 2 mg QD 4 mg QD 8 mg QD #5 8 mg QD #8 5 1 Study day 4 mg QD 16 mg QD 1 mg QD #1 8 mg QD #2 6 mg QD #4 1 mg QD #3 8 mg QD #7 8 mg QD #9 12 / 17 patients with NMC presented (5 non-evaluable ). 15 2 16
Oncology at GSK Mission: Maximise patient survival Achieve a long-term leadership position in Oncology Scientific Focus Optimise T-cell Immunity Re-program cancer cells Cells as medicines Synergies and transformational effects through combinations Tactics Diversified pipeline Across key modalities Innovation 3 rd generation targets, modalities & combinations Build world-class discovery and development team Fully-integrated programs from early discovery through licensure Goals Transformational effects for patients Maximise survival Pipeline sustainability Long-term leadership position in Oncology Partnerships Best science Access to combinations 17